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Groundwater Contamination-Final ~.. EXPANDED SITE INSPECTION SALINA PUBLIC WATER SUPPLY WELLS SITE SALINA, SALINE COUNTY, KANSAS CERCLIS Identification Number KS 0984966770 . Kansas Department of Health and Environment Bureau of Environmental Remediation Pre-Remedial Unit/Remedial Section June 1993 . ~ . EXPANDED SITE INSPECTION SALINA PUBLIC WATER SUPPLY WELLS SITE SALINA, SALINE COUNTY, KANSAS EP A ID#: KSD984966770 . June 1993 Kansas Department of Health and Environment Bureau of Environmental Remediation Remedial Section Pre-Remedial Unit Project Manager: Pamela K Chaffee, Environmental Geologist . - . . . SECTION SECTION 1. SECTION 2: SECTION 3: SECTION 4: SECTION 5: SALINA PUBLIC WATER SUPPLY WELLS SITE EXPANDED SITE INSPECTION TABLE OF CONTENTS PAGE INTRODUCTION................................... 1 SITE INFORMATION. 2.1 Site Location ................................ 3 2.2 Climatic Conditions ............................3 2.3 Site Description .............................. 3 2.4 SiteHistory..................................4 2.4.1 History of the Salina Public Water Supply. . . . . . . . 4 2.4.2 History of the Salina PWS Wells Site. . . . . . . . . . . . 5 2.5 PotentiaISources..............................7 2.5.1 PCE-Containing Wastes at Dry Cleaners. . . . . . " 8 2.5.2 Underground Storage Tanks. . . . . . . . . . . . . . . . . 8 2.5.3 Spills.................................. 8 2.6 Hazardous Substance Characteristics. . . . . . . . . . . . . . . 8 2.6.1 Chlorinated Hydrocarbons. . . . . . . . . . . . . . . . .. 8 2.6.2 Petroleum Hydrocarbons. . . . . . . . . . . . . . . .. . . 10 2.6.3 Other Volatile Organic Chemicals. . . . . . . . . . . . . 10 WATER/SOURCE SAMPLING 3.1 SamplingLocations............................12 3.2 AnalyticaIResults.............................12 3.3 AnalyticaIConclusions..........................13 GROUND WATER PATHWAY 4.1 HydrogeologicSetting..........................14 4.2 GroundWaterTargets.........................14 4.3 Ground Water Sample Locations. . . . . . . . . . . . . . . . . . 16 4.4 Ground Water Analytical Results. . . . . . . . . . . . . . . " 17 4.4.1 Public Water Supply Wells. . . . . . . . . . . . . . . . . . 18 4.4.2 PrivateWaterWells.......................20. 4.4.3 Ground Water At Potential Source Areas. . . . . . .. 20 4.4.4 Other Areas of Contamination. . . . . . . . . . . . . . . 22 4.5 Ground Water Pathway Conclusions. . . . . . . . . . . . . . . 23 SURFACE WATER PATHWAY 5.1 HydrologicSetting.............................24 5.2 SurfaceWaterTargets..........................24 5.3 Surface Water Sample Locations. . . . . . . . . . . . . . . . . . 24 5.4 Surface Water Pathway Conclusions. . . . . . . . . . . . . .. 25 . SALINA PUBLIC WATER SUPPLY WELLS SITE EXPANDED SITE INSPECTION' TABLE OF CONTENTS (Continued) SECTION PAGE SECTION 6: SOIL EXPOSURE AND AIR PATHWAYS 6.1 Physical Conditions........................... 26 6.2 SoilandAirTargets............................26 6.3 AirMonitoring................................26 6.4 Soil Exposure and Air Pathway Conclusions. . . . . . . .. 26 SECTION 7: SUMMARY, CONCLUSIONS AND RECOMMENDATIONS 7.1 Summary..................................27 7.2 Conclusions................................ 27 7.3 Recommendations............................29 SECTION 8: REFERENCES....................................30 . LIST OF FIGURES Figure 2-1 - General Highway Map, Saline County, Kansas Figure 2-2 - Site Location Map Figure 3-1 - Ground Water Sample Location Map Figure 4-1 - Geologic Map Figure 4-2 - Bedrock Surface Map Figure 4-3 - Geologic Cross Sections Figure 4-4 - Water Table Map Figure 4-5 - Pumpage Vs. VOC Concentrations in PWS Well #3 TABLES Table 2-1 - VOC Analytical Data from the Salina PWS Wells SSI, 1990 Table 2-2 - Facilities Which Were Investigated as Potential Sources Table 4-1 - 1991-92 Analytical Data - Ground Water Probe Samples Table 4-2 - Well Owner Information 8 Table 4-3 - 1990-92 VOC Analytical Data for Well Water Samples . Attachment 1. Attachment 2. Attachment 3. Attachment 4. Attachment 5. . Attachment 6. Attachment 7. Attachment 8. Attachment 9. Attachment 10. Attachment 11. Attachment 12. Appendix A - 8 Appendix B - SALINA PUBLIC WATER SUPPLY WELLS SITE EXPANDED SITE INSPECTION TABLE OF CONTENTS (Cont,nued.l ATTACHMENTS VOC (THM) analytical data - Salina PWS distribution system: 1978 to March 1985 VOC analytical data - Salina PWS distribution system: May 1985 to May 1990 VOC analytical data - Salina PWS distribution system: June 1990 to March 1992 VOC analytical data - Salina PWS wells: May 1985 - May 1990 Facilities Which Were Investigated as Potential Sources - Detailed Information Sample locations and rationale In-field analytical results Tables A & B Driller's Logs for test holes and wells Water Well Information VOC analytical data - Salina PWS wells: December 1990 to July 1992 Environmental Assessment of the Former Huntsingers Store in Salina, Kansas, prepared by Plains Environmental Services, June 1992. Site Latitude and Longitude Coordinates Calculation Worksheets APPENDICES Analytical Laboratory Reports Pre-Score Information Sheets . J one 1993 1 Salina PWS Wells ESI 1. INTRODUCfION Under authority of the Comprehensive Environmental Response, Compensation, and Liability Act of 1980 (CERCLA) and the Superfund Amendments and Reauthorization Act of 1986 (SARA), the Remedial Section of the Bureau of Environmental Remediation (BER), Kansas Department of Health and Environment (KDHE), conducted an expanded site inspection (ESI) at the Salina Public Water Supply (PWS) Wells Site in Salina, Kansas. The ESI was conducted as part of a cooperative agreement with the U.S. Environmental Protection Agency (EP A), Region VII, under which the KDHE will perform investigations of selected contamination sites in Kansas. The purpose of this ESI is to identify potentially responsible parties and begin collecting data necessary to prepare a Hazard Ranking System (HRS) scoring package for National Priority List (NPL) documentation purposes. . In response to an EPA study involving testing for volatile organic chemicals (VOCs) in public water supplies, sampling of the Salina distribution system and subsequently its municipal wells in .l.2ß5.. revealed the presence of VOCs (benzene, tetrachloroethylene (PCE), toluene, and 1,2-dichloroethane (1,2-DCA» in some of the wells. Continued monitoring for VOCs in the city's public water supply (PWS) wells and distribution system has shown that PWS wells #3, #8, #1, and #4 have consistently (and less consistently in PWS wells #5 and #13) shown contamination by PCE. Well #3 has also shown contamination by gasoline constituents. A few private wells to the south and southwest of the municipal well field have also shown low level contamination by VOCs, including PCE. The scope of this ESI included reviewing historical file information, sampling of environmental media to attribute hazardous substances to site operations and to establish representative background levels, collecting additional non-sampling information, and interviewing city officials, private property owners and facility operators. Site and field activities were conducted for the ESI during the summers of 199Jand 1992. The ESI consisted of: 1 1) A historical file and record search to determine current and former commercial business and industry types that potentially use or used the chlorinated solvents and petroleum hydrocarbons detected in ground water at the site, 2) conducting interviews with local business owners and facility operators to determine activities, chemicals used, and waste handling procedures used (past and current ), 8 3) collection of soil vapor and ground water samples in the vicinity of the contaminated PWS wells and potential contamination source areas, utilizing the KDHE/BER Geoprobe unit, . J one 1993 2 Salina PWS Wells ESI 4) resampling of the PWS wells and some private lawn and garden wells, 5) obtaining historical water quantity use data for ground water and surface water sources to the Salina PWS and additional water quality data for the PWS wells from the Water Division of the City of Salina 6) surveying elevations of some private and public water supply wells. . . ~ . J one 1993 3 Salina PWS Wells ESI 2. SITE INFORMATION 2.1 Site Location The City of Salina lies in the Smoky Hill River Valley of the Smoky Hills physiographic region of Kansas. The city is located in the central portion of Saline County, mostly west of the Smoky Hill River (Figure 2-1). The Union Pacific Railroad passes through Salina and interstate highways 70 and 135 run just north and west, respectively, of the city. The geographic coordinates for the Salina PWS Well #3 at the municipal water treatment plant and distribution point, are 38°50'1.0" N latitude and 97°36'26.0" W longitude (Reference 1; 2). The site is located in portions of Sections 13 and 24 in Township 14 South, Range 3 West (Reference 1). 2.2 Climatic Conditions Salina is characterized by a subhumid, continental climate. Summers are hot with an average mean daily temperature in July of 80.8°F. The winter months are moderately cold with an average mean daily temperature in January of 27.3°F. The average yearly precipitation at Salina is 28.95 inches (Reference 3). . 2.3 Site Description The Salina PWS Wells Site is located in the central portion of the City of Salina, Saline County, Kansas (Figure 2-2). The site is a long, narrow area averaging less than one-half mile width and is slightly more than one and one-half miles in length (Figure 2-2). It is bounded on the north and south by Walnut and Claflin streets. From north to south, the site is bounded on the west by Seventh, Highland and Ninth streets. On the east, the site is bounded by a diagonal line from Front to Santa Fe streets. The site consists of slightly more than 300 acres and is located on relatively flat terrain that slopes gently from an elevation of approximately 1235 feet above mean sea level (msl) in the southwest to nearly 1225 feet in the northeast. The old Smoky Hill River channel, which cuts through the center of the city, has an elevation of approximately 1215 ft in the northeastern portion of the site (Reference 1). The newer rechannelized portion of the Smoky Hill River, located in the eastern portion of the city, provides drainage of the river outside of the heart of the city and is the location of the current surface water intake for the city's water supply (Reference 1; 4). The northern one-third of the site is part of the oldest portion of the city. Land use consists predominantly of commercial business and light industry, some residential homes, and municipal recreational areas to the east and along the old Smoky Hill River channel. The southern two-thirds is predominantly residential with some small commercial businesses 8 along Santa Fe, Crawford, and Ninth Streets. . J one 1993 4 Salina PWS Wells ESI Many of the businesses and industries that have operated over the years at and near the site, use or have used various chemicals containing VOCs as part of daily operations. These include automobile service and repair, dry cleaning, printing, grain storage, and painting. Petroleum and chlorinated hydrocarbons (or chlorinated solvents) are the two classes of VOCs most commonly used for oil and grease removal by businesses involved in the maintenance and repair of automobiles, machines and small appliances; dry cleaning of textiles and fabrics; printing and painting. Other typical uses include cleaning of electrical parts, and for removal of dye, glue, ink and paint by various businesses and industries. Some VOCs were commonly used as grain fumigants. The current site boundary roughly encompasses an area of ground water contaminated with the chlorinated solvents PCE, and trichloroethylene (or TCE). Ground water in some areas of the site is also known to be contaminated with gasoline constituents (e.g. benzene, toluene, xylenes, ethylbenzene, ethylene dibromide, and 1,2-DCA). Salina PWS wells included in the site boundary are #1, #3, #4, #5, #8 and #13 (Figure 2-2). Contamination within the site boundary shown in Figure 2-2 is the primary focus of this report. . PWS wells #2, #6, and #14 have had no history of significant VOC contamination. VOCs detected in PWS wells #7 and #10 have either been low levels of trihalomethanes (1HMs) or attributable to laboratory contamination (Reference 5). Although some VOC X contamination has been detected in PWS wells #11, #12, #15, the VOCs detected indicated a different type of contamin~nt source (or sources), and may require a separate investigation . in the near future. Two private lawn and garden wells within the ESI site' boundary showed contamination by PCE and are located downgradient of contaminated source areas. 2.4 Site History 2.4.1 History of the Salina Public Water Supply Until the drought of the 1950's, the' City of Salina was solely dependent upon ground water for its public water supply. Early records indicate the city used deep wells along the Smoky Hill River for water supply and the rise and fall of the river had no effect on the well water supply. Also noted in these early records were reports that the Smoky Hill River was unfit for domestic use because of pollution by vegetation, feedlot runoff, etc. (Reference 6). In the mid-1950's, the city experienced a ground water supply shortage from its well field and in October 1956 began using surface water from the Smoky Hill River (Reference 7). At that time, the surface water intake was located in the old Smoky Hill River channel near the city's waterworks plant (near PWS Well #3 in Figure 2-2), where water from the city's 8 well field and surface water were blended and treated before entering the public water supply distribution system (Reference 4). . J one 1993 5 Salina PWS Wells ESI As a result of major flooding in 1951, flood control works began in the Smoky Hill River valley near Salina in the late 1950's and were completed by 1961. Included was the cutoff of the old channel and diversion of the Smoky Hill River around the east side of the City of Salina (Reference 7). Because the location of the city's surface water intake was in the old channel near the municipal waterworks plant, some flow was maintained in this channel by means of a gate works (Reference 4). Problems arose in the early 1960's with the disposal of lime sludge from the City water treatment plant into the old Smoky Hill River channel, at a time when streamflow was significantly reduced due to the diversion into the newer channel. An aesthetically undesirable appearance occurred in the old channel resulting in complaints from the public (Reference 6). Also in the early to mid-1960's, the city water supply experienced problems with offensive tastes and odors. Early analytical testing for organics indicated that contaminants in the well water supply had a highly unpleasant odor resembling butyric acid which was characteristic of dairy or meat processing wastes (Reference 6). Since the late 1970's the City of Salina has tested its public water supply distribution system . for trihalomethanes (THMs), as required by the Safe Drinking Water Act (Reference 6; 8). THMs are volatile organic chemicals (VOCs) formed as the result of chlorination of water (for disinfection purposes) containing naturally occurring organic materials (Reference 9). During the period of August 1978 to September 1983, concentrations of THMs totalling more than the maximum contaminant level (MCL) of 100 micrograms per liter ,(pg/L) allowed in public water supplies, were common in samples collected from the distribution system (Reference 6; 10). Attachment 1 summarizes THM analytical data for the PWS distribution system during this period. MCLs are federal drinking water standards established for public water supplies (Reference 8). Changes were made in the chlorination process in early 1984 and the amount of THMs produced in the treated water supply was greatly reduced (Reference 11). Concentrations of total THMs only exceeded the MCL during the month of September in 1986, 1987, and 1988 (Reference 12). Late in 1989 the surface water intake was relocated from the old Smoky Hill River channel to the rechannelized portion of the river approximately one mile east of the former intake point (Reference 4) (see Figure 2-2). Since that time, the total THM concentrations have not exceeded the MCL. THM analytical data for the PWS distribution system since 1985 are summarized in Attachments 2 and 3. 2.4.2 History of the Salina PWS Wells Site In response to an EP A study involving testing of public water supplies for VOCs, the KDHE 8 had the City of Salina sample water from its distribution system for VOC analysis in May 1985. The results indicated in addition to THMs, low levels of the VOCs benzene, toluene, . Jone 1993 6 Salina PWS Wells ESI and tetrachloroethylene (also known as perchloroethylene or PCE) were detected (Reference 6). VOC analytical data for the PWS distribution system are summarized in Attachments 1, 2 and 3. Sampling and testing of ground water in August 1985 also indicated VOC contamination in some of the city's PWS wells (Reference 6). Since the initial sampling, the city and KDHE have continued to monitor both the PWS distribution system and wells for VOCs. Analytical results for ground water samples collected from the PWS wells prior to this investigation are summarized in Attachment 4. With the exception of concentrations of total l1IMs and benzene, no VOCs exceeded drinking water standards in the public water supply distribution system. Benzene was detected at levels slightly above the 5 p,g/L MCL in May of 1985 and 1986 (7.9 p,g/L and 7.2 p,g/L, respectively). In late 1988, a preliminary assessment (PA) was conducted of the Salina PWS Wells Site by the KDHE. After a review of the existing data, the report concluded that nine of the city's fifteen PWS wells were contaminated by VOCs, with Wells #1, #3, #4, and #5 showing the highest concentrations. The P A report recommended further investigation based upon the VOC contaminants detected, the number of persons potentially affected, and a preliminary score under the hazard ranking system (HRS) (Reference 12). '8 In 1990, the KDHE conducted a scanning site investigation (SSI) at the site. The Salina PWS wells and distribution system were resampled. The SSI concluded that some of the PWS wells (particularly #1, #3, #4, #5, #8, #11, #12, #13, and #15) showed sporadic, yet persistent, contamination by one or more of the chlorinated hydrocarbons (a class of VOCs), tetrachloroethylene (PCE), trichloroethylene (TCE), and 1,2-dichloroethane (1,2-DCA) (Reference 5). The other PWS wells (#2, #6, #7, #10, #14, and #16), had either no contamination or had only occasionally shown very low levels of these VOCs. VOC analytical data for the PWS wells prior to sampling conducted during the ESI is summarized in Attachment 4. The SSI report also concluded that ground water contamination by gasoline had affected a portion of the city PWS well field from 1985 through early 1987 as evidenced by petroleum hydrocarbons (particularly benzene) detected in samples from PWS wells #3, #8, and #13, and the distribution system (Reference 5). ' Several private wells were located and sampled during the SSI. TCE and/or PCE were detected in three of these wells at trace to low levels (below MCLs) (refer to Table 2-1). Small quantities of other VOCs (Le. l1IMs, toluene, or carbon tetrachloride), were also detected in a few of the private wells. Site boundaries in the SSI were drawn to include all wells where any VOC, not attributable to laboratory contamination, had been detected in ground water (Reference 5). 8 8 Jone 1993 7 Salina PWS Wells ESI Continued monitoring for VOCs in water from the PWS wells and distribution system was ' recommended. In addition, further investigation by the KDHE was recommended to identify sources of the VOC contamination (Reference 5). KDHE conducted an expanded site inspection of the site in 1991-1992. Field work for this investigation involved two phases of sample collection. In October and November of 1991 all of the Salina PWS wells and eight private wells were sampled. In addition, ground water samples were collected from 13 locations using a hydraulic probe sampling device to initiate source area definition. As a result of the first phase of sampling PWS wells #3 and #4 were taken out of service by the city due to elevated concentrations of PCE (and benzene in Well #3) (Reference 13; 14). The second phase of the ESI, in July 1992, included resampling the PWS wells and three private wells for verification purposes and collection of ground water samples from an additional 13 probe locations for additional source area characterization (Reference 15; 16). 2.5 Potential Soorces 8 Information collected from the ESI indicates currently and historically, that numerous types of commercial businesses and light industries have utilized and/or generated VOC- containing materials or wastes in and near the Salina PWS Wells site. Included are grain elevators, automotive service and body repair shops, gasoline filling stations, hospitals, and printing, painting, dry cleaning and chemical supply businesses (Reference 15; 16; 17; 18; 19). The majority are located in or near the northern portion of the site, the older part of the city, and along the major streets of Salina (e.g. Santa Fe Avenue and Crawford Avenue). , Preliminary identification of these potential sources are listed in Table 2-2. This table may not be complete in identifying all of the potential source areas within the site boundaries. Additional work may be required to research files to identify additional past or present' sources. Ground water contamination by VOCs at the site is presumably due to improper handling and disposal of VOC-containing products and wastes by past commercial or private operations. Activities may include spillage, leakage, or discharge (1) onto the ground surface, (2) from materials buried below ground surface, (3) from underground storage tanks (USTs), (4) into or near older, abandoned or substandard water wells, or (5) into the municipal sanitary sewer. Improper disposal of VOC containing wastes on the ground surface or into the municipal stormwater sewer, could also allow contaminants to flow into the former Smoky Hill River channel, which cuts through the City of Salina and a portion of the site. Several VOCs have been detected in the Salina PWS wells at the site, indicating various types of contaminant sources. However, the major contaminants of concern (with 8 concentrations exceeding MCLs in well water samples), are the chlorinated hydrocarbon PCE and the gasoline constituents 1,2-DCA and benzene. Other VOCs found in ground water at heavily contaminated areas of the site included TCE, 1,2-dichloroethylene (1,2- . .J one 1993 8 Salina PWS Wells ESI DCE), vinyl chloride, 1,2-dichloropropane (1,2-DCP), all chlorinated hydrocarbons, and ethylene dibromide (EDB). Low concentrations of other VOCs have been detected in various wells, but not at levels to be of concern at the present time. 2.5.1 PCE-Containing Wastes at Dry Cleaners Hazardous wastes generated at dry cleaning facilities which us~ PCE as their main cleaning process include waste PCE filters and still bottom residues (Reference 17). Prior to the regulation of handling, storage and disposal of these hazardous wastes, they were commonly stored and disposed of with the municipal trash service and/or discarded on site (Reference 15; 17). At some dry cleaning facilities, air laden with solvent vapor may also represent a release of a hazardous waste to the atmosphere and to soil if condensation results near the ground surface (Reference 20). Other businesses with similar activities may have also used VOC containing solvents prior to the requirements of RCRA notification. Records of chemical use and disposal were not obtained and may not exist for these older operations. 2.5.2 Underground Storage Tanks (USTs) 8 USTs containing petroleum hydrocarbon fuels that have leaked are referred to as LUSTs. Several known or potential LUST sites have been identified in or near the Salina ESI site boundaries and are included in Table 2-2 (Reference 18, 19, 22). Those listed are based on locations where ground water samples have indicated the presence of one or more petroleum hydrocarbons. In addition, several facilities along and near the Union Pacific railroad track on 4th Street allegedly received bulk fuel directly from railroad cars for storage and distribution (Reference 23). 2.5.3 Spills Several spills have been reported within and near the site boundaries. Some have included spillage of fuels and oil along the railroad tracks north of the site, others have involved spills on major streets and highways (Reference 24). 2.6 Hazardoos Sobstance Characteristics 2.6.1 Chlorinated Hydrocarbons The chlorinated hydrocarbons detected are generally clear, nonflammable liquids that evaporate relatively easily at room temperature. They are man-made (not naturally occurring), and generally have a characteristic sweet odor (Reference 25, 26, 27). 8 These chlorinated hydrocarbons are somewhat soluble in water and are generally more dense (heavier) than water. Therefore, they will sink in the aquifer to an impermeable 8 J one 1993 9 Salina PWS Wells ESI boundary and then migrate downslope. These chemicals degrade very slowly in ground water, often taking years. Because many of the chemicals are closely related, the degradation process gradually converts each chemical into simpler forms. For example, PCB degrades to TCE, which in turn degrades to DCE, and finally to vinyl chloride. Vinyl chloride may degrade to ethane and nontoxic materials. The degradation process is primarily due to soil microbes which use the chemicals as a food source. However, the microbes may not be able to survive in high concentrations of the chemicals. For this reason, the rate of decay or degradation near the source of a large spill or release may be very slow. Tetrachloroethylene (PCE, also known as perchloroethylene, perc, tetrachloroethene, perk, and perchlor), is a nonexplosive solvent that rapidly dissolves vegetable, animal, and mineral oils, greases, tars, and some waxes and resins. The most common use of PCE is in dry cleaning, for which it has been used as a solvent since 1934. PCE is also used extensively as a degreasing solvent for liquid and vapor cleaning of metals. In addition it is used as a chemical intermediate and in the manufacture of blended safety solvents (Reference 25). 8 Single exposures to high concentrations of PCE in air (particularly in closed, poorly ventilated areas), can cause dizziness, headache, sleepiness, confusion, nausea, difficulty in speaking and walking, and possibly unconsciousness and death. Skin irritation may result from repeated or extended contact with the chemical. PCE has been given the classification of possible human carcinogen (Reference 25). A maximum contaminant level (MCL) of 5 p,g/L PCE in water was recently established for public water supplies (Reference 28). Trichloroethylene (TCE, also known as trichloroethene), is an exceptionally good solvent for organic chemicals, oils, greases, and tars. TCE is widely used as a solvent in vapor- degreasing applications. Other applications include caffeine extraction from coffee, wool- fabric scouring, adhesives, formulation of solvent blends, and nominally for dry cleaning and as an anesthetic in childbirth (Reference 26); TCE can cause people who breath high amounts to become dizzy, sleepy or unconscious. Some people exposed to high levels of TCE have damage to some of the nerves in the face, and some develop skin rashes when contact is made with the chemical. Although TCE has tested positive as a carcinogen in animals, it has not been classified as carcinogenic to humans (Reference 26). The MCL for TCE is 5 p,g/L in public water supplies (Reference 28). 8 1,2-Dichloroethane (1,2-DCA, also known as ethylene dichloride), is primarily used in the manufacture of and solvent for various chemicals, plastics and rubber. It is a degreaser in the engineering, textile and petroleum industries; and an extracting agent for soybean oil and caffeine. It is also used as a pickling agent, fumigant, and a dry cleaning agent (Reference 27). In the past, 1,2-DCA was used as a lead scavenger in tetraethyllead (TEL) antiknock fluids which were added to gasoline. These fluids normally contained 1,2-DCA . J one 1993 at about 30% of the weight of TEL, along with some ethylene dibromide (EDB) (Reference 20). Because the use of leaded gasoline has fallen, the use of 1,2-DCA as a gasoline additive has also been reduced (Reference 27). 10 Salina PWS Wells ESI Exposure to large amounts of 1,2- DCA through inhalation or ingestion may cause nervous system disorders and liver and kidney disease. EP A has classified 1,2- DCA as a probable human carcinogen (Reference 27). The MCL for 1,2-DCA is 5 /-lg/L (Reference 28). 2.6.2 Petroleum Hydrocarbons The petroleum hydrocarbons benzene, ethyl benzene, toluene, and xylenes are constituents of gasoline and have been found in ground water in some areas of the site. Benzene is by far the most toxic of these four petroleum constituents. Benzene, although a naturally occurring substance, is also a major industrial chemical made from coal and oil. As a pure chemical, benzene is a highly flammable, clear, colorless liquid. At room temperature benzene is very volatile and is fairly soluble in water. Benzene released at or near the soil surface can be transported to the air through volatilization and to surface water through runoff. If the released benzene is buried' below the surface, then 8 the most likely transport mechanism will be leaching to ground water (Reference 29). Because of its solubility and the fact that it is less dense (or lighter) than water it will migrate readily in ground water, in the upper portion of the aquifer. Benzene is an important component of gasoline and is used to make other chemicals, as well as some types of plastics, detergents, and pesticides. It is highly toxic and a known human carcinogen (Reference 29). The MCL for benzene is 5 /-lg/L (Reference 28). 2.6.3 Other Volatile Organic Chemicals At one or more sample locations, other toxic VOCs detected in ground water at levels exceeding MCLs were ethylene dibromide, vinyl chloride, 1,2-dichloropropane. Ethylene dibromide (EDB, also known as 1,2-dibromoethane), is a colorless liquid with a mild, sweet odor. It evaporates easily and can dissolve in water. Being more than twice as dense as water, EDB will sink and it will stay in ground water and soil for a long time, but will break down quickly in air. Historically, the main uses of EDB have been as a pesticide and gasoline additive. The EP A stopped most of the use of EDB as a soil and space fumigant in 1984. The addition of EDB to leaded gasoline acted as a lead scavenger and produced better fuel efficiency. With the increased environmental concern over atmospheric lead pollution, the use of leaded gasoline has declined significantly and so has this use of . EDB (Reference 30). . J one 1993 EDB is toxic by inhalation, ingestion, and skin absorption. It is a strong irritant to skin and ' eyes (Reference 31). Although EDB has tested positive as a carcinogen in animals, it has not been classified as carcinogenic to humans (Reference 30). The MCL for EDB in water was recently established at 0.05 f.lg/L (Reference 28). "11 Salina PWS Wells ESI Vinyl Chloride can exist as a liquid if it is kept under high pressure. Liquid vinyl chloride evaporates easily if exposed to air. It is soluble in water and thus can leach through the soil and travel to ground water before evaporation can occur. If it enters ground water it ca~ stay there for many years. Vinyl chloride is used to make plastic products such as pipes, wire and cable coatings, and packaging materials. Other uses include furniture and automobile upholstery, wall coverings, housewares, and automotive parts. At one time vinyl chloride was also used as a refrigerant, a propellant in spray cans, an extraction solvent for heat-sensitive materials, and in some cosmetics. It is no longer used for these purposes. Vinyl chloride is also a breakdown product of other chemicals, such as PCE, and TCE (Reference 32). Vinyl chloride is an extremely toxic and hazardous material by all avenues of exposure and is a known carcinogen (Reference 31; 32). The MCL for vinyl chloride is 2 f.lg/L (Reference 28). 8 1,2-Dichloropropane (also known as propylene dichloride), is also a colorless liquid that has a chloroform-like odor and evaporates quickly at room temperature. Before the early 1980's, 1,2-dichloropropane was used in farming as a soil fumigant and was found in some paint strippers, varnishes, and furniture finish removers. Other historical uses included an intermediate in the synthesis of carbon tetrachloride, lead scavenger in gasoline, textile stain remover, oil and paraffin extract, scouring compound, and metal degreasing agent, especially prior to electroplating. 1,2-Dichloropropane is now used in the United States only in research and industry (Reference 33). Ingestion or inhalation of high levels of 1,2-dichloropropane can result in dizziness, headache, nausea, injury to the liver and kidneys, anemia, coma and, ultimately, death. The EPA has classified 1,2-dichloropropane as a probable human carcinogen (Reference 33). The MCL for 1,2-dichloropropane in water was recently established at 5 f.lg/L (Reference 28). 8 . . 8 TABLE 2-1 VOC Analytical Data from the Salina PWS Wells SSI, May 1990 (units in /-lg/L) Sample Location PCE TCE 1.2-DCA Salina PWS Well #1 1. OJ - - Salina PWS Well #2 2.01 0.6J - Salina PWS Well #3 50.0 4.0J - Salina PWS Well #4 4.0J - - Salina PWS Well #5 - - - Salina PWS Well #8 23.0 2.0J - Salina PWS Well # 1 - 1. OJ 7.0 Salina PWS Well # 15 - 6.0 - Reed Well (26) 4.0J 2.0J - McElfresh Well (25) 1. OJ - - Betts Well (28) 0.8J - - Abbreviations: PCE jLg/L PWS VOC J - Tetrachloroethylene - micrograms per liter - public water supply - volatile organic chemical - Compound was identified; but its concentration was too low to quantify. Reported value is estimated. TCE l,2-DCA - Trichloroethylene - l,2-Dichloroethane - not detected Source: U.S. EPA Contract Laboratory Program, 1990 Note: Only selected VOCs are reported. . !~ T 135 . 0 U T z 6 '" u -.. Z i ...J 135 - T14S ~/~ OTT¡::'WA ~ ~ '" ~~ - - --, ,- -.- - eo ..: Sr- ; ~ . 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'" ".r'r ,"--... ~I~ 0:: 0:: . _: 'f'V )' C-- '" ,,'.'O~" ~ ~ , .. ,'"' II: II: FIGURE LEGEND GENERAL HIGHWAY MAP SALINE COUNTY KANSAS I t I III -.. ....... ---- ""."""0 ,......... ...-.. .....~....~ ;::::::: =":::'::::~::";::;.;;::::=:!i:= ~~~~~~J;~f~i~?~::::::::::::':::::~ '.....:::.-.:::::;:':~,~~~,~~~,~,~........,....",..,~ -.-...- KANSAS DEPARTMENT OF TRANSPORTATION BUREAU OF TRANSPORTATION PLANNING -.-..--..- u . DC"".'.'" ,........,.,- "DC... .oO-.' ._,.,....~ """"U'_OTe_" ",'- I 1983 EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 ~I -I 11:. 5 5 . i ~ t ~ TI6S ~~-1 _0:: I C'.1>/. O°.l¡., 2-1 . TABLE 2-2 FACIUTIES WHICH WERE INVESTIGATED AS POTENTIAL SOURCES Facilltv Name City of Salina, General Services * St. John's HospitaJ A-Z Oeaners * Burr's Body Shop * Former Firestone * Stewarts Model Laundry & Cleaners * Quinley's Master Dry Cleaners * U.S.D. 305 Maintenance Shop * Taco Johns Robert L Constable Law Office Manpower Temporary Services Former Western Auto * Salina Park and Forestry Department Consolidated Printing Salina Journal Asbury-Salina Regional Med Center * McCord Tire Co. * Former Week's Self Serve Station * 8 Sears Auto Service Center * Express Cleaners * Sampson's Plumbing & Heating VIP Cleaners * Franks 66 Service * Johnson & Son Cleaners * Fast One-Hour Cleaners * Southside Service One Hour Martinizlng * Sinclair Marketing Co. Location 412 E. Ash St. 139 N. Penn St. 500 E. Iron 211 S. Fifth St. 200 S. Fifth St. 211-215 S. Santa Fe Ave. 216 S. Fifth St. 256 S. Fifth St. 303 S. Santa Fe Ave. 256 S. Santa Fe Ave. 255 S. Santa Fe Ave. 306 S. Santa Fe Ave. Oakdale Park 319 S. Fifth St. 333 S. Fourth St. 400 S. Santa Fe Ave. 423 S. Santa Fe Ave. 505 S. Santa Fe Ave. 510 S. Santa Fe Ave. 540 S. Santa Fe Ave. 311 E. Crawford Ave. 820 E. Crawford Ave. 701 S. Ninth St. 953 S. Third St. 1208 S. Santa Fe Ave. 1417 S. Ninth St. 1501 S. Ninth St. 1513 S. Ninth St. Tvee of Oeeration Vehicle maintenance Hospital Former dry cleaners Former auto body shop Former auto service Former dry cleaners Former dry cleaners Vehicle maintenance Former gasoline station Former gasoline station Former gasoline station Former auto service Maintenance. painting Printing Newspaper printing Hospital Tire and auto service Former gasoline station Former auto service Dry Cleaners Former plbg & htg Dry Cleaners Former gasoline station Former dry cleaners Dry Cleaners Active gasoline station Former Dry Cleaners Active gasoline station Note: The facilities listed here were initIally identified as potential sources for VOC contamination and were subsequently investigated. This is not considered to be a complete listing of potential sources, and the listIng of a facility or property owner does not indicate that the owner or operator is responsible' or liable for contamination at the site. * Detailed facility information is presented In Attachment 5. ,8 ....: VJ J:: - c: Q) > Q) VJ Walnut St. I I First Presbyterian Church l SALINA Claflin Ave. LEGEND: CÐ Salina PWS Well . Private Well FIGURE 2-2 SITE LOCATION MAP SCALE: 1 Inch = 0.3 Mile SOURCE: Kansas Department of Health and Environment, GIS Center 8 . 8 J one 1993 12 Salina PWS Wells ESI SECflON 3. WASTE/SOURCE SAMPLING 3.1 Sampling Locations The locations and rational for all samples collected during the ESI are summarized in Attachment 6. Soil vapor samples were collected to characterize source areas. Three soil vapor samples were collected in November 1991 and four were collected on July 9, 1992. Equipment malfunction prevented in-field analysis on soil gas or collected ground water samples on July 10, 1992 (Reference 15; 16). Soil vapor samples were collected onsite or immediately adjacent to several potential VOC source areas at the Salina PWS Wells site. Facilities targeted included common solvent-using businesses (i.e. dry cleaners, printing, and automotive service facilities), and underground storage tank (UST) sites. Soil vapor samples were analyzed in the field with a Shimadzu Gas Chromatograph utilizing an electron capture and flame ionization detectors (Reference 15; 16). 3.2 Analytical ResoIts Results of the in-field analyses for VOCs on soil vapor and headspace of collected ground water samples are presented in Attachment 7 as Tables A and B. Probe locations from which soil vapor and ground water samples were collected during the ESI are shown in Figure 3-1. ' Significant concentrations of PCE, TCE, and benzene were detected in soil vapor collected at a depth of ten feet in probe location SG 19 at the former One-Hour Martinizing dry cleaning facility at 1501 S. Ninth St. (refer to Figure 3-1). The TCE concentration detected at location SG 19 may represent the degradation of PCE contamination at the location and/ or contamination by solvents at other nearby potential source areas not identified during the investigation. In addition, the benzene contamination detected may represent leakage of gasoline from USTs at two nearby filling stations or a reported 1985 gasoline leak, located upgradient of this location (Reference 15; 16; 22; 24). A significant (yet estimated) concentration of PCE was detected in soil vapor at a depth of six (6) feet in the supply loading area near the rear portion of the Fast One-Hour Cleaners located at 1208 S. Santa Fe Avenue (probe location SG 15 in Figure 3-1). A soil vapor sample collected at a depth of twelve (12) feet at this location showed a significantly reduced concentration of PCE (Reference 15; 16). A low concentration of PCE was detected in soil vapor collected at probe location SG 14, near PWS Well #4 and the former Sampson's Plumbing and Heating facility at 311 E. Crawford. The sample was collected at a depth of 39 feet, near the water table because an initial attempt to obtain a ground water sample was not successful (Reference 16). 8 8 8 J one 1993 13 Salina PWS Wells ESI Soil vapor samples were collected at depths of nine to ten feet near the former A-Z Dry Cleaners (probe location SG 26) and solvent use areas at the City of Salina General - Services facility (probes locations SG 30 and SG 31). Field screening of the soil vapor samples did' not indicate contamination by chlorinated solvents. However, benzene was indicated in soil vapor collected at probe location SG 30 which was taken near a former leaking underground storage tank (LUST) at the city facility (Reference 16). 3.3 Analytical Conclosions The waste source sampling confirmed the presence of solvent and petroleum hydrocarbon contamination in shallow (6 to 10 feet) soil vapor samples collected at suspected source areas. Confirmed areas of contamination include the Fast One-Hour Cleaners at 1208 S. Santa Fe Avenue, the former One-Hour Martinizing at 1501 S. Ninth Street, and the former LUST site at the city's General Services facility. At deeper depths, lower concentrations or absence of VOCs in soil vapor may indicate areas preceding, interspersed between or subsequent to contaminant plumes or the absence of VOC contamination in the unsaturated subsurface. VOCs detected near the water table (e.g. at probe location SG 14) indicate contamination of the ground water without clear evidence of the source area. , .,',,'" , , :','- , " I, , . . ... . -------.. I I I ...-':: 'n ....... - ~ ' - , ........... ,. N . -- '... ....... , ~, , , ...... 00 ......... M C . ',~I ~ ' " .. -...-...-...- oo-oo.- '. .'" 0 I; :z . '~, """:'--, .. .oo .., ., 3 . ..~' ',.,\ \\ Ie, ! .....0. , d :::I . ,.' "" £, ~ ..". . ::: ~ ',', I,' . :5 ~:: ....'. ...-... ,..,.. .- 0 . -.'" . 1'- . '" . Ie '" , , .. ~ .... 0 . : £ .,',,'/ =- .1 .. ... N . ",,', .. .. I; .....:¡: L&J . .. N " " , " .. ... r ..~ .... I-- . . -. .' \ /", ."". - =/ . "'" H .. "'... 'I., ,,1...~, "... II ... ' , "..¥.' .. ~ V) ~ '. "';"------',; '/.... . t." '-j - - I '~"'-"!! .,'.., . II II """ . .. . It. . 'IS HUnOJ --~- I :::: ...... ~il . I Go... "-. i¡\ ~ S.-' r -..."" i -......, r .l:d~ . . . ". "!'; , " I I r --' .... , . .-., < .,. I """ . : . . , , "i. '-"" ì I .'" OW" . . . ...... . : . ... co.... -... .. II . ... ...~ . jl . . -':'1 - . -... . ' . ¡~! \\)U W. ~ i . II [ ',.. u "w, ! III' ". 6LL-J .,.",,~ \ IJ. 0: -'3! "I .,.", """ ......,. . "'. = .1\ 'I ! -:~ j ~o--...~: ¡. . 1,: ¡ I . . '!. i: -'.: OJ . " ' = I. "'J L- .° '" ~J . . " -....- "'--"""'¡'-.O '!; Eo . i : ~ I ' ........ . . ." .,." . '[ ~ -' ::.. ~~ ~ : ¡ -" - . '" ." , . ';; 5' . /' "', :.". .;; . ~ ~ E .....: ~ ...::: M : . "5:. "" "'" ..... : -¡I I' ,~. .~ ¡.,...... ~ OY",},;:::::::.. ~II "..... .-]j~1 """ II ~ I~" II ""'Innnn~ ;'r LEGEND: ...,n.. . ~rtr): = Underg::::-ound storage tank locations ~ = Well water sample locations . = Soil gas probe (ground water sample) PES = Plains Environmental Services ."- = Drainage ditch locations FIGURE 3-1 GROUND WATER SAMPLE LOCATION MAP SCALE: 1 Inch = 533 Feet SOURCE: Rocky Mountain Aerial Surveys, Aerial Photograph, March 9, 1991. EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 . . Jone 1993 14 Salina PWS Wells ESI 4. GROUND WATER PATHWAY 4.1 Hydrogeologic Setting The major portion of the City of Salina is situated on a broad alluvial flood plain of four converging streams: the Smoky Hill River, the Saline River, Mulberry Creek, and Dry Creek (refer to attached topographic quadrangles). The Smoky Hill River, which flows through the eastern part of Salina, has a flood plain averaging two miles in width south of the city. North of Salina, the Saline River flows eastward along a flood plain of two and one-half to three miles in width northwest of the city, and shares a common flood plain with the Smoky Hill River to the northeast. To the northwest, Mulberry Creek, which flows northeastward into the Saline River, has a flood plain of one and one-half to two miles (Reference 34). The Salina PWS Wells site lies on alluvium of Recent (Pleistocene) age, predominantly in the Smoky Hill River Valley (Figure 4-1). The alluvium consists of stream-laid deposits of clay, silt, 'sand, and gravel. Underlying the alluvial deposits is the Wellington Formation of Permian age. It forms the bluffs and upland surface in the vicinity of Salina and in some areas it unconformably underlies the Kiowa Shale (Cretaceous age) (Reference 35). The thickness of the alluvial deposits and the configuration of the underlying bedrock in the . vicinity of the site are shown in Figures 4-2 and 4-3. In the vicinity of the site, the thickness of the alluvial deposits ranges from approximately 70 feet to 75 feet from south to north with the thickest deposits at PWS Well #3 (82 feet thick) and in test hole #63 (94 feet thick) (Reference 6; 35; 36; 37). Driller's logs for the test holes and PWS wells are included as Attachment 8. The finer materials of the alluvium commonly occur in the upper part and the coarser materials in the lower part (Reference 35). Along the west edge of the river valley, the alluvium consists mostly of fine material deposited by.Dry Creek (see cross sections B-B, C-C and K-K in Figures 4-2 and 4-3). The thickness of the upper, finer deposits (clay to silty, sandy clay), ranges from nearly 40 feet near the southern portion of the site to approximately 20 feet in the northern portion. The underlying sand and gravel deposits range in thickness from approximately 30 to 55 feet, also from south to north, with nearly 65 feet at PWS Well #3 (Reference 35; 37). Interbedded in these coarser deposits is at least one layer of clay or silt clay that is one to five feet thick (Reference 35; 36). Hydraulic conductivity in these units can be expected to range from 10-7 centimeters per second (cm/sec) in the clay deposits to 10-1 cm/sec in the sand and gravel portions of the aquifer (Reference 38). The Wellington Formation has a total thickness of 700 feet and consists chiefly of shale. Discontinuous beds of gypsum and impure limestone are found at the outcrops, and thick . beds of salt (Hutchinson Salt Member) occur near the middle of the formation in the . Jone 1993 15 Salina PWS Wells ESI subsurface (Reference 35). Near Salina and at a depth of approximately 200 feet, is a discontinuous zone of solution cavities and collapsed beds which has resulted from the dissolution of salt and gypsum beds in the Wellington by leakage of freshwater primarily from overlying unconsolidated deposits (e.g. alluvium). This zone, which extends southward from Salina to near Wellington, contains large quantities of saltwater and is termed the Wellington aquifer (Reference 39). Historically, the Wellington aquifer had, in some areas, been used to dispose of oil field brine (Reference 40). It has not be used for drinking water or irrigation water supplies. The general contour of the top of the Wellington Formation below the alluvial deposits near Salina, shown in Figure 4-2, indicates a topographically low area in the northern one-third of the site with buried channels trending toward the low area from the south, west and north (Reference 36). Cross section A-A in Figure 4-3 also shows the general slope of the Wellington bedrock surface from south to north in the vicinity of the site. Test holes 184 and 185 in cross section K-K and test hole 1 in cross section C-C also show the north and south buried channels which nearly parallel the longitudinal axis of the site. Generally, the sand and gravel deposits in a buried channel are thicker and coarser, and with higher permeabilities can yield larger quantities of ground water. . Cross sections A-A and K-K in Figure 4-3, show the water table, or ground water surface at Salina to be several feet below' the Smoky Hill River, both the former and current channels. This condition is probably caused by the heavy withdrawals of water from the Salina city wells and reduced recharge from the Smoky Hill River -due to the deposition of silt in the bottom of the old channel (Reference 35). The water table is also shown in Figure 4-4. A large area of depression in the water table, extends outward from the center of the city's well field, which at the time of the figure's data consisted of thirteen wells. The "cone of depression" reflected the city's sole use of ground water after a long period of drought in late 1956 (Reference 36). With the diversion of the Smoky Hill River and Dry Creek away from the city and the present well field of 15 wells, a current water table map would show a larger cone of depression (centered in town), due to a greater distance to recharge from the new Smoky Hill River channel and Mulberry Creek Valley. Alluvium in the Smoky Hill River Valley is the predominant water supply aquifer in the vicinity of the site and the City of Salina. Recharge is predominantly by downward percolation of precipitation and by subsurface inflow from adjacent areas of higher water table elevation, particularly from upstream in the Smoky Hill River Valley and from the Saline River and Mulberry Creek valleys (Reference 36). Discharge other than by well production is by evaporation, transpiration, and seepage into some streams. Reported discharge rates for the city wells range from 800 gallons per minute (gpm) in PWS Well #16 8 . . 8 lone 1993 16 Salina PWS Wells ESI to 1,376 gpm in PWS Well #4. Discharge rates for the three supplemental wells located south of Salina are reported to be 750 gpm or less (Reference 41). The underlying Wellington is a poor water-bearing formation, as it consists largely of shale of low permeability. Shallow wells that tap the shale outside of the alluvial valley have small yields and are subject to failure during periods of drought. Somewhat larger yields are obtained from wells that penetrate the thin beds of limestone and gypsum. Water in the Wellington Formation generally is excessively hard and mineralized, owing to the large amount of soluble minerals in the formation (Reference 35). Some shallow wells located in the higher elevations within four miles of the site, obtain moderate quantities of ground water from sandstone in the Kiowa Formation (Reference 35; 42) 4.2 Ground Water Targets Most of the population within four miles of the site (or 42,951 persons) obtain their drinking water from the Salina public water supply. This includes the City of Salina (42,303 persons) and those served by the Saline County Rural Water District No.3 (648 persons) (Reference 43; 44; 45). The water supply is obtained from fifteen wells located in Salina, three supplemental wells located south of the city (formerly used by the Shilling Air Force Base), and one surface water intake located on. the Smoky Hill River at Salina. Approximately 181 private domestic wells within four.miles of the site supply drinking water to an additional 434 persons (Reference 42; 43). In 1991, nearly 2.5 billion gallons of surface and ground water were used in the City of Salina public water supply. Slightly more than one billion gallons (or 43%) were supplied by the fifteen city wells and nearly 1.4 billion gallons (or 57%) were taken from the Smoky Hill River, all of which is treated and blended at the water treatment plant before distribution. Less than one percent (or 4.6 million gallons) of the total was supplied by the Shilling wells, where ground water is chlorinated at each wellhead before entering the. distribution system (Reference 41; 46). Locations of the PWS wells and surface water intake are shown in Figure 2-1. Details of the fifteen PWS wells located in Salina and information on the population potentially affected by each well are summarized in Attachment 9. Nearly 1,500 acres of cropland are irrigated with groundwater within four miles of the site (Reference 47). Additionally, there are over 200 private wells in Salina used for lawn and garden watering purposes (Reference 12). . . .J one 1993 17 Salina PWS Wells ESI 4.3 Groond Water Sample Locations The PWS wells and several private wells were sampled at least once during the ESI. Figure 2-2 shows the locations of these wells. Wells #3 and #4 had not been used since the summer of 1991 because of the excessive concentrations of PCE detected in samples collected from them. Well #5 was out of commission during much of 1992 for pump repair (Reference 11). During the periods of November 5-8, 1991 and July 9-10, 1992, ground water samples were collected at a total of twenty-six probe locations. The probe locations and rationale are summarized in Attachment 6 and shown in Figure 3.1. The ground water samples were collected directly from the alluvial aquifer using a Geoprobe hydraulic probe device. The depths from which ground water samples were collected are included with the analytical results in Table 4-1. Ground water samples were collected at each probe location for on-site VOC analysis (field screening), with the exception of those collected on July 10, 1992, due to a malfunction in the equipment. Water well samples collected in November 1991 were also field screened. An electron capture detector and in some cases a flame ionization detector were used in a Shimadzu 14A gas chromatograph. Field analytical procedures were conducted in accordance with the KDHE Standard Operating Procedures Manual. The field analysis used a heated headspace technique that extracts the volatile compounds from the water samples (Reference 16). Tables A and B in Attachment 7 summarize the field analytical results from the two sampling events. . Duplicate VOC samples were submitted to the Kansas Health and Environmental Laboratory for confirmatory VOC analysis. The latter analytical results are presented in Table 4-1. The City of Salina provided written consent to KDHE to access city easement to collect ground water samples. All probes locations were on city property except the following: SG 1 and 2 - written permission from Salina Journal World SG 25 - verbal permission provided by Mike Rider of Warmack & Co. Reasons for last minute decisions not to probe at four proposed locations (12, 23, 24 and 29) included: on-site dry cleaning facility using a non-PCE cleaning process, permission to access property was not provided by property owner at 820 E. Crawford, and solvents were not detected in field analyses of soil vapor and ground water samples from nearby probe locations SG 28, SG 30 and SG 31 at the same facility. The field crew were unable to obtain a ground water sample from one probe location. Geoprobe sampling equipment was decontaminated between sampling locations using a high 8 pressure water gun, soap and potable water. Probe rods were air dried before being . ~ Jone 1993 18 Salina PWS Wells ESI reinserted into the ground. An equipment rinse blank was prepared to verify decontamination of the probe rods. All probe locations were plugged with bentonite after samples were collected. Eight private lawn and garden wells were also sampled during the ESI. Four had previously been sampled in 1990 during the SSI (samples #26, #28, #32 and #33 in the SSI report). Well owner information for the eight wells is listed in Table 4-2. The water wells (public and private) were all purged of a minimum of three well volumes prior to sampling. Each was also tagged in accordance with KDHE requirements and located using a Global Positioning Satellite System unit. 4.4 Ground Water Analytical Results VOC analytical data for ground water samples collected from the PWS wells from 1985 through and including the SSI (May 1990) are summarized in Attachment 4. Data for samples collected from private wells during the previous investigation are also included in the attachment. Table 4-3 summarizes the VOC analytical data for the samples collected from the PWS wells located within the ESI site boundaries (Wells 1,3, 4, 5, 8, and 13) since 1990 and includes data . for samples collected by the City of Salina. VOC analytical results for all samples collected from the Salina PWS wells and private wells during the period December 1990 to July 1992 are presented in Attachment 10. The laboratory reports are presented in Appendix A. 4.4.1 Public Water Supply Wells PWS Well #1 Historically, PCE concentrations in Well #1 fluctuated between not detectable to 7 ¡¡.g/L. The proposed MCL for PCE was 7 ¡¡.g/L until July 1992 when the final MCL was established at 5 ¡¡.g/L (Reference 28). The more recent samples collected showed concentrations increasing, but remaining below the final MCL. When detected, the concentration of TCE had not exceeded 1.0 ¡¡.g/L. PWS Well #3 On October 29, 1991, the Salina PWS wells were sampled by the KDHE. The samples were analyzed for VOCs by the Kansas Health and Environmental Laboratory. A sample from Well #3, indicated a concentration of 22.2 ¡¡.g/L of benzene and 7.7 ¡¡.g/L of 1,2-DCA, exceeding the MCLs for both VOCs. Other petroleum-type hydrocarbons and tetrachloromethane (or carbon. tetrachloride) were also detected in the sample. Well #3 had not been used since September 13, 8 1991 (Reference 14). 8 June 1993 19 Salina PWS Wells ESI Analytical results for the October 29th sample for Well #3 were received by the city on November 4, 1991, and the well was immediately shut down. However, the well had been in use several hours each day since November 1. On the morning of November 5, another sample was collected from the well by the KDHE. Although no benzene was detected in this sample, PCE was indicated at a concentration of 17.5 p,g/L. Figure 4.5 graphically demonstrates the volume of water pumped prior to sample collection and the concentrations of benzene and PCB detected in PWS Well #3 during this period. Since the closing of Well #3, the concentrations of PCE have decreased to below the MCL while the concentrations of benzene have, on occasion, exceeded the MCL. This seems to indicate that the lighter petroleum hydrocarbons floating on the water table in the vicinity of the well are drawn into the well initially after a period of nonuse. Conversely, the heavier chlorinated solvents are drawn into the well from deeper portions of the aquifer after a considerable amount of ground water has been pumped from the well. The sporadic nature of these and other contaminants detected in some of the other PWS wells may also be dependent upon pumpage of the well prior to sampling. Low to moderate concentrations of TCE, 1,2-DCA, and carbon tetrachloride continue to be detected in Well #3. . PWS Well #4 A concentration of 21 p,g/L PCE (four times the MCL), was detected in a sample collected from PWS Well #4 by the city in August 1991. Use of Well #4 for public water supply was ceased immediately upon receipt of the analytical results (Reference 13). PCE has continued to be detected in samples collected from Well #4, albeit, at lower concentrations than when it was in use. The most recent sample collected July 7, 1992, showed PCE at level slightly above the MCL Although not in recent samples, the breakdown products TCE and 1,2-DCE have been the only other VOCs consistently detected in this well. PWS Well #5 PCE was detected in Well #5 at a level greatly exceeding the MCL in January 1992. The well was taken out of service soon after, in part for pump service work. The well was not sampled during the remainder of the investigation. Historically, concentrations of PCE in Well #5 have either been undetectable or in excess of the MCL by five to fifteen times. On a few occasions, low levels of TCE have also been detected in samples from this well. PWS Well #8 PCE had been detected at moderate levels until the 1990 and 1991 samples when concentrations exceeded the MCL by more than four times. Low levels of TCE may have been present during 8 . June 1993 20 Salina PWS We~ls ESI that same period but analysis for TCE was not conducted. In the most recent sample, PCE was slightly above the MCL. PWS Well # 13 Recent samples have not indicated PCE at significant or detectable concentrations in Well #13. However, moderate concentrations had been detected in the mid-1980's. Because of its proximity to areas of known PCE contamination in the northern portion of the site, this PWS well was included in the ESI site boundary. Gasoline constituents, particularly 1,2-DCA, have also been detected in samples from this well. The most recent sample had shown 1,2-DCA at a concentration slightly above its 5 ¡..tg/L MCL. 4.4.2 Private Water Wells One private lawn and garden well (Reed) located upgradient of the public wells and downgradient of known ground water contamination in the southern portion of the site, has shown levels of PCE and TCE above MCLs and lower levels of 1,2-DCE. Another lawn and garden well (Pickering) has also shown contamination by PCE and TCE but at lower concentrations (refer to Figure 3-1). . In addition to ground water sampling of the public and private wells during the ESI ground water samples were taken at probe locations for additional characterization of potential source areas. 4.4.3 Ground Water from Potential Source Areas Table 4-2 summarizes the VOC analytical data for ground water samples collected at the probe locations. Laboratory reports for each sample are also included in Appendix A. It should be noted that other unidentified source areas may be present in the investigation area that were not listed or investigated. The following listing is of potential source areas that were investigated. A ground water sample collected in the parking lot of the former One-Hour Martinizing facility located at 1501 S. Ninth St. (probe location SG 19 in Figure 3-1) contained PCE and other chlorinated and petroleum hydrocarbons (several being gasoline constituents) at levels several times the federal MCLs. PCE was not detected in a ground water sample collected from an upgradient probe location (SG 18); however, gasoline contamination was also detected at this location. In the vicinity are gasoline filling stations (Southside Service at 1417 S. Ninth St. and Sinclair Marketing Co. at 1513 S. Ninth St.) and a reported gasoline leak (April 1985) from underground piping at the Taylor Petroleum, Inc. gasoline station at 1715 S. Ninth St. (Reference 22; 24). Ground water samples collected at the back and immediately downgradient of the Fast One-Hour Cleaners located at 1208 S. Santa Fe Ave. (probe locations SG 15 and SG 16, respectively, in 8 Figure 3-1) indicated concentrations of 211 ¡..tg/L PCE and 556 ¡..tg/L PCE, respectively. PCE was 8 J one 1993 21 Salina PWS Wells ESI not detected in a ground water sample collected from an upgradient probe location (SG 17); however, low levels of gasoline constituents were detected. VOCs were not detected in shallow ground water samples collected near the former Johnson & Son Cleaners which had been located at 953 S. Third St. (probe locations sa 20 and SG 21 in Figure 3-1). Due to equipment malfunction, no in-field analysis was performed on soil vapor or the collected ground water samples. Instead, the samples were submitted to the KDHE laboratory for analysis. Since more than twenty years had past since PCE would potentially have been used at this facility, this 'heavy' contaminant may have 'sunk' in the aquifer below the level sampled. The concentration of PCE detected in the November 6, 1991 ground water sample collected from probe location SG 14 near PWS Well #4 and the former Sampson's Plumbing and Heating facility at 311 E. Crawford was 20.3 Jig/L (Figure 3-1). Low levels of TCE and 1,2-DCE were also detected in this sample. A similar concentration of PCE was detected in PWS Well #4 on August 27, 1991. Low levels of PCE, TCE and 1,2-DCE were also detected in ground water collected at probe location SG 13. While this data does not confirm contamination from this former facility, it does suggest the possibility. . A ground water sample collected in the parking lot of the Express Dry Cleaners (formerly Martinizing Dry Cleaning) facility located at 540 S. Santa Fe Ave. (probe location SG 25 in Figure 3-1) contained PCE at a concentration of 298 Jig/L. PCE was not detected in ground water samples collected upgradient of the facility (probe location SG 24 or the Dennis Lilly private water well). Considerable gasoline contamination was detected in a ground water sample collected very near the former Weeks Self-Service gasoline station which had been located at 505 S. Santa Fe Ave. (probe location SG 8 in Figure 3-1). The station allegedly operated from the early 1970's to the early 1980's when several on-site USTs were removed (Reference 14; 16). Gasoline contamination was discovered during the removal of a UST at the former Sears Automotive Center (510 S. Santa Fe Ave.) in late 1989 (Reference 22). This LUST site is upgradient of probe location SG 8 and PWS Well #3. Considerable gasoline contamination was also detected in a ground water sample collected at a probe location near the intersection of Santa Fe Ave. and Mulberry Street (Sa 6 in Figure 3-1). Suspected sources are the UST sites formerly located at each of the four corners of this intersection (Reference 18; 19; 23). Ground water samples were collected by Plains Environmental Services (PES) during a phase II environmental assessment of the Huntsinger Paint and Wallpaper Store which operated subsequent to the former Stewart's Model Laundry & Cleaners at 211-215 S. Santa Fe Ave. 8 Analytical results revealed PCE contamination as high as 46.5 p.g/L near the building on the 8 . 8 .Tone 1993 22 Salina PWS Wells ESI downgradient side (PES probe locations 4, 5, and 6 in Figure 3-1). PCE concentrations on the upgradient side ranged from 0.19 to 11.6 p,g/L (PES probe locations 1,2, and 3) (Reference 48). The PES report for the Huntsinger Store is presented in Attachment 11. The former Quinley's Master Dry Cleaners had beeÍ1located at 216 S. Fifth St., just across the alley to the east of the former Stewart's Model Laundry facility. A ground water sample collected downgradient and one-half block to the east (probe location SG 4 in Figure 3-1), contained PCE at a level of 14.3 p,g/L. Very low levels of PCE and toluene were detected in a ground water sample from location SG 2, near PWS wells #3 and #8. In addition, very low to non-detectable levels of VOCs were detected in ground water samples collected at probe locations SG 1, SG 3, SG 5, SG 7, SG 9, and SG 11 in 1991 and at SG 26, SG 28, and SG 31 in 1992. 4.4.4 Other Areas of Contamination Low to moderate concentrations of TCE and 1,2-DCA have consistently been detected in PWS Well #11. The most recent sample from this well indicated 1,2-DCA at a level slightly above the MCL. Nearby, PWS Well #12 has also consistently shown low concentrations of 1,2-DCA Low levels of several other VOCs have also been detected in Well #12, however only rarely, and have included TCE, PCE, 1,2-DCE, 1,I-DCE, and carbon tetrachloride. Ground water samples from a private lawn and garden well (Miller well), located between wells # 11 and # 12, recently showed contamination by PCE, TCE, and 1,2-DCA at levels below the MCLs (refer to Figure 3-1). Near these wells, ground water samples were collected upgradient and downgradient (probe locations SG 26 and SG 27, respectively), at the Former A-Z Cleaners at 500 E. Iron. Although similar VOCs were not detected in the samples submitted for laboratory analysis, an in-field headspace analysis of the ground water sample from probe location SG 27, revealed low concentrations of TCE and PCE. A separate investigation is recommended for this area of Salina. Moderate concentrations of similar VOCs were detected in an upgradient monitoring well installed at a LUST site at the Long-McArthur Inc. facility located at 340 N. Santa Fe Ave. & 322 N. Fifth St. in the northern portion of the city (Reference 21). A separate investigation is' recommended for this area of Salina. Low to moderate levels of gasoline contamination were detected in ground water samples from probe locations sa 28 and SG 30, respectively, at the City of Salina, Department of General Services facility located at 412 E. Ash St. Neither PCE or TCE were detected in the three ground water samples collected here. Further investigation is scheduled at this facility under the State Petroleum Storage Tank Release Fund (Reference 22). 8 . 8 J one 1993 23 Salina PWS Wells ESI 4.5 Groond Water Pathway Conclosions Ground water sampling indicates the release of PCE in and around several of the Salina PWS wells, near known current and suspected former PCE users, and in private water supply wells located downgradient of these PCE source areas. Gasoline contamination of ground water was also confirmed in samples near known UST and LUST sites and has affected at least three of the PWS wells. Migration of the VOC contaminants to the PWS wells is influenced by high permeability of the sand and gravel portion of the alluvial aquifer, the large quantity of ground water pumped from the Salina well field, and the configuration of the bedrock surface in the vicinity of the site. The latter is characterized by a topographically low area centered in the northern portion of the site with buried channels trending towards the low from the north and south. This configuration will facilitate movement of dense PCE contaminant plumes toward the Salina PWS wells at the site (#1, #3, #4, #5, and #8). These PWS wells are located downgradient and down-the-bedrock- slope from four confirmed PCE source areas. PWS Wells #3 and #4 have been shut down as a result of the PCE contamination. PWS Wells #5 and #8 have also been affected by significant concentrations of PCE within the last two years. A large number of human targets (43,385) rely on ground water produced from the alluvial aquifer. PCE contaminant source areas have been confirmed by both ground water and soil vapor samples at the former One-Hour Martinizing and the Fast One-Hour Cleaners. Additional PCE source areas have been confirmed by ground water samples collected at the Express Dry Cleaners, former Stewart's Model Laundry & Cleaners, and the former Quinley's Master Dry Cleaners. Ground water analytical results confirm significant gasoline contamination in the vicinity of two active gasoline filling stations near the former One-Hour Martinizing dry cleaners (Southside Service and Sinclair), and at the City of Salina - Department of General Services. Significant gasoline contamination was also confirmed in the vicinity of four former gasoline filling stations located at the intersection of Mulberry Street and Santa Fe Avenue and near the former Weeks Self-Service gasoline station. Additionally, LUST records have confirmed gasoline contamination at the former Sears Service Center and the former Franks 66 Service. 8 . 8 LEGEND: FIGURE 4-1 GEOLOGIC MAP Pleistocene Series Cretaceous System Permian System ~ -N- ~ Nal3 Nl Na12 - Alluvium - Loess - Alluvium Kd - Dakota Formation Kkc - Kiowa Shale and Cheyenne Sandstone Pwn - Whitehouse Sandstone and Nippewalla Group - Sumner Group Ps SCALE: 1 INCH = APPROX. 5 MILES SOURCE: STATE OF KANSAS GEOLOGICAL SURVEY, 1964. EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 . I. \ '. TI3S ... ~ .I \\\ ~~~ - r\. $CI<Lt ¡IN MILts -- '~ ~~ ° ~~ . '~ : ~ If, '... I COUNTRY CLUB :! <~ ,~" 160A ~ III I -..0 ~ 5101\°'" ! ~ '1 ~~. 4~ 7 ..~ ~ ~ g . _M~- ~,II - ~. {(.. 9, r ~ 159 I .. , I ,\ '~~ ' '~" .'S, j ,,0 ,~' "6' , .' ~". '92' ""\. J ~..., . ) 5 ~ lie!'> A' . -1\\ ~. ~ U 178~ ~ - ~Q< ~ ~ ~ ,~~~ ;I._~ IA8A- .49 '. . ~ . ,,~~ ,..- ~ < ~77 A 179 '"""': 126AI 157A f'; ,\",-0 \\ ., ,,"1 11 ~::~ ~ ~"'~ ~ .' ~ ~"'", ?'::: ~ " .'0 7~ . 28 ~ ~.., '~I .... 9 ---=-200"-1 1.201 .20Ä 117 8063' c )~~\\~~ '~2 '" ~~II!'>!'>~-'" ~ "'~- \-J2~ ~~~OB4 - ,,41 . ~'.; -~.. '- '\ k ~ 16 A .~4 ~':-ilj\ . ~c~ '\~¡:;. STR~T --= ~" I¿~ ---- '(~ ~2 ~ ,l.-- ~ ~¿ -2 ~ 1\1 t:::" ~ ~ ~ ,.oX ~ \ ¡r;o. '~'_.....:!~ \. ¡ '-..." - -;:/ / ~ ...". ~ 34 7 ::::..------; .197 I I ~ \ ~ - - ,~>- = o. . <'" 012 b.. - """" ,l,'.., ::-- - ~~ :r..T /' . 18e1 I \" 12 I I.~ ~ co --- ,- ~ ~ ~n;~ 1\"== '-H,"- ~~ I\. ~':'J, J ZJ 0' '01'\ ~ ~_J ,----~?<~ 4tils - cP ---- "., j ~ ~ / - - - \ '\ ~~ ~ '- .. = "- /' /,,".' ,/./'"" /" / ~: \~~~i-115~ ~~. t ~- ~ ~ ~Zþ. '", ~,. ///ß:"oO; ",' - '¡¡I\' .>-". i'---- /' --" ~"",,. - "'- 1'\ NI TH ""'0... ~:-1' m 7 '\ ,P¡196 ~~. ~ \:'"' ~ . ~ ~ ~17tt ~ \ ¡ \ITE BdimDARY !. D w:~ ~. !: ~=-?(.~'ì ~ - PHilliP STRt ~ UII ~ . ~ r~,\ ~ I\~ ~^. . ..- --- ~ I AVr-N . I ¡;~ ~~¿ \ '------ ~ '\tÌ1 \ ~ 2~) * ~6' I@) )~2 11¿195 -~ 1--- ~ II~ ./" 16 . 7 "'. 183A ~~~54 / ~ À\~ ~ \\. .\'"-,, I'- ~ ~.." "-9' ~el ."'- -------- u ~ "'",.f ~1i33 '-Ht.EK ~. 1 182¿ ~ ~ 164 í- - ¡ L..---:. ~ ~ . -~~ .,oJ'¿; ~~~i;) . ~ "--""~7 ../" ~,~'" 1 /!/ I ý~ \ 7 ¡ /f7il ,'! ~':,~ ~o T 14 S T 15 S fi ~ .. 3 N a: A ,; ... ù 3 1'1 a: :i. ,; .. " u B ... ,,; ù : '\-, ... ,,; ... MULBtRp.y : /1 /11 II ~ " ,¡ .. VI ... LEGEND ~N".~~ON"~-O.~NOO"~GG_-~C"~OO""~OON_~N"~~OOOO"NOOOOO--~O~-"OO--n"O wå;óåå~õ~"õ;~;ÕÕ~Ó~"~;Õ";~Õ~~"~""~"~ÕÕ~Õ~~~~~ÑÑ"Ñ;å~ó~õ;~õ;~õ~~;ó~ '~"~~OO~"~"""N""~ON~O~~~"O_..oooooo~~~~~~~~~....."N"~N.NN~."".."o. - .----------------------------------------------------------------- ~ ~----------------------------------------------------------------- "'~ . -'" .. .. ..-.. :~~ ~~U.;O~.NC-O."~O..N--"..~_.~O"O_."ON~-NO"O.""".~O"N--N"--"N~~""-.N.N"- . ..................................................................... " oOa__ON"OG.~"~-"~"O~.OONNN_._~G-~~ooO-.""-NO__.~"."~.~~~~~~.-"O-NNNOC . a-- "cc.....-.o.~_...__._.-oOOO---N_-N--_-C._.oo._o..-..c....o.---oa« =- .. ~ . ------------------------N..NNNNNNNNN..NN---___-------------------.- Ù ..~="--------~-------------------------------------------------------- "'a- ,¡ ~-c " C. . ...u -:=~:~~:~~~::=;~~~~::::::=g~~~g3:~:~~~:~~~;:gg=::~~:~:~:~~~~~::~~~:~~ 'E::~£~~~~¿~~=¿i¿i!¿!!¿~£~~~!~~~~~~~;~i~~~~!~~2~~~==2¿¿~¿~~~iii¿~¿i:~i '.a9NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN~ =~~------~---------------------------------------------------------- .1¡ ~ ~OaN"G"aft-waaGfta~~ { ~~;~;õ~~Ñ~~Ñ"~~~~~ ~ .~..~#~~~~~ft~m~m~G : ================== :; . tXISTINC CITY WtLLS Q tXISTINC PRIVATe WELLS 8 CBStRVATION WtLLS A OLD TtST HOLtS . NCW TtST HOLes ..: ftONO""~"N-'~" N.', ftU ~ õ~~~~~õ~~-~~õ~~ ~~ -O__O_""__""_NN NN . -------------NN NN ~ --------------- -- W A ~~Na__-NN~..-O~"C~O.N"O.OON""OO.- u ~.O"N.~..N"~O~__-O.CO".--.-NOO-OO ~ ===========================~===~= ~ .: õ-;; "'~ . . N ..~-.... -~ - '. .. .. ..-~ ---O-""..""ON.OO-N.O.~NNftO"aC_"-a wo NNN----_-"NNNNNN""n""nn"NNN~...O~ - . NNNNNNNNNNNNNNNNNNNNUNNNNNNNNNU"N ": ~ --------------------------------- ..... ~- NOTt: ALl. CLEVATIONS ARt BASED ON MEAN SEA LEVEL DATUM .,; aaO.Na.NN~OON ._~.~o"-"a_-"-m~~a..a ~~:~~ii~~=ii~~¿~~;~;~ ~ _NNNNNNNNNNNNNNNNN~ ~ w------------------ ~ ::; . - 0 .. - w - -N",ft.".a-N""-N...ft : ';,;';';';öö':~~~~:¡ëöö';'; ......~.&&...&......&=... =;;;;;;õ a..o..a !::==!::= ----.. FIGURE 4-2 BEDROCK SURFACE MAP ~d~~~~~::;=::::~~~=:;=::::::::~~:~8 ~z-------------------------------NN :> ~-N".~O_""~=~=~~!~~~~~~~:~:::~~~~~~~~~~~~;:;;~:;::~~~~~~~~~:~;:::: - ------------~ : ;;;¡i;;;;;;;;;;;;; .: ~~~......~......~..~...... ================== UUUUUUUUU"""UUM"M"~ SOURCES: Wilson & Company, May 1957, Latta, 1949. : EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 .zoo 1180 ~~w~x~ 1160 1140 1120 8'LOO U80 1160 1140 '.j!:.' "'. :::' :.~:;, , ¡~; ~! '\'~ :~: :~~~q: 200 201 :lOG ;r~ ~ !Z.2..Q !£QQ Will 1160 L!..1Q 1120 SECTION A-A $7 1120 ""=~ SECTION 0-0, SECTION C-C SECTION B-B K 1180 l8 182 183 184 - -- - - - -- K 186 187 185 - - ---~I~ ~-:~.::5-~~:.~~ --- ~ 188 189 LEGEND r::-=~ Clay 1~,:.,ø.:ß~1 Sand & Gravel CJ Shale SECTION A-A B-B c-c D-D SOURCES: Wilson & Company, Latta, 1949, May 1957, -11= - - - - ----- ------- ------- = = :-"-r",,::,;-:'.~ .:-.-.-.',. '. ;<::;¡ ~ <\~ -----, ~ LEGEN..Q CLAY 3ANO L GRAVEL SHALE FIGURE 4-3 GEOLOGIC CROSS SECTIONS --------- -------,-- -.-.-.-....; !~!}?~~;U N..."..,.,'! Permian- Wellington formation SECTION x-x SECTION X-It EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 ..... I 2..2Q 1200 1180 1160 IIAQ 112~ . (. l . TI3S u , u T J4S ~ (\ ex: .. 001 . - SCALt IN 0 ,. MILtS I YA .... ~4. '" I' LU I ..~~ ,=~""':' °15 ~ I JI I ~, '~.¿ :s31 u. . ,64 ..' 5 . 3& 34 @ ./ 1914 4180 / ~"'O ~ A ,; ~ ..; ~ I") ex: > ,; .. ,. II v B ..; ,; ..; ~ @ ~ ,; ..; - :: MO. PAC. R.R. ,; .: .. /. ~ ~øO~~O"O~~eOoonoon i ~~;~;.~~~õ~~~~ó~~ó : ~~~~~~~~~~~~~~~~~~ ~ ------------------ ~~ftø~~ø~ft~-oe.~ooft.øøe-nCftnoø""~eO~~~N"nnOO_oft~OOOOø--ne'~fteo~-.~o ~Ò;ÕÒÒ~ÒÒ~Õ;~;õõ~ë~~~;.~;~Ò~~~~~~~~";ÕÒ~Ò~~~~~~~~~;Ò~Ò~ò;~õ;~.~Ñ;ó~ '~"~~OO~ft~ftft"N"n~ONno~.n"o~cøO___eonnnn~~..~~~.~~"N"nN.NNnOftftøønoo ~ .----------------------------------------------------------------- n ~----------------------------------------------------------------- co ~ . .-:¡ ... "'-~ . :::-;:~.. ~"""'. . .. ~~ ~On.NC-O_nnOø.N--ft._nøOnOftO~OftøN~-N_~øOnnftO~_nN--Nn_OnNø.~~-.Nø~ft~ ~ =~~~~i~;i::::;;;:;:::ii~::iiii~=~~~~~i~~~=::=::;::;;~;;;:;::;;:;:::8: ~ "'~~~========================~~~~~~~~~~~~~~=========================~= ~O" :: c:-c. . ",.u ~:=~:~~~~~~::=~~~~~:~:::~=~~~~~~~~:~~~:;~~~=g~~:~~~~~~~~~:~~~~~~~~;~~ .....:>~................................................................. ~.: '~~~~~~~~=~B~~~~~~~~~~~~~~~~~~~=;~~~~~~~~~~~~~==~~~~~~~~~~~~~~~~~ .0 . ~NNNNNN~NNNNN~NNNNN~NNNNNNNNNNNNNNNNNNNNN~N"'N~"NNNNNNNNNNNNNNNN"" =;~----------------------------------------------------------------- ~ . : ~ ~øN.~~~ON-._"~nlno ~ .ò~õò~.~~.~..~ò ~~ ~.~-.N~~~~~~~NN NN ,; =============~~ ~~ ~ A NNNO~.-NNO~.-OO~CN.~NnO.OON""øO'- u ~.O"N."O~Nn.O"'~~Nø.nO-O-N.~NO_N.O 0 ---------------------------N---N- ~ --------------------------------- ::: ~ ,,'; "'~ . . N "O-NO =~~ ---.NN~øøftnON.Oø~~"O.nNNn.NÒ.~~~O ~O NNN---_--NNNNNNN"""ft"~~ftNNN~~ø~On ~ . NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNftN .. --------------------------------- ~:~ ~- <! OOOONO_NN",OON .~n.~.~-"O~-"-_nOOOO ~~:i¿¿¿=i:~~:i~:g;;~~ ~ ~NNNNNNNNNNNNNNNNNN ~ ~------------------ U ----- = ~S~~g ~ NNNNN ... . ----- - 0 ---..... ,,- ~- -N"...~_O-N".-N".'" :: ........-:-:-:-:-:...., - 000000000000000000 = .........."'....... - ------------------ : ;;;;¡;;¡;;;;;;;;¡¡ ~ ~..............~........-._-- =============~~~~~ UUUUUUUUUUUUU.."'.'" ~d~~~~=::;~:::;~~~~:;=~::::::::::~8 """-------------------------------NN :0 ~-Nftøn_N..~=~~~~~:~~~~~~~:~~~~~~~~~~~~~~~;~;:::;=:~~~~:~~=::~;:;:: ,¡ . EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 TIS S - 4205 D ~33 0 0202 ~? 4199 0200 0.201 . 4206 A 4198 197 <.¿) J .--, 81 "'196 A 114195 LEGEND . eXISTING. CITY WELLS 0 EXI3T1NC PRIVATe WtLL:' . OBStRVATION weLLS 4 OLD TtST HOLtS . NtW TtST HOLES NOTt: ALl. tLtVATIONS ARE BAStO ON IoItAN SEA LEV':'L DATU'" FIGURE 4-4 WATER TABLE MAP SOURCE: WILSON & COMPANY, MAY 1957. TABLE 4-1 . 1991-1992 Volatile Organic Analytical Data, Ground Water Samples - Probe Locations Salina Public Water Supply Wells Site (units in JgjL) CHCl3 TIC Ethyl Date (THM) 1,2-DCP VC 1 ,2-DCA PCE TCE 1,2-0CE Benzene Benzene Toluene Tot Xyl EOB MCL 100 5.0 2.0 5.0 5.0 5.0 70.0 700 5.0 1000 10000 0.05 SG 1 45 1117/91 NO NO NO NO NO NO NO NO NO NO NO NO SG 2 45 11/7/91 NO NO NO NO 2.5 NO NO NO NO 0.6 NO NO SG 3 45 1117/91 2.1 NO NO NO NO NO NO 0.5* NO 0.7 NO NO ,\\..\llSG4** 48 1117/91 NO NO NO NO 14.3 NO NO 1.1 NO 0.8 1.1 ND , I .).J¡ SG 5 I 45 1117/91 ND ND ND ND ND ND NO ND NO NO NO NO SG 6 ** 45 1117/91 NO NO NO NO NO NO NO 985 170 13.1 1489.5 NO SG 7 43 11/6/91 ND NO NO NO NO NO NO NO NO NO NO NO ~tÞS SG 8 ** 45 11/6/91 NO NO NO ND NO ND ND 2290 3810 7140 10350 32.4 SG 9 I 42 1117/91 NO NO NO NO NO NO NO NO NO 0.5 NO NO SG 11 41 11/6/91 0.5 NO NO ND 0.6* NO ND NO NO 0.9 NO ND SG 13 41 11/6/91 NO NO NO NO 5.6 2.5 2.5 ND NO 0.6 ND NO 45 11/6/91 0.5 NO ND ND 20.3 2.9 1.4 NO NO NO NO NO 45 11/8/91 1.3 NO NO NO 211 0.6 ND ND NO NO NO NO Unk' 6/11/92 NA NA NA NA 0.19 NO NA NA NA NA NA NA PES 2 Unk 6/11/92 NA NA NA NA 11.6 0.22 NA NA NA NA NA NA PES 3 Unk 6/11/92 NA NA NA NA 0.3 NO NA NA NA NA NA NA PES 4 Unk 6/11/92 NA NA NA NA 25.9 0: 12 NA NA NA NA NA NA PES 5 Unk 6/11/92 NA NA NA NA 7.58 0.12 NA NA NA NA NA NA PES 6 Unk 6/11/92 NA NA NA NA 46.5 1.38 NA NA NA NA NA NA SG 16 45 7/10/92 0.9 NO NO NO 556 16.9 18.3 NO NO NO NO NO SG 17 ** 45 7/10/92 NO NO NO NO NO NO NO 10.3 2.5 30.3 42.7 ND SG 18 ** 42 7/10/92 NO NO NO 2.0 NO NO NO 65.2 148 330 410.0 NO /r '.' ~ I . SG 19 ** 42 7/09/92 NO 5.2 4.6 23.3 202 39.0 157 1570 1400 5810 4953 2.5 SG 20 39 7/10/92 NO NO NO ND NO NO NO NO NO NO ND NO SG 21 42 7/10/92 NO NO NO NO NO NO NO NO NO NO NO NO SG 24 ** 45 7/10/92 2.2 NO NO NO NO NO NO 1.2 NO NO 11.9 NO SG 25 45 7/10/92 1.7 NO NO NO 298 7.6 1.0 NO NO 0.5 NO NO Î. SG 26 45 7/09/92 NO NO NO NO NO NO NO NO NO NO NO NO ,~^,I\ .1- ¡lSG 27 42 7/09/92 NO NO NO NO NO NO NO NO NO 0.5 NO NO SG 28 ** 51 7/09/92 NO NO NO NO NO NO NO 2.5 3.3 0.6 9.9 NO (,.>. SG 28 54 7/09/92 NO NO NO NO NO NO NO 4.0 3.6 0.8 17.4 NO ~'" SG 30 ** 39 7/09/92 NO NO NO 2.9 NO NO NO 50.9 186 44.7 112.6 NO ,¡f- u.-<' SG 31 42 7/09/92 NO NO NO NO NO NO NO NO NO NO NO NO Trip Blk 7/08/92 NO NO NO NO NO NO NO NO NO NO NO NO Equip Blk 7/10/92 0.8 NO NO NO NO NO NO NO NO NO NO NO Field Blk 7/10/92 NO NO NO NO NO NO NO NO NO NO NO NO ABBREVIATIONS: CHCl, - Trichloromethane 1,2-0CP . Oichloropropane SG - Soi l gas VC - Vinyl Chloride 1,2-0CA - 1,2-0ichloroethane NO - Not Detected ~CE - Tetrachloroethylene TCE . Trichlorethylene MCL - MaxißUß Contaminate Level 'C 1,2-DCE - 1,2-0ichloroethylene ug/L - Micrograms per Liter Unk - Unknown ( tXYL - Total Xylenes EOB - Ethylene Dibromide PES , Plains Environmental Services ~ompound was qualitatively identified, but was less than laboratory reporting limits. ther petrol8UI-type hydrocarbons were indicated as present- Two ~indenttfied cGq)OU'lds were indicated as present. Sources: Kanaa. Health & Environmental Laboratory Analytical Results, 1991, 1992. Plains Environmental Services, June 15, 1992. - UJ 1=: 0 0 r.:I.-I ~.-I 0.1 Š~ ~ <¡... cr: 0 r.:I f-iUJ ~1=: ~ 0 .r-! 0.-1 Š~ 0.01 OJ:! cr: t!J 1=: .r-! - 0.001 L I I I I I I 1- ! -- - " -, I - 1 to - -'C; O\!- rID . - .- 1-. 0 rl. f-o 1-0 1 I I - I - - -- - .- - '<' __0 ___0 .. r-C: - I - I 1- , I 1.0 25 20 . 'tI () tx:I 15 . tIt tx:I 10 Z N tx:I Z tx:I 5 0 22 23 24 25 26 27 28 29 30 31 1 2 3 4 5 (days) k OCTOBER 1991 -* NOVEMBER 199~1 () 0 Z () Þ:I Z 1-3 ~ 1-3 -H .....0 :::JZ 1:0 1.Q"Ij ....... t'1() -0 Z 1-3 ~ H Z s: 1-3 C/) NOTE: PCE = Tetrachloroethylene (Perchloroethylene) FIGURE 4-5 PUMPAGE V5. VOC CONCENTRATION IN PWS WEll #3 SOURCES: KDHE/Health and Environmental Laboratory, Analytical Results, 1991. Jim Wendell, Superintendent, Salina Water Division, July 21, 1992. KDHE/BER Salina PWS Wells ESI Field Notes, 1991. . EXPANDED SITE INSPECTION OF SALINA PWS WELLS SITE JUNE 1993 . . ~ I TABLE 4-1 .,,' 18111-1882 Volatile Orgllllic AnaIytc8I e.ta, GIounc:l W8tar S8mpl.. - Probe location. .) SIIIna Public W818r Supply WeIll SIta (unita In gIll .'1t . . Probe D8PCh CHCI3 TIC Ethyl .. Location (ft) Dlte (THM) '.2-DCP VC '.Z-DCA PeE TCE '.Z-DeE 88ftZ- 88ftZ- Tol- Tot ICy I EDI ' MCL 100 5.0 Z.O 5.0 5.0 5.0 10.0 100 5.0 1000 10000 0.05 , 101 45 1117191 NO NO NO NO NO NO NO NO NO NO NO NO SGZ 45 1117191 NO NO NO NO 2.5 NO NO NO NO 0.6 NO NO SG3 45 11/7191 2.1 NO NO NO NO NO NO 0.5. NO 0.7 NO NO ,...It SG4** 48 1117/91 NO NO NO NO 14.3 NO NO 1.1 NO 0_8 1. I lID "",.;. SO 5 I 45 1117191 NO NO NO NO NO NO NO NO NO NO NO NO SO6** 45 11/7/91 NO NO NO NO NO NO NO 985 170 13.1 1489.5 NO SO7 43 1116/91 NO NO NO NO NO NO NO NO NO NO NO NO ..).;J S08** 45 1116/91 NO NO NO NO NO NO NO 2290 3810 7140 10350 32.4 SO 9 I 42 1117/91 NO NO NO NO NO NO NO NO NO 0.5 NO NO SO II 41 1116/91 0.5 NO NO NO 0.6* NO NO NO NO 0.9 NO NO SO 13 41 1116/91 NO NO NO NO 5.6 2.5 2.5 NO NO 0.6 NO NO .~!': SO 14 45 111"91 0.5 NO NO NO 20.3 2.9 1.4 NO NO NO NO NO SO 15 45 1 118/91 1.3 NO NO NO 211 0.6 NO NO NO NO NO NO ES I UnIt 6/11/92 NA NA NA NA 0.19 NO NA NA NA NA NA NA PES 2 UnIt '" 1/92 NA NA NA NA 11.6 0.22 NA NA NA NA NA NA PES 3 Unit ""/92 NA NA NA NA 0.3 NO NA NA NA NA NA NA PES 4 Unit '" 1/92 NA NA NA NA 25.9 0:12 NA NA NA NA NA NA PES 5 UnIt "'1192 NA NA NA NA 7.58 0.12 NA NA NA NA NA NA PES 6 UnIt " I I /92 NA NA NA NA 46.5 1.38 NA NA NA NA NA NA SO 16 45 7110/92 0.9 NO NO NO 556 16.9 18.3 NO NO NO NO NO SO 17 ** 45 7/10/92 NO NO NO NO NO NO NO 10.3 2.5 30.3 42.7 NO SO 18 ** 42 7/10/92 NO NO NO 2.0 NO NO NO 65.2 148 330 410.0 NO Ir ."I-I'S019** 42 7/09/92 NO 5.2 4.6 23.3 202 39.0 157 1570 1400 5810 4953 2.5 SO 20 39 7110/92 NO NO NO NO NO NO NO NO NO NO NO NO SO 21 42 7110192 NO NO NO NO NO NO NO NO NO NO NO NO S024** 45 7/10192 2.2 NO NO NO NO NO NO 1.2 NO NO 11.9 NO SO 25 45 7/10/92 1.7 NO NO NO 298 7.6 1.0 NO NO 0.5 NO NO ). SO 26 45 7109/92 ,~^,1'1 NO NO NO NO NO NO NO NO NO NO NO NO .1- ¡SO 27 42 7/09/92 NO NO NO NO NO NO NO NO 0.5 NO NO NO SO 28 ** 51 7109192 NO NO NO NO NO NO NO 2.5 3.3 0.6 9.9 NO (..> SO 28 54 7/09/92 NO NO NO NO NO NO NO 4.0 3.6 0.8 17.4 NO "'~ SO 30 ** 39 7109/92 NO NO NO 2.9 NO NO NO 50.9 186 44.7 112.6 NO <f- u..~ SO 31 42 7109/92 NO NO NO NO NO NO NO NO NO NO NO NO Trip Ilk 7/08/92 NO NO NO NO NO NO NO NO NO NO NO NO Equip Ilk 7110/92 0.8 NO NO NO NO NO NO NO NO NO NO NO Field Ilk 7/10/92 NO NO NO NO NO NO NO NO NO NO NO NO ABIREVIATlOIIS: CHCI, - Trlchlo..-th- '.2-0CP - Olchloropropene SO - Soil gl. VC - Vinyl Chloride I.Z-0CA . 1.2-0ichlor08th- NO - Not Oetected .eE - TetMlchlor08thyl- TCE . Trlchlorethyl- MCL - Mlxl- Cont_inete Level 'C '.2-ÞCE - 1.2-0Ichlor08thyl- USl/L - Microgr- per LIter Unit - lJnIu--. ( t XYL - Totll ICyl... EOI - Ethyl- OlbrC8lde PES Plains Envl..-tll Servlcn , t:oIIpoIn - qualItatively identified, but WI' Ie.. thin laboratory reporting lillllt.. nher petrol_type hydroclrb0n8 wer. Indicated .. pr"8nt. I Two I.I'Ilndlntlfled cClllllOl.l'lda wer. Indlc.ted .a pr"8nt. Sourcø I Ie_Ia HIIUh ¡ Envlr_t.l Laboratory ANllytical Re.ulu. 1991. 1992. PIli,. Envi..-tll S.rvlc... J.... 15. 1992. . TABLE 4-2 WELL OWNER INFORMATION Well Owner Name KS Site ID# Address Phone # St. Johns Hospital 00047290 139 N. Penn Ave. (913) 827-5591 (Well #2) Dr. John Miller, 00047306 621 E. Iron Ave. (913) 825-1669 D.D.S James Pickering 00047573 649 S. Fifth St. (913) 827-8383 S.c. McCrae 00047580 655 Guernsey Dr. (913) 825-5750 Clyde Reed (#26) 00043953 841 S. Santa Fe (913) 825-1976 James Betts (#28) 00043847 848 Highland Ave. (913) 825-0127 . Dennis Lilly (#32) 00047276 227 W. Prescott (913) 825-4881 First Presbyterian 00043960 308 S. Eighth St. (913) 825-0226 Church (#33) 8 . TABLE 4-3 1990-92 VOC ANALYTICAL DATA for WELL WATER SAMPLES SALINA PUBUC WATER SUPPLY WELLS SITE SAUNA, KANSAS Date of Concentration (u2/L) Collection ~ TCE Benzene 1.2-DCA CO4 SAUNA PWS WElL # 1 5/8/90 I.OJ ND ND ND ND 10/29/91 3.9 0.6 ND ND ND 7/7/92 4.2 0.6 ND ND ND SAUNA PWS WElL #3 5/8/90 SO.O 4.OJ ND ND ND 12/31/91 2.7 ND 1.7 0.5 4.0 8/27/91 1.4 ND 10/29/91 ND ND 22.2 7.7 2.8 11/5/91 17.5 1.9 ND 0.51 3.1 1/3/92 ND ND ND 3.6 0.9 4/22/92 1.3 ND 9.1 1.2 ND 8 6/10/92 1.7 ND 7.8 4.3 ND 7/7/92 0.6 0.8 3.8 4.5 0.3 SAUNA PWS WElL #4 5/8/90 4.OJ ND ND ND ND 12/31/91 2.1 ND ND ND 0.9 8/27/91 21 10/29/91 0.91 ND ND ND ND 1/3/92 0.8 ND ND ND ND 7/7/92 6.7 ND ND ND ND SAUNA PWS WElL #S 5/8/90 ND ND ND ND ND 12/31/90 11 ND ND ND 0.6 8/27/91 ND ND 10/29/91 ND ND ND ND ND 1/3/92 31 0.6 ND ND ND 8 . TABlE 4-3 (a.tiDucd) 1990-92 VOCANALYTICAL DATA for WELL WATER SAMPLES SALINA PUBLIC WATER SUPPLY WEu.s SITE Date of Concentration (",ElL) Collection PCE TCE Benzene 1.2-DCA CO.. SAUNA PWS WEU. #8 5/8/90 23 2.01 ND ND ND 8/27/91 22 10/29/91 1.0J ND ND ND ND 1/3/92 3.3 ND ND ND ND 7/7/92 6.6 ND ND ND ND SAUNA PWS WEU. # 13 5/8/90 ND ND ND ND ND 10/29/91 0.9 ND ND ND ND 7/7/92 ND 1.9 ND 5.8 ND PRIVATE WElLS Reed (26) 5/8/90 4.01 2.01 ND ND ND 11/5/91* 17.0 8.1 ND ND ND . 7/21/92. 21.2 9.0 ND ND ND Betts (28) 5/8/90 0.81 ND ND ND ND 11/5/91 ND ND ND ND 2.6 Lilly (32) 5/8/90 ND ND ND ND ND 11/5/91 ND ND ND ND 0.7 First Presbyterian 5/8/90 ND ND ND ND ND Church (33) 11/5/91 ND ND ND ND ND Pickering 11/6/91 3.2 O.5J ND ND ND 7/10/92 1.9 ND ND ND ND Miller 11/5/91 4.6 1.5 ND 3.9 0.7 7/21/92 3.0 1.0 ND 2.6 ND McCrae 11/6/91 ND ND ND ND ND St. John's #2 11/5/91 ND ND ND ND ND Abbreviations: pgfL - microgram per liter ND - not detected PCE . tetrachloroethylene (or tetrachloroethene) - not analyzed TCE - trichloroethylene (or trichloroethene) l,2-DCA - 1,2-dichloroethane * - l,2-dichloroethylene also detected CO4 - carbon tetrachloride J . identifed, but so low that quantity is estimated (33) - sample number used in KDHE Salina PWS Wells Site 551 Report Note: Only selected VOCs reported. . Sources: Analytical data from: U.S. EPA Contract Laboratory Program, 1990. Continental Analytical Services, Inc., 1992. KaI158S Health & Environmental Laboratory, 1991-1992. Wilson Laboratories,l990-1992. J one 1993 . 24 Salina PWS Wells ESI 5. SURFACE WATER PATHWAY 5.1 Hydrologic Setting Surface water runoff from much of the site is directed to the old Smoky Hill River channel via the municipal stormwater sewer system. Other than stormwater runoff, streamflow in the old channel is controlled by the city at a diversion gate located at the confluence of the new and old river channel east of the site (Figure 2-2). Also at this location is the current municipal surface water intake for the city's public water supply. Some streamflow is maintained in the old river channel for aesthetic purposes, but it is throttled during flood conditions in the Smoky Hill River and during peak irrigation periods to maintain the necessary level in the river at the surface water intake. Streamflow in the former channel has been halted for brief periods for cleanup and beautification purposes (Reference 4). Drainage in the old channel flows north and east approximately 3.5 miles before entering the current Smoky Hill River channel. The new channel has an average flow of 375 cubic feet per second (cfs) (Reference 49). Approximately 50 miles downstream the Smoky Hill River merges with the Kansas River. 5.2 Surface Water Targets . No drinking water intakes are within 15 miles downstream of the site. Most residents are served by the Salina public water supply which includes ground water from wells and surface water from an intake located upstream of the site (Reference 4; 47). Surface water from the Smoky Hill River is used to irrigate approximately 608 acres of cropland within the 15 mile downstream target distance (Reference 47). The Smoky Hill River is used for recreational fishing and contact recreation (Reference 50). Several park and recreational areas along the old Smoky Hill River channel provide public access to the surface water (Reference 51). No wetlands have been identified within 15 miles downstream of the site (Reference 52). In addition, no critical habitats have been designated within the target distance of the' site. However, five species endangered nationally are known to occur in suitable habitats in Saline County (Bald Eagle, American Burying Beatle, Least Tern, Peregrine Falcon and Whooping Crane). Four species designated as threatened in Kansas and one nationally are also known to occur in Saline County. They include the Piping Plover (nationally), E. Hognose Snake, E. Spotted Skunk, Snowy Plover, and the White-faced Ibis (Reference 53). 5.3 Surface Water Sample Locations No surface water samples were collected. 8 . 8 8 Jone 1993 25 Salina PWS WeUs ESI 5.4 Soñace Water Pathway Conclosions There are no indications of a release of contaminants to surface water in the site vicinity. Surface water runoff from the site drains via storm sewers to the former Smoky Hill River channel and then to the current river channel located east of the site. There are no drinking water intakes within 15 miles downstream of the site. Secondary surface water pathway targets include contact by the public to streamflow in both the old and new Smoky Hill River channels, the fishery in the newer river channel, and habitats of threatened and endangered species in Saline County which may coincide with the Smoky Hill River. . 8 8 J one 1993 26 Salina PWS Wells ESI 6. SOIL EXPOSURE AND AIR PATHWAYS 6.1 Physical Conditions Most of the areas probed for soil gas and groundwater samples are covered with pavement (concrete or asphalt). VOCs would be expected to be dissipated in the top two feet of ground surface in those areas not covered with pavement. No samples were collected to investigate the soil exposure pathway. 6.2 Soil and Air Targets There are numerous workers and residences near the areas of contamination. Total population within a four-mile radius is 42,306 persons (Reference 44). Sensitive environments within the four-mile target distance limit may include suitable habitats along the major river valleys. 6.3 Air Monitoring A portable air quality monitor (HNu) was carried onsite during the probing activities for health and safety purposes. VOCs were detected above background at several probe locations but not at levels which exceeded health and safety standards for the onsite field crew. A formal air monitoring program was not conducted. 6.4 Soil Exposore and Air Pathway Conclosions The site is located in a densely populated urban area. Areas with significant contamination in soil vapor and ground water were covered with pavement. Therefore, the soil exposure pathway does not appear to pose a significant threat at the present time. A release to the air seems to be insignificant at the present time since the inadequate storage and handling of VOC containing wastes occurred several years ago. In addition, the concentrations of the contaminants detected in the public and private water supply wells are insufficient to produce a threat to humans or the environment from a release to the air. Subsurface excavation, however, at any of the source areas could pose a threat to humans and the environment through contact with contaminated soil and a release to the air. . A'ITACHMENT 5 Facilities Which Were Investigated as Potential Sources Detailed Information . 8 . AITACHMENT 5 Facilities Which Were Investigated as Potential Soorces Detailed Information City of Salina - Department of General. Services, 412-418 E. Ash. Since March 1987, the facility has reportedly generated more that 25 kilograms per month (kg/month) but less than 1,000 kg/month of hazardous wastes (Reference 17). Information obtained during an on-site visit to the facility indicated that solvents have been used for vehicle parts cleaning and cleaning of painting equipment since at least the early 1960's, with most of the spent solvents being reclaimed for reuse or picked up for recycling (Reference 16). Small quantities, however, were reportedly discharged into floor drains which drained into the sanitary sewer system or the old Smoky Hill River channel. Use of a fuel UST had recently been discontinued due to a failed tank tightness test. Fuel USTs formerly used in the same location at the facility reportedly had leaked. Gasoline contamination was detected in two ground water samples collected on site (probe locations SG 28 and SG 30) during this investigation. Further assessment of the contamination is scheduled at this facility under the State Petroleum Storage Tank Release Fund. A-Z Cleaners at 500 E. Iron operated from 1956 to 1970. The building was not in use at the time of the site investigation and is the property of Bernard J. Ludes of 502 E. Iron, Salina, KS. (Reference 15; 18). An in-field headspace analysis conducted on a downgradient ground water sample collected near this facility (probe location sa 27) contained low concentrations of PCE and TCE. VOCs were not detected in the ground water sample submitted for laboratory analysis. . . Borris Body Shop at 211 S. Fifth St. operated at this location throughout the 1960's. In the early 1970's, the shop was moved one block north to 151 S. Fifth St. where it has operated to the present time. The type of solvent used at the shop has been lacquer thinner which does not contain chlorinated hydrocarbons, as originally manufactured. Currently the spent solvent is reclaimed for reuse using a distiller at the current shop location. Prior to this spent solvent was accumulated in drums (as many as six) and stored at the shop's previous location, all of which has since been reclaimed with the solvent distiller. The former shop site is currently a fenced vacant lot (Reference 15). A ground water sample collected in the vicinity of this former shop location (SG 4) contained a significant concentration of PCE and trace concentrations of several petroleum hydrocarbons. Former Firestone Service Center at 200 S. Fifth St. operated until it went out of business in mid-1987. Records indicate that more than 25 kg/month but less than 1,000 kg/month of hazardous wastes were being generated at this facility as of the mid-1980's. After operations ceased, an inspection of the unused facility in November 1988 revealed six (6) 55 gallon drums and one 200-300 gallon tank inside the building containing used and unused motor oil, respectively. Some appeared to have leaked onto the floor and into the municipal sewer through a floor drain. The oil was removed from the facility in December 1988 (Reference 17). A waste oil UST and some contaminated soil were removed in 8 February 1992 (Reference 22). Probe location SG 4, also near and downgradient of this facility, contained PCB and traces of gasoline constituents. . ATTACHMENT 5 (continoed) Former Stewart's Model Laondry & Cleaners at 211-215 S. Santa Fe operated from 1943 to 1980 (Reference 18). The Huntsinger Paint and Wallpaper Store operated at 211 S. Santa Fe from 1980 to approximately 1992. The property is owned by Great Plains Federal Credit Union at 605 S. Ohio in Salina, KS (913-823-9226) (Reference 48). Ground water samples collected in June 1992 by Plains Environmental Services (PES) during a phase II environmental assessment of the Huntsinger Paint and Wallpaper Store (which later operated at 211 S. Santa Fe, subsequent to the dry cleaning business) revealed contamination by PCE as high as 46.5 p.g/L near the building on the downgradient side (PES probe locations 4, 5, and 6 in Figure 3-1). PCE concentrations on the upgradient side ranged from 0.19 to 11.6p.g/L (PES probe locations 1, 2, and 3 in Figure 3-1) (Reference 48). The PES report for the Huntsinger Store is presented in Attachment 12. Qoinley's Master Dry Cleaners operated at 216 S. 5th St. operated in the 1970's (Reference 18). The lot is current vacant and is being used as a parking lot. According to information obtained at the Saline County Register of Deeds Office, the property belongs to the Fitzpatrick Manufacturing (or Mortgage) Company at 213 S. Fifth St in Salina, KS (Reference 54). Ground water samples collected by PES during the environmental assessment of the nearby property formerly used by Stewart's Model Laundry & Cleaners . indicated significant PCE contamination near this former dry cleaning facility. A ground water sample collected downgradient from both of these former facilities (probe location SG 4) contained a significant concentration of PCE. Former Western Auto at 304 S. Santa Fe Ave. operated until late 1987 or early 1988 when it moved its operations to the south part of Salina. . Records indicate that more than 25 kg/month but less than 1,000 kg/month of hazardous wastes were being generated at the facility. An inspection of the facility in November 1988 revealed an area of oil- contaminated soil in a gravel/dirt parking lot located to the west where drums of used oil had been stored prior to removal. The oily soil was removed and properly disposed of within thirty (30) days of the inspection. The former manager reported that Safety-Kleen Corporation solvent service had been used at the facility (Reference 17). It was reported that a gasoline filling station had been located at this site prior to the Western Auto facility (Reference 23). A ground water sample collected immediately downgradient of this facility (SG 6) indicated considerable gasoline contamination. Unified School District 305 Maintenance Shop at 256 S. Fifth St. No soil contamination was detected when two fuel and one solvent USTs were removed in 1989 (Reference 22). None of the VOCs of concern were detected in a ground water sample (probe location SG 5) collected near and downgradient of this facility. 8 . ATIACHMENT 5 (continoed) Asbory-Salina Regional Medical Center at 400 S. Santa Fe Ave. An on-site inspection of chemical products used for miscellaneous maintenance included some chlorinated solvents (Reference 16). No subsurface contamination was detected during the removal of a UST at this location in November 1989 (Reference 22). VOCs were not detected in a ground water sample collected near and downgradient of the hospital during the ESI (probe location SG 7). McCord Tire Company Inc. at 423 S. Santa Fe Ave. This facility has used Safety Kleen solvent service since at least 1986. Waste hexane solvent, used in their tire recapping process, had been disposed of on-site to control weeds until they were told to cease this practice in 1986 (Reference 17). The facility has one used oil UST on-site (Reference 22). Gasoline contamination was detected in ground water near this facility (probe location SG 8), but is believed to the result of leakage from nearby and upgradient former UST sites. I J Fonner Weeks Self-Service Filling Station at 505 S. Santa Fe allegedly operated from the early 1970's to the early 1980's when the facility was dismantled and several USTs were removed (Reference 16; 22). Significant gasoline contamination was detected in a ground water sample collected near thi5i former UST site (probe location SG 8). 8 Sears Aoto Service Center at 510 S. Santa Fe Ave. Significant gasoline contamination was observed when a UST was removed at this facility in late 1989. The property owner, Warmack & Company was directed by KDHE to conduct a site assessment to define the horizontal and vertical extent of the hydrocarbon contamination in the soil and groundwater. Records indicate that no investigative activities have yet been undertaken at this LUST site (Reference 22). Three VOCs were detected in a ground water sample collected between the former UST sites at Sears and the former Weeks facilities (probe location SG 9). Express Dry Cleaners (formerly Martinizing Dry Cleaning) at 540 S. Santa Fe. This is a currently operating facility with Clarine Pilcher the facility manager (913-825-9727). In November 1985, it was reported that the facility generated 220 pounds per month of hazardous wastes (PCE filters and still residues), which had been disposed of since August 1985 by the Safety Kleen Corporation. In July 1990, new owners reported generating less than 25 kilograms/month of similar wastes (Reference 17). An on-site interview with the facility manager (Reference 15), revealed that this dry cleaning facility had been in operation for about 25 years and that one of the chemicals currently being used was PerSec (a registered trade name for PCE (Reference 25». A ground water sample collected downgradient of this facility (probe location SG 25) contained excessive PCE contamination. PCE was not detected in ground water samples collected upgradient of the facility (probe location SG 24 and the Dennis Lilly private water well). The facility owners are Gene and Cathy Peters (913-238-7219) and the property owner is Warmack & Company of 2259 s. 8 Ninth St. in Salina. The contact person for Warmack & Company is Mike Rider (913-827- 8711). . 8 . A'ITACHMENT 5 (continoed) Former Frank's 66 Service at 701 S. Ninth St. Considerable gasoline contamination of subsurface soil and ground water was discovered after three gasoline USTs were removed from this facility in early 1990. Further investigation has been conducted at this facility (Reference 22). VIP Cleaners (formerly One Hoor Cleaners, Inc.) at 820 E. Crawford. An on-site interview revealed that a dry cleaning facility has operated at this location since the early 1960's. For the first 27 years approximately 60 gallons per month of PCE solvent were used in the cleaning process. For the last three years, however, the dry-to-dry process has utilized only about 1 gallon/ month of the PCE cleaning solvent (Reference 15; 17). No samples were collected at or near this site. The facility manager is Larry Kenison (913-827-9875) and the owner is Dr. Frank Fersonat 723 S. Ohio, Salina, Kansas (913-823-2472). Fast One-Moor Cleaners at 1208 S. Santa Fe is also an operating facility. In October 1986, the owner reported generating more than 25 kg/month but less than 1,000 kg/month of hazardous wastes (Reference 17). An on-site interview revealed that the facility had been in operation since 1963 and that the current cleaning process used PCE at a rate of 50 to 60 gallons/year (Reference 15). Ground water samples collected at the back and immediately downgradient of the facility (probe locations SG 15 and SG 16, respectively), indicated considerable PCE contamination, while none was detected from an upgradient ground water sample (probe location SG 17). The facility is owned and operated by Gene Com of 1109 Windsor Drive, Salina, KS (913-823-3885) (Reference 15; 17). One Hour Martinizing at 1501 S. Ninth St. operated from 1965 to approximately 1970 (Reference 18). The building was vacant at the time of the field investigation. A ground water sample collected on the downgradient side of the building (probe location SG 19) contained excessive concentrations of both chlorinated solvents and gasoline constituents, particularly PCE and benzene. Chlorinated solvents were not detected in an upgradient ground water sample (SG 18); however, gasoline contamination was indicated. The property is owned by Orville L. Crowder of 1231 N. Fourth St. (Reference 54). Johnson & Son/Johnson Cleaners at 953 S. Third St. operated from 1927 to 1970. This lot is currently vacant as is used as yard area at the home of Robert and Diane Jamison, 951 S. Third St., the property owners (Reference 54). VOCs were not detected in ground water samples collected near this former facility (probe locations SG 20 and 21). . ATIACHMENT 6 Sample Locations and Rationale . 8 ATTACHMENT 6 . SAMPLE LOCATIONS AND RATIONALE Samole # Samole Tvoe Location and Descriotion Date Time PWS wells ground water 15 within & 3 south of city 10/29/91 0952 - verify current VOC concentrations 1540 Field Blank water trip blank for samples collected 10/29/91 SG 1 ground water downgradient of printing facility 11/07/91 1715 SG2 ground water onsite at printing facility 11/07/91 1425 SG 3 ground water onsite & downgradient of printing 11/06/91 1345 SG 4 ground water downgradient of former body shop 11 /07/91 1645 and dry cleaners SG 5 ground water downgradient of former UST site 11/07/91 1515 SG 6 ground water onsite & downgradient of former 11/07/91 1600 UST site SG 7 ground water downgradient of known VOC user 11/06/91 1520 8 SG 8 ground water onsite & downgradient of former 11/06/91 1720 UST site SG 9 ground water downgradient of dry cleaners & 11/07/91 0850 former UST site SG 11 ground water downgradient of pot. VOC user 11/06/91 1602 SG 13 ground water onsite at former plumbing & 11/06/91 1035 heating business SG 14 soil-gas & downgradient of former plumbing 11/06/91 1158 ground water and heating business SG 15 soil-gas & onsite at dry cleaning facility 11/08/91 1000 ground water St. Johns ground water downgradient of contaminated 11/05/91 1448 Well #2 PWS well & near UST site PWS Well ground water resample to confirm prior VOC 11/05/91 1022 #3 contamination Clyde Reed ground water resample to confirm prior VOG 11/05/91 1145 Well contamination 8 Jim Betts ground water upgradient of known VOC 11/05/91 1300 Well contamination ATTACHMENT 6 (Continued) . Sample Locations and Rationale Sample # Sample Tvee Location and Description Date Time D. Ully well ground water upgradient of dry cleaners 11/05/91 1605 & LUST site Presbyterian ground water upgradient of potential vac 11/05/91 1110 Church well source areas Dr. John ground water upgradient of contaminated PWS 11/05/91 1355 Miller well well & downgradient of potential vac source areas Pickering ground water downgradient of known vac 11/06/91 0945 well contamination S. McCrae ground water downgradient of potential vac 11/06/91 1135 well source areas Field Blank water trip blank for samples collected 11/05/91 PWS wells ground water verify current vac concentrations 7/07/92 1050 - (1.3,4,6,8. 11, 12, 13, 15) 1315 split samples collected by city . SG 16 ground water downgradient of known vac 7/10/92 1035 contamination SG 17 ground water upgradient of known vac 7/10/92 1205 SG 18 ground water upgradient of former dry cleaners 7/10/92 0905 SG 19 soil gas & onsite & downgradient of former 7/09/92 2005 ground water dry cleaners SG 20 ground water upgradient of former dry cleaners 7/10/92 1430 SG 21 ground water downgradient of former dry 7/10/92 1400 cleaners SG 24 ground water upgradient of dry cleaners 7/10/92 1730 SG 25 ground water downgradient of dry cleaners 7/10/92 1630 SG 26 soil-gas & onsite/upgradient of former 7/09/92 1825 ground water dry cleaners SG 27 ground water downgradient of former dry 7/09/92 1855 cleaners 8 SG 28 ground water onsite of former solvent use 7/09/92 1155 area and UST site ATTACHMENT 6 . (Continued) Sample locations and Rationale Sample # Sample Tvpe Location and DescriPtion Date Time SG 30 soil-gas & onsite & downgradlent of 7/09/92 1600 ground water former LUST site SG 31 soil-gas & downgradient of solvent 7/09/92 1705 ground water use area Pickering ground water resample to confirm prior 7/10/92 1048 well vac contamination Field Blank water trip blank for samples 7/09/92 collected, stored, and transported Equipment water equipment rinse blank 7/10/92 to verify probe rod decontamination Trip Blank water trip blank for sample 7/20/92 collected, stored, and transported 8 Clyde Reed ground water resample to confirm prior 7/21/92 1850 well vac contamination Dr. John ground water resample to confirm prior 7/21/92 1825 Miller vac contamination 8 . . Jone 1993 27 Salina PWS Wells ESI 7. SUMMARY, CONCLUSIONS AND RECOMMENDATIONS 7.1 Sommary The Salina Public Water Supply (PWS) Wells ESI was designed to gather information and data to evaluate the site as a candidate for the National Priority List. Soil vapor and ground water samples were collected and analyzed to identify sources of the PCE contamination found in several of the city's municipal water supply wells. In addition, information was collected to delineate the contaminant plume(s) and confirm target populations potentially at risk from the contamination. A statewide sampling and analysis of public water supplies conducted in 1985 first revealed the presence of volatile organic chemicals (VOCs) in the Salina municipal distribution system. Included were the VOCs trihalomethanes, tetrachloroethylene (PCE), benzene and toluene. Subsequent sampling of the Salina PWS wells also indicated contamination by these and other VOCs in several of the wells. Continued monitoring by the City of Salina and investigations by the Kansas Department of Heath and Environment (KDHE) indicate persistent contamination by PCE, sometimes at levels exceeding its maximum contaminant level (MCL) of 5.0 p.g/L in PWS wells #1, #3, #4, #5, #8 and #13. Contamination by gasoline constituents, particularly benzene and 1,2-DCA, has also been significant in PWS wells #3 and #13. Wells #3, #4, and #5 have been placed out of service by the City of Salina due to the high levels of PCE detected in these wells. In the fall of 1991 and again in the summer of 1992, KDHE staff resampled the Salina PWS wells and mobilized a field crew to Salina to collect a total of 26 ground water samples with a hydraulic probe unit. Eight private water wells were sampled or resampled and one equipment rinsate sample was prepared at that time. In-field analysis was conducted on seven soil vapor'samples and many of the collected ground water samples. All of the ground water samples were preserved and transported to the KDHE laboratory in Topeka where they wÚe analyzed for volatile organic compounds. The results indicate PCE contaminant plumes originate from at least five sources: three former and two currently operating dry cleaning facilities. Gasoline contamination of ground water had been confirmed at three LUST sites by the KDHE Underground Storage Tank Section and potentially eight additional UST sites may be responsible for contamination discovered during this investigation. 7.2 Conclosions The KDHE has identified VOC contamination in ground water at Salina, Kansas, and the contamination poses a risk to the city's public water supply wells and population. Since September 1988, no VOCs have exceededMCLs in the Salina municipal water distribution 8 system. . J one 1993 28 SaUna PWS ~ A review of historical records, KDHE files, and on-site interviews with operators of various businesses indicated several known and suspected users of PCE-containing chemicals, particularly dry cleaning facilities. Several current and former underground fuel storage tank sites were also identified. High levels of PCE contamination were confirmed in ground water at the upper portion of the alluvial aquifer on the downgradient side of four dry cleaning facilities while none was detected in samples on the upgradient side. The analytical results indicate improper storage or disposal of waste solvents containing PCE at these facilities has resulted in contamination of the alluvial aquifer and subsequent contamination of several water supply wells at the site, both public and private. . Migration of the dense PCE plumes is influenced by the high permeability of the lower sand and gravel portion of the alluvial aquifer and the configuration of the underlying bedrock surface in the vicinity of the site. A topographical low area is situated near PWS Well #3 and buried channels filled with the coarse alluvial deposits trend toward it. One major buried channel trends from the south to the north adjacent to and paralleling a line from PWS wells #5, #4, and #1 to Well #3. Two of the confirmed PCE source areas, in the southern portion of the site, are situated nearly over this channel and are most likely the source of PCE contamination detected in these wells. PCE contamination detected in two private wells also along this line (one being downgradient of the source areas and upgradient of the PWS wells), confirms this hypothesis. Another confirmed PCE source area (an active PCE-process dry cleaning facility) is located directly upgradient of PWS wells #3 and #8. PCE contamination confirmed at a former dry cleaning facility in the northern portion of the site represents the most likely source of PCE detected in PWS Well #13 in the mid-1980's. Less dense petroleum hydrocarbons (such as gasoline constituents) will tend to float on the water table or remain in the upper portion of the aquifer. Areas of gasoline contamination discovered during the ESI will be referred to the KDHE/BER, Underground Storage Tank Section. The large quantity of ground water pumped from Salina's in-town well field, also contributes to the migration of VOC contaminants to the affected PWS wells. A "cone of depression" created in the vicinity of city wells being pumped will pull VOC contaminants toward the pumping wells. A large number of human targets (43,385) rely on ground water produced from the alluvial aquifer. This population includes the City of Salina, residents supplied by the Saline County Rural Water District #3 and nearly 200 private domestic wells within four miles of the site. There are no indications of a release of contaminants to surface water in the site vicinity. Surface water runoff from the site drains via storm sewers to the former Smoky Hill River channel and then to the current river channel located east of the site. There are no drinking water intakes 8 within 15 miles downstream of the site. Secondary surface water pathway targets include contact by the public to streamflow in both the old and new Smoky Hill River channels, the fishery in the . . 8 .J one 1993 29 Salina PWS Wells ESI newer river channel, and habitats of threatened and endangered species in Saline County which may coincide with the Smoky Hill River and other major rivers within the target distance limit. The soil exposure pathway appears to pose a minimal threat at the Salina PWS Wells site because of the pavement cover around the suspected source areas. A release to the air is also not suspected for the same reason. Workers at the active facilities are at the greatest risk of exposure to PCE wastes. 7.3 Recommendations The KDHE recommends working with potentially responsible parties (PRPs) and the City of Salina, to conduct further investigation and possible cleanup at the site. If a PRP group cannot be formed in a reasonable timeframe, the KDHE will complete an HRS scoring package and submit it to the EP A for futher consideration under the federal Superfund program. . ATTACHMENT 7 In-Field Analytical Results Tables A & B 8 8 8 . 8 ATTACHMENT 7 TABLE A SALINA PWS WELLS SITE ANALYTICAL RESULTS FOR FIELD ANALYSES NOVEMBER 6 - 8,1991 Probe or Well Contaminants in J1.g/L Identification Number Depth TCE PCE CCL BEN TOL ETH XYL #1 HS 45' ND 0.1 ND ND ND ND ND #2 HS 45' 0.09 1.0 ND ND ND ND ND #3 HS 45' 0.02 0.1 ND ND ND ND ND #4 HS 48' 0.02 12.1 ND 0.5 0.4 0.2 0.6 #5 HS 45' 0.01 0.08 ND ND ND ND ND #6 HS 45' ND 0.03 ND 106.4 20.3 6.1 30..4 #7 HS 43' 0.1 0.1 ND NA NA NA NA #8 HS 45' ND ND ND 3,915 480 1,131 5,650 #9 HS 42' ND 0.3 ND ND ND ND ND #11 HS 41' ND 0.6 P NA NA NA NA #13 HS 41' 1.1 4.1 ND NA NA NA NA #14 SG 39' 0.05 2.9 ND NA NA NA NA #14 HS 45' 0.4 4.1 ND NA NA NA NA #15 SG 6' 0.1 34.9 ND ND ND ND ND #15 SG 12' ND 1.1 ND .ND ND ND ND #15 HS 45' 0.2 31.3 ND ND ND ND ND st. John's #2 65' ND ND ND ND ND ND ND PWS #3 85' 0.7 8.5 p ND ND ND ND Betts 50' 2.4 8.1 p NA NA NA NA Reed 47' 0.1 0.1 p NA NA NA NA Lilly 60' 0.06 0.01 P NA NA NA NA Church -- ND ND ND ND ND ND ND Dr. Miller 72' 0.7 3.8 P NA NA NA NA Pickering 50' 0.3 2.4 P ND ND ND ND McCrea 60' ND ND ND ND ND ND ND MCL 5.0 5.0 5.0 5.0 1,000 700 10000 Abbreviations: TCE = Trichloroethylene PCE = Tetrachloroethylene CCL = Tetrachloromethane BEN = Benzene TOL = Toluene ETH = Ethyl Benzene XYL = Total Xylene Source: KDHE/BER Salina PWS Wells Site Field Notes, 1991. Analyses performed on a Shimadzu Gas Chromatograph and FID detectors. ND = Not Detected NA = Not Analyzed P = Present, not quantified HS = Head Space SG = Soil Gas MCL = Maximum Contamination Level utilizing EDC . 8 8 A'ITACHMENT 7 (Continoed) TABLE B SALINA PWS WELLS SITE ANALYTICAL RESULTS FOR FIELD ANALYSES JULY 9,1992 Probe Type of Depth Contamination in ~g/L I.D.# Location Sample (feet) BEN TCE PCE #28 City Gen. Services water 51' 1.0 ND ND 418 East Ash water 54' 1.0 ND ND #30 City Gen. Services vapor 9' 2.6 ND ND 418 East Ash water 39' 6.0 ND ND #31 City Gen. Services vapor 10' ND ND ND 418 East Ash water 42' 0.5 ND ND #26 500 East Iron vapor 10' ND ND ND on Second Street water 45' ND ND ND #27 500 East Iron water 42' ND 3.0 1.5 #19 1501 South Ninth vapor 10' 100 20 23 on Kirwin Avenue water 42' 550 415 2883 Abbreviations: BEN - Benzene TCE - Trichloroethylene PCE - Tetrachloroethylene ND - Not Detected Source: KDHE/BER Salina PWS Wells Site Field Notes, 1992 Analyses performed on a Shimadzu Gas Chromatograph FID detectors. utilizing an ECD and . ATTACHMENT 8 Driller's Logs for Test Holes and Wells . 8 . ATTACHMENT 8 Driller's Logs for Test Holes and Wells (shown in Figures 3-1, 4-2, and 4-3) Salina PWS Wells Site Salina, Kansas Lithologic logs not available for Salina PWS wells #1, #2 and #4. PWS Well #3 Thickness Depth (feet) (feet) soil, black 3 3 Quaternary Alluvium Clay 11 14 Clay, sandy 7 21 Sand, fine 7 28 Sand, coarse 2 30 Sand and gravel 11 41 Clay and fine sand 3 44 Sand and gravel 11 55 Clay, yellow, tough 5 60 Sand and gravel; contains much clay 5 65 . Sand and gravel; clean 11 76 Clay, yellow 1 77 Sand and gravel 2 79 Clay, yellow and blue 3 82 Sand, fine 2 84 Sand, course 1 85 Permian-Leonardian Wellington formation Clay (probably shale) 0.5 85.5 See water well record for the Robert Caldwell lawn and garden well (415 E. Crawford), which is located just east and within 250 feet of PWS Well #4. PWS Well #5 From (feet) 0 1 9 10 22 25 35 43 8 Soil, top Clay, yellow Sand Clay Sand, muck Sand, course Clay and gravel Sand, coarse and Bed gravel To (feet) 1 9 10 22 25 35 43 61.5 61. 5 8 . 8 ATTACHMENT 8 (ContinUed) Driller's Loqs for Test Holes and Wells Salina PWS Wells site Salina, Kansas PWS Well #6 From (feet) 0 4 15 20 Soil, top Clay Sand, fine Sand and gravel Shale PWS Well #7 Thickness (feet) 2 Soil Quaternary Alluvium Clay, sandy Clay Clay, sandy Sand, coarse Sand and gravel Sand, coarse, and Sand, coarse, and Sand, coarse, and Clay gravel gravel; with clay balls gravel 3 6 5 9 5 7 3 29 ? PWS Well #8 Thickness (feet) 3 Soil Quaternary Alluvium Clay, sandy Sand, fine Sand, coarse, Sand, coarse, Sand, coarse, Permian-Leonardian Wellington formation Shale and gravel; contains clay and gravel and gravel; with clay balls 16 13 4 22 13 1 PWS Well #10 From (feet) 0 18 21 33 37 73.5 silt Sand, fine Sand and gravel Silt Sand, fine to coarse Shale (blue to grey) To (feet) 4 15 20 80 80 Depth (feet) 2 5 11 16 25 30 37 40 69 Depth (feet) 3 19 32 36 58 71 72 To (feet) 18 21 33 37 73.5 75 . ATTACHMENT 8 (Continued) Driller's Logs tor Test Holes and Wells Salina PWS Wells site Salina, Kansas PWS Well #11 Soil, fill Silt silt and sand Sand, find Sand, coarse Clay Sand, medium Gravel Shale to gravel From To (feet) (feet) 0 2 2 13.5 13.5 28.5 28.5 29.5 29.5 67.5 67.5 69.5 From To (feet) (feet) 0 1 1 7 7 24 24 29 39.5 52.5 52.5 55.5 55.5 67.5 67.5 74 74 77 From To (feet) (feet) 0 33 33 34.5 34.5 35.5 35.5 43 43 47 47 60.5 60.5 62 62 65 65 67 67 73 From To (feet) (feet) 0 18.5 18.5 25.5 25.5 30 30 38 38 56 56 65 65 76.5 76.5 80 Soil silt Sand, Clay Sand, Shale fine medium to gravel PWS Well #12 8 PWS Well #13 (old well) Silt Gravel, fine Silt Gravel,-fine silt Gravel, medium Silt and clay Gravel silt Shale PWS Well #14 8 silt Gravel,medium to fine Silt and clay Gravel, fine Gravel,fine to medium Gravel Gravel,sandy to fine Shale . . . ATTACHMENT 8 (Continued) Driller's Logs for Test Holes and Wells Salina PWS Wells Site Salina, Kansas See logs for test holes 2 and 21 for lithology near PWS wells #15 and #16. st. John's Hospital (#2 west well) From To (feet) (feet) 0 9 9 21 21 31 31 39 39 78 From To (feet) (feet) 6 36 36 46 46 48 48 49 From To (feet) (feet) 0 18 18 46 46 47 47 56 56 57 57 72 Soil, fill material silt and clay Sand and gravel silt Sand and gravel Clyde Reed's Well (in basement) Clay, blue Clay Gravel Sand, fine John N. Miller's Well Clay Sand Clay Sand Clay Sand and gravel and gravel and gravel References: 6, 16, 35, 36, 37, 42 ":::-:: "~::-~~,.:-"u...~,, --':',,: .-,- ":~: "..~.~"-::'-:'":-,'--' ':~.::., -~:;'~,:~...:.'~-:-::~:t-':::,:. " USE TYPEWRITER OR BAll POINT PEN-PRESS FIRMLY, PRINT CL£ARlY. . I. location of well: County 5C/11I~ e.. ',.! ...- 0, ,7~..'::-.¡.::,7....._. -,.,....."',;.--..-- /'-1 R 3LJ EIN 3. Own.. of well. I /qr/ ') h tr:- [.DE!l\ni.s L.~.fI V ì '., . R.R. or ,tree" 2.. '). '3 tV, P to t?S't"oT:C:- . U City, state, zip code: _~(,"';~ k~""5 67'101 ". 6. Bore hole dla. ~ in. Completion date - , Well depth ~ð It. I 7 77 WATER WEll RECORD KSA 820-1201-1215 Fraction Section number ..vWI/-45w 1/-4> vJl/-4 I) 2. Distance and direction from ne....est town or city: Street oddreu of well location If in city: ¿ a 3 \..J, -4. locate with .X. In section below: N f I I I -- toNI -- - - NE-- I I I I )(, I I I I --SW-- -- SE -- I I I I .! i W 1 1-1 Mile-I 5. Type and color of material A (, tJ I L/ 1"'" : 18. Elevation: 19. Remarks: Topography: 8Hill Slope - Upland -1... Valley Sketch map: )' It- { P,;, p I -t: " .., From To " (\3 0 ifJ 01 13 5"0 ,. s-o 60 I"J-Q II Fo<ward the whae. blue and pink copies to the Department of Health and Environment Town,hip number KanlOl Dop...tment of Health and Environment-Dlvlslon of Environment rHat.. well Contractors) Topeka, Kansas 666~ Range number T 7. - Coble tool J! Rotary - Hollow rod - Jetted - Driven - Dug - ,Bored - Reverse rotary 8. U,e: - Domestic - Public supply - Industry - Irrigation - Air conditioni~g - Stock X lawn - Oil field water - Other 9. Casing: Material - :Heigh"~ below Threoded- Welded _:Surfac~ / a. i~. RMP , PVC --X-:Welght Ibs./ft. I Dia.~ in. to fGO It. depth'Wall Thickneu: inches or Dia. - in. to - It. depth :g~ge No. 5'. ~ Ù 10. Screen: Manufacturer's name "it ð P Type 5/Clt"..$ Slot/souza "3/7 i" " Set between' <) 7 {/ " ?, ; ¡f;O Dia. length ft. and ft. and Gravel pack? ~ Size range of material ~/~" 11. Static water level: ' ma./day/yr. ~ r ft. below land ,urface Date 3 -I t,- 7 7 12. Pumping level below land surfaces: ~ ft. a~ter ~ hrs. pumping - ft. after - hrs. pumping Estimated maximum ield .~f) 13. Water sample ,ubmitted: Ye, L No Date 3 0 g.p.m. _g.p.m. g.p.m. ma ./day/yr. 14. Well heod completion: - Pitleu adapter I 2, Inches above grode 15. Well grouted? ~ Wi th:L Neat cement - Bentoni te - Cancrete Depth: From --Ll... It. to ~ It. 16. Ne...est source of pouible contamination: It. / () Direction ...5'Type- 60 ..rI~..,.' Well disinfected upon completion? --L Yo. - No 17. Pump: .- Not In't';lIed Manufacturer's nome ,.c;,. '" ha.... k.~ JA ,< ,,:;10 Modelnumbe/f..C~ '2,~O("HP V~ Volh1.1Ji:. length of drop pipe ~ ~ ft. ca;"'city.La....g.p.m. Type, ..x. Submersible _Jet - Centrifugal - Turbine - Reciprocating - Other 20. Water well contractor's certification: Th¡, well was drilled under my jurisdiction and this report i, true to the be,t of my knowledge and belief. At~...G...-.Jz~ ./1:. f1.(¿.- '~ I ¿, {¿, Busi",u naml"- ~ ~ - ~u Licen,e No. Addreu ~.:...... 7.L... Signed ("1/ Jl(7~' D~:1I-77 Au'horized representative Form WWC-5 '. ft. ft. f' .... -..J' ........ It, >D ,'-' ~m J~ ~~ 'Ii'.. ... ~ -~ ~I\Ì) "I~ ...v) [ ,,'-IOU ~,~::~,:~:,:~~,,:,~':,:,', '; :;7}}t';"~';!\.:~~~7:;:~~:ç:¡,;:~~'~:~f::;:¡~"¡~7~'~ t "~ :~'~\~~~',;;::~~Z;~~fu~7E:;~~ ~~Tl9NJ)F,W~TER~~." ;';:~.~, F:ractIon. ",':';'},~,SE:::">: ';'...:-,~~,{,;;-,'::, ~...'~~ -:'"TowneþIp1' NU~';".'::",~::;'~'~,:j~'\ :",Sallne": 0'>,,:':,"; .NW"""':'Y4"'" ",'" 1,4"',>&11" ;'Y4 ' ':~çn',,~, . T'll¡;, .:\""S:,'..; ,R)""')",',:-i'J::':',~~ " 1ce'~.djlr,ectton, from rl88r'8Sttown, or city ~ ~~otl,~~ If ~.~n.city? ,"""<,:,:,';', ',",',',:",', '~,'.",',i,',',,~,.::'i~,.:,.:,\.,:','~.~;,:,",:;,,',',¡',',:":,',,,~,',',"",:',,:'>.'.'""',','\,,,~:',~.:,'~:,¡:~,'~.'./.:,~.~_1",.,'h,',.,:",~"'~,:,~ç..,::¡"~.'",,,~,,,~,:'~""""'~l"'~";""":'t:,',"',,',', ~"~"':'...,:,';,/.;;:"";'4"'~':Ei',.êr~.ijf~:'"?,,,:/ .,:...::",~:"..:, ':';;':0', "'~'" '-r. '-"" . .,~<.\- ~~.~~~:R~':~i~;;:~~~,;,':f""""'::' "':':":'::~':",'.,',';':'::;:J},:;':' :',::':,~:~J~;~,..~~~':{~~jwz'~":~":~::~,' :>tate ZIP~e :;'::",;,Jsá:Jllià':j{Š~~:":6 401:'" , ';""v ':'-:>~'.':;""'<'~;"~~' ";:"':"-" '. ICà~Numbé~:' ...'.,,.~~h'h11:~\;:>¡~':,,':'. GATE WELL'S LOCATION WITH 4 ÒE'piH:OF'cOMPLETED WELL.'.,.. 7.'~ ,~;, .':..:ft. ELÉvA"ÒN:',~',.-,1: .<?9.. ~. '-:-",:::'i~:,~c.~,,~,};,:(>:,:,.~>?;;:. "X".I~SECTION BOX:, ,;', Depth() G' ndWE '. ed'" , 39 "," ft ':. "52"",;,:.::"ft~\'i--~;i:r~,e.::':/::~,:ì' ., ' 'N " '",s, '01;1, ,ater ~nt8!' "'t91.,:... """,:"...,~:".2.,:,......;..:.:~....:,:.....~..:,.,;;.".,.~",,:';:,"'k':i~8,~~:,.~;.~:,,:.<ft.;, ~,LL'Ss:rATlC?,WATERLEY~L,';,~ :,;.".'- ft. below land surfacerneasured,o.n ITÌoIday/yr~,':~ ~,:f.Ã '~~i\~};:.' '¡-'Y'"".., " '", ," '" ',',42:' ." '1,', ' "-""""_"~~"',M,...,.", '~~';':~\<"" Pump test data:) Well water was'. . . . . , ... . . , 'tafter "',";' .,; ;-:; .'hoors pumping ; :',f,:~'f ::~,;:; ;: gpm " :. ":ZQ~\..ff;.~~~~:~:5s ',',', '.i, :,~', ',,~, -::-:',':'.' :','\:;,~,~';;::';;~:'#;;.,': WELL WATER TO BE USED AS:' ,,'5 Public.water supply' - 8 AIr, conditioning '11 Injection well::', ,:" ,~; , ,,"" " ' " ," " " '" '" .. ',,' ,,", :'fDomes~c, 3 Feedlot,' '.' 6011 field water supply:, 9 Dewatering', " :,.12 Other (Speè:lfYbelow);':, ' ';..2 lrÎ1gatlon; ,,: 4 hidustiial" , I lawn andgårdenonly 10"Obseriatlon'weli ,":;:",;,;;;:,,:';:>.:-.-f:;,"..;::..:.::~i;:, W~a chemlcallbacteriologièaJ smnple'submitted to Department? Ye~:':..::::':::.:ÑO,t.:;",'::; It y~ ñi¡)'d;Y/Yr'~';;;;~ mltted' :::.<" ' ",- ,,' ,,',","',:', . Water Well Disinfected? Yes ,'X:;,," 'NO":;~:';,::,": PE OF BLANK CASING USED: ,5 Wrought iron, ,8 Concrete tile, CASING JOINTS:GluJ<L~ ;','. C/ampe<L.;. . , " " " 'è,' ," , '" . , , ,', " " , ': " ',' "",';" " 1 Steel, '.. 3 RMP,(SR) 6 Asbestos-Cement ., 9 ~er ,(Specify below) , , ,,' Welded. "", ;~"",;,::'.::,:,;>',,:, " ~~dlarrie~r'<":"~'~~.<':.I~Jto 6~;:~. .~; f~~~':, .~,. J..H. .~:'.'i~"~; :::::: ::: ::,;::ri':;:'~:'~":~':"'~'~".~:~~~i~~~::;(,:;~~~P{,F:,'::: 'ft~ J height abové I~ ~rface,;. ,12.".., .." t" .In" weight ,..,,160,.. .'" ~ ',' ~""",. IbsJft, Wall ,thickness or g~uge No;;. .~~:~:~~;:::;':;::.::. OF SCREEN OR PERFORATION MATERIAL: " ',,' X PVC, ' "'10Asbestos-cemelÍt, _:.':: ::,;,;,:' ;-::':>' : 1 Steel~ ",'::"'3Stainlesssteel ' , 5 Aberglass' 8 RMP(SR) ", '11 Òther(specify).::.:.:.".,::~;~:;~::;:,:,>;..:.,. ~ BraSS :,:/,,:~,' '~:":i'Galv~nìz~ ~~èt ," 6 Concrete tile, .', 9 ABS ' 12 Non~used (openhoÎe) :,';,',\;,,:~,::.,-,.' " ,,' ,','. " , , ,'. ..,'...' "'" ' :EN ORPER'FORATION OPENINGS ARE: .. 5 Gauzed wrapped SCSaw cut. ',,': -,' ""'!1fNoni,(ópën'hóIÉii :: :;~6~:gi:~'" : '.,-. ~ ;'>¡~! ~:: ::::;::.: ~:s'~ ~~ (Di ,:"i~~,~~(J~~'~\~~ I ~Ol1TMATERIAL: "i"'JtNeatcement'l ",,2cementgrout 3 Bentonite ""4 Other """"'::"';;;;""-";""";"~,,',,';;,,\':"".:'.. Inte¡:;"~s:' From.:':::.;~.~:..ftto:,..~.,.,..., ft" From,..".,:....ft. to,..,.,.....,tt"'.From"',_,,,,,;,:,:,tt.'to.-,,:':'.:~,'~;;"..ft. ' ,.. ' "" ' ,," ",.. , ", , "",,, "" ',"" ," . .." .. is, thé nearest SOtJrCeot Possibl~ contamination:' , ' , "10 Livestock pens , 14 Abandoned"" ~tltr" We,,11 lsØptic tank' " 4 Lateral lines ' T Pit privy ,11 Fuel storage H '15 Oil welllGas\vell :,,::: 2 Sewe(lines ",5 CeSspool 8 Sewage lagoon 12 Fertilizer stòrage;" ",16 Oth8r,,(~.bê~)' L,,~ ~~W::~il~erS~~~~::e(:e" ~"" 9 Feedyard "~~~~':~or~~O'"."".,. ';;'."~,,:::;,' .,:,:j~<l,tP":~~::,,:':~:~~:'(: )M ' TO " ,,' ,LITHOLOGIC LOG TO LITHOLOGIC LOG' '-" "" , , ,7 ',,' To Soil,. ' 8 f ,Brown 01 5':Med~" tø"Hea; "Sand "%. ~::Brown' Sandstone, C" . ,; 1'Med.;," toHeà. Sand",,' v ,: :":"',,,-:: "c,:::,<",:"::,,...t~,..; , """"""" ,,' ".. ,..,,',H," """-","""'"," , , , , , ," ,,' : ,,~:':) i:" :: :" , , -," .. " ',:,," ',,",:, .. ,,' ".:')';!~C," , ',::.:'-:.; ;:::>,' , "'. -, : ::.."~ :"", ":-',:-,:"",,. ': , ' , :", ",,:,"'>, ' ~"":,, ,," R'S OR LANDOWNERòS' CERTIFICATION: This water well was (ij Constructed. (2);reconstruCtect. or (3) plugged ündermy ju~íctión)aÎ'ldwas erect on (moldaylyear)." 9-:-.:t.7.~a~,:,;, :', : ,:,:.." ,. , , , :' , :, :::, ': ,:: ., . .', '" åridthis record Is tru!" to the best ot my knowI~ge8i'ld beiiet: Känsas Well Contiàctor's Ucense No,:.~-:L::313,8, "":,..,, ,",.,: This Wate~ Well RecOrd was complet8don ' aylyr)" :.:':~;"j,.~ß,~'.:}'.\:.;'.:'¿.:;.':{.:"'? thebusinessnåmeof',:"".p$st1n ", "Service"..'. , ",H;".""b'slnan,;re( ,,"" -, """"~"',::"" lUCTlONS: Use typewriter or ball point pen, PLEASE PRESS FIRMLY and PRINT clearly, Please fill in blan ,unci ine or circle the " ,,~swel'!':.!3end top ~ies to Kansas Departnlent of Health and J;:nvironment, Division ot Environment, Envi,ronmental Geology S~n, Topeka, KS 66620: Send one to WA :ry:,R¥V.ELL ERaridretainoneforourrecords",""'-' U"'" ':' ""u'" ,," ,,"", ",,"",,'" "'"""".."""""",U,-" , ,," ",..":'~ ';,," ,,' ' ~",~:,~,~ -~~'~. " l ""¡~~'~-'f"""""':';"":;":"';"'1:,¡-'~~" ,-'":.~'+-41t'~..;:..~~ ,0' Et;h OWNER: JIM 13ETTS " .,.~ dress. Box" : 84 ,:~HI GJlLAND Board of Agriculture, Division of Water Resouice , State ZIP Code A IlcatlonNùmber: ' " OCATE WELL'S LOCATION WITH 4 DEPTH OF COMPLETED WELL. . , . .59. . . . . . . . ft. ELEVATION: .... .124.0. . . . . . . . . . . . . .' ;..:. .. .. . " .< 1 ,N"X"INSECTIO~BOX:, Depth(s)GroundwaterEncountered 1.,....41.........ft.2.................,ft.3.......;,<~..;'.'..,.ft. I WELL'S STATIC WATER LEVEL. 41:...... ft. below land surface measured on moJday/yr .9~22~89.;... .'... I , Pump test data: Well water was. .44.: . . . .. ft. after. . . . . 1 . . .. hours pumping; . . . ~ . 30. . gpm Est. Yield ;.7$.,. gpm: Well water was ..:........ ft. after.......,... hours pumping........... gpm E BoreHoleDlameter..,9......in.to.,.,.....$9.......ft.,and..................in.to '.....:....:.:,.ft. WELL WATER TO BE USED AS: 5 Public water supply 8 Air conditioning 11 Injection well , 1 Domestic 3 Feedlot 6 011 field water supply -"9 Dewatering 12 Other (Specify below) , 2 Irrigation 4 Industrial 7 LaWn and garden only 10 Monitoring well... . , . , . . . . . . " . . ; .. . . . . . . . . , . . . Was a chemicaUbacteriological sample submitted to Department? Yes............No....X.....; II yes, moldaylyr sample was sub, mitted " '.. Water Well Disinfected? Yes X'" ,No',,' ,I -YPE OF BLANK CASING USED: 5 Wrought iron 8 Concrete til~ CASING JOINTS: Glued. X. . . Clamped. . . . .. I 1 Steel 3 RMP (SR) 6 Asbestos-Cement 9 Other (Specify below) Welded. . . . . . . . . .. . . . . . . . 2PVC ,4ABS 7 FIberglass .,.....,..........,........ Threaded............,.... lkcasingdiameter....5........in. to......53..,.ft., Dia....,...,....in. to.,....,......ft" Dia......,...,..in.to ..:..,....... ft. ,ing height above land surface. . . . . . 12. . . . . . , , .in., weight. . . . ¡~O, . . . . . . . . . . , . . . . . Ibs.lft. Wall thickness or gauge No. .~1;)R: ?Q. , . . . . . . , ' >E OF SCREEN OR PERFORATION MATERIAL: 7 PVC 10 Asbestos-cement "" 1 Steel 3 Stainless steel 5 FIberglass 8RMP(SR) 11 Other(specify)......'............,. 2 Brass 4 Galvanized steel 6 Concrete tile 9 ABS 12 None used (open hole) =1EEN OR PERFORATION OPENINGS ARE: 5 Gauzed wrapped 8 Saw cut" , .~ 1 None (open hole) 1 Co!'ltinuous slot' 3 Mill slot 6 Wire wrapped 9 Drilled holes , ..', 2 loUvered shutter, : 4 Key punched . 7 Torch cut " 10 Other (sPecify) . . , , ... . . . . . . .:. .' ,'... .:'.:. ,.. ~~~N.FÒRATEDINTERVALS: From., .....'..53'.......ft. to.........59.,......ft..From:.......""""" IttO"':","'~"".'.....:..ft. , From...,...,.........ft,to...,.,......'...,..ft..From.......'....,......ft.to...'..........,.....ft.1 , GRAVEL PACK INTERVALS: From,.,.,..4.5.......ft.to........59.......ft.,From.,..,..,.........ft.to.................:ft.¡ From ft. to ft.. From ft. to " 'ft. I 3ROUTMATERIAL:,,'1 Neat cement 2 Cement grout 3 Bentonite 4 Other .,.,........,.........................¡ !utlntervals: From.....O.-:...;ft. to .....2D.... ft., From............ ft. to............ ft., From............ ft. to .........:..ft. I at is the nearest source of possible contamination: 10 Uvestock pens 14 Abandoned water well 1 Septic tank 4 Lateral lines 7 Pit privy 11 Fuel storage 15 Oil well/Gas well 2 Sewer lines' 5 Cess pool 8 Sewage lagoon 12 Fertilizer storage 16 Other (specify below) 3 Watertight sewer lines 6 Seepage pit 9 Feedyard 13 Insecticide storage . . . . . . . . , .'. . . : . . . . . . . . . . . . . . x:tion from well? EAS T How ma leet? '0. =10M TO ' FROM TO PLUGGING INTERVALS w I I X I, I -- N'N -- -- NE-- I I I I I I I 1 -- sw -- --SE-- I I I I , ~ , , . f ,~ OR'S OR LANDOWNER'S CERTIFICATION: This water weil was (1\ r.nMt",~M (2) réconstructèd, or (3) plugged' under my jurisdiction and was ' 9-22-89' ~ ',', , " :pleted on (moIday/, year, ) .. .... ..,~~å" '" '.. .. .. .. "." .. . .. ... .. .. '" and thiS reco ,IS e to the best 9Of wtgedge and belief. Kansas 'ar Well Contractor s Ucense No. .,~..".,.,""'" This Water Well Record was completed I aylyr) '..., " . . er the business name of PESTINGER ,PUMP SER VICE" ',b ' si na ' INSTRUCTIONS: Use Iypewriter or ball point pen. PLEASE PRESS FIRMLY and !!B!!!I. clearly, Please fill In blanks, undeI1in8 or circle the 'CDfT8Ct SencI lOp IIvee 01 Heal1h and Environment, 8ure8u of Water Protection, Topetca, Kansas 66620-7320. Ta/e)hone: 913-296-5514. SencI one to WATER WELL OWNER and retain one tor your ,-',: .:,.' ..~;. >", ,. r.:, :.~, ',-:" ::-..::,;:" ',:,,\:::, '_":'~'i:"!,:,~:;~ "~':.. ':';",.Y;,7~'::i.:9';.':>':-:;,~' :" ;" "" ."" ::',::; ,'" -, , " " , ,', ' ,,',' " , ", '. ','.. .", ,',.."" "'::,,";:::' '7-.',': :¡,"-\;'-:"',;/~:..\:~~~~:<':""';"~,~ ~,,:.,,:i.:::">:,:::':::,'::'~i, " ::,;, ",' """"~ ,'"¡::'i~i:::;:!J't?::;t::i;¡:'¡:~1~?;;.V:7..: ;(-~",,:;..,::,: ;~i,:,,_, ~Y<::'.'/::'" ',;,~r;;"!-";'::¡,~"!"-:::-:S":;;~:¡J~:"i~;:~:" '. ,,", ", ",' . , ,:,~,';~':::',i"; ':i~;:"J:'~,-::f:' '".,,:.',::,'~.:,'.'.-:-,:,~.~,"::::;',:,,':":-"_"'-',-',::':',,'.~,,'-,.:,.:,':,'.'-:'.:~,',;'~'~:,;-~':}".",'~~:,;::""":':"':"","':i"~.'""~.,,,:,:,~,'::',';,:,:,:,:,:.'::-:',,~,::.,,'~,'_:,:,,;:...::::,""",',',:',::""..,',:,',"":"':":""'!""'~":'"',..:.,:'",:;,.,,', ,: ",:" ,"." "..,~" , ... - -:~, '.'. ~,: " -,:.:/<::)~.f:;:~.:~':.::,'~~'~>;) ~:~. ,::., l I. f I I Test Hole ~ 1 2 3 4 5 6 . 7 8 9 10 11 12 13 14 15 16 17 -IQ "-' 19 . )(' ~~ 21 -, ') '-- ~ A-16 A-13 A-13 A-12 A-11 A-10 A-5 A-4 A-2 , A-2 A-7 A-7 A-11 A-5 A-6 A-10 A-9 A-2 A-16 A-15 A-13 1>.-12 A P P E 'N D' I X A TEST HOLE LOGS - Index to Test Hole Loge - Test Hole ~ 23 24 25 26 'Z1 28 ' 29 30 ~ A-15 A-12 A-19 A-18 A~~O A-19 A-20 A-19 3l(Ö¡J4) A-22 32 33 34 35, 36 37 38 39 40 4"; ¿2 1...3 44 A-21 A-23 A-22 A-22 A-20 A¡21 A-21 A-14 A-14 A-14 A-10 ;"-4 A-j Teet Hole ...l!Q.s.. 45 46 47 4B 49 50 51 52 53 54 55 56 57 58 59 60 61 62 6;3 64( ()B2) 65 OB3 ~ A-3 A-4 A-3 A-5 A-6 A-7 A-8 A-9 A-11 A-9 A-8 A-8 A-15 A-16 A-Þ A-17 A-17 A-18 A-17 , A-19 A-18 A-8 . , ' In the-foilowing ,pages'Oare listed the'logs ot 65 test þoles drilled by the Hydraulic Drilling Company of SaliD8., for the City of Salina" Kansas, and under the supervision of Wilson & Company', ~ng1neers & Architects, Salina, Kansas. The numbers in parenthesis are those assigned when drilling and are the same as shown on the maps, text and tables contained in the report. The numbers following thee in parenthesis are the standard Geological Survey identification numbers that can be used to locate a particular test hole without benefit of a map. In tb.e G,eological S~ey system, test holes are numbered in groups by Township, Range and Section, followed by letters denoting 160-acre, 4D-acre and 10-acre subdivisions -of the section. The following sketch and example demonstrates the Geologí-cal SÞrLey method ot numbèring as applied to the first test hole located L(9) 13231ddgj R2W . .' , - ,,: :31 b a b a c ~ T 13 S The sketch shows Township 13, Range 2, Section 31. Test hole No.9 is in the.SEt(d) of the SEt(d) of the SEt(d) of the section. Fallowing the Geological Survey I s system, the first logs are those in Township 13, fo1lqwed by those in Township 14 and then those in Township 15. The following key is being used throughout the list of logs: GE = Ground Elevation at Test Hole in Feet, U.S.G.S. Datum SWL = Static Water Level at Time o£ Drilling; (depth below ground) . WTE = Water Table Elevation at Time of Drilling; U.S.G.S. Datum A-1 ~ I I I ( ( r ( I . I I I . J Thickness Depth . Feet Feet (9) 13231ddd GE 1211.66 SWL Z7.2 WTE 1185.5 Drilled 20 November 1956 Quaternary - Alluvium Silt and Clay 23 23 Sand, fine to medium 9 32 Gravel, fine to medium 9 41 Gravel, fine, medium to coarse 18 69 Permian - Wellington Shale, blue 6 75 (10) 13231 cdd GE 1213.11 SWL Z7.6 WTE 1185.5 Drilled 20 November 1956 Quaternary - Alluvium Silt and Clay 25 25 Sand, fine to medium 5 30 . Gravel, medium to coarse 34 74 Permian - Wellington Shale, blue 6 80 (18) 13336cdd GE 1218.35 SWL Z7.5 WTE 1186.4 Drilled 23 November 1956 Quaternary - Alluvium 511 t and Clay 33 33 Gravel and S11 t 18 51 Gravel, fine, medium to coarse 24 75 S11 t and Fine Sand 11.5 86.5 Permian - Wellington Shale, blue 4.5 91 8 A-2 -_. - - - - ... Thickness Depth . Feet Feet (47) 1425bbb GE 1211.13 SWL 26.0 WTE 1185.1 Drilled 11 December 1956 Qua termtry' . . ~~:Alluvi um Silt and Clay 28 28 Fine Sand 4 32 Silt and Clay 5 37 Gravel, fine to coarse 30.5 67.5 Permian - Wellington Shale, blue 5 72.5 (44) 1425bbc GE 1212.64 SWL Z7.0 WTE 1185.6 Drilled 11 December 1956 Quaternary - Alluvium Silt and Clay 29 29 . Fine Sand 2 31 Silt.and Clay 7 38 Gravel and Silt 6 44 Gravel, fine, me~iumto coarse 15 59 Silt and Clay 3 62 Gravel, fine, medium to coarse 9 71 Permian - Wellington Shale, blue 5 76 (45) 1425bcb GE 1212.26 SWL 26.5 WT~ 1185.5 Drilled 11 December 1956 Quaternary - Alluvium Silt and Clay 38 38 Gravel, fine, medium to coarse 3 41 Gravel, some silt 13 54 Gravel, fine, medium to coarse 16 7() Permian - Wellington Shale, blue 5 75 8 A-:3 ", Thickness Depth . Feet Feet ( 8) 1425bcc GE 1212.86 SWL 27.1 WTE 1185.8 Drilled 12 November 1956 Qlaternary - Alluvium Silt and Clay 43 43 Sand, fine to medium 15 58 Clay 'and Silt 1 59 Gravel, medium to coarse, clay lense at 68' 22.5 77.5 Permian - Wellington Shale, blue 4.5 82 ( 46) 1425 cbb GE 1211.21 SWL 22.0 WTE 1189.2 Drilled 11 December 1956 Quaternary - Alluvium . Silt and Clay 19 19 Fine Sand 7 26 Silt and Clay 9 35 Gravel and Silt 7 42 Gravel, fine, medium to coarse 27 69 Permian - Wellington . , , . Shale, blue 5 74 (43) 1425ccb GE 1212.79 SWL-23.3 WTE 1189.5 Drilled 10 December 1956 . Quaternary - Alluvium Silt and Clay 19 19 Fine Sand 4 23 Gravel,' ,silty 6 29 Silt and Clay 8 37 Gravel, fine, medium to coarse, clay lenses at 43 I and 47 I 34 71 Permian - Wellington 8 Shale, blue 5 76 A-4 -' .-' Thickness Depth Feet Feet . (7) 1425ccc GE 1212.19 SWL 24.2 WTE 1188.0 Drilled 9 November 1956 Quaternary - Alluvium ' Sil t and Clay 7 7 Fine Sand 13 20 Gravel, medium to coarse 3 23 Silt and Sand 8 31 Gravel, coarse 35 66 Permian - Wellington Shale, blue 6 72 (48) 1426aba . GE 1210.09 SWL 25.0 WTE 1185.1 ", Drilled 11 December 1956 ,Quaternary - Alluvium Sil t and Clay 23 23 Gravel, clean, fine, medium to coarse 44.5 67.5 . ' Permian"- Wellington Shale, blue 5 72.5 ( 14) 1426ddb GE 1216.18 SWL 31.0 WTE 1185.2 Drilled 26 November 1956 Quallernary^-~ 'Ai:luvium. : ' - '" Silt and Clay Gravel and Silt Gravel, fine, medium to coarse Gravel, some silt 29 7 37 4 29 36 73 . Tl Permian - Wellington Shale, blue 5 82 8 A- 5 œ I. . Thickne88 Depth Tëet Feet (15) 1426' .id GE 1214.10 SWL 28.0. ¥lTE 1186.1 f Drilled 26 November 1956 J Quaternary- - Alluvium Sil t and Clay 24 .24 I Gravel, fine, medium to coarse 50.5 74.5 Permian - Wellington I Shale, blue 4.5 80 J (49) 1426bcd GE 1214.57 SWL 28.4 \tITE 1186.2 Drilled 14 December '1956 f Quaternary- - Alluvium J Silt .30.5 30.5 .Gravel, fine to coarse 34.5 65 I Gravel, fine to coarse, silty 15 80 . Permian - Wellington '~ Shale, blue 4 84 ( 59) 1426cba GE 1214!28 SWL 28.2 ¥lTE 1186.1 Drilled 18 January 1957 Quaternary - Alluvium Sil t and Clay 26 26 Sand, fine to medium, some silt 5 31 ~ravel, fine, medium to coarse 51.5 82.5 ~, Permian - Wellington Shale, blue 4.5 87 8 A- 6 . ( 50) 8 (11) 8 (12) 1426cbb GE 1213.79 SWL Zl.9 Drilled 23 November 1956 Quaternary - Alluvium Silt and Clay Sand and Silt Gravel, rine, meidum to coarse SiJ. if and Clay Gravel, rine, medium to coarse Permian - Wellington Shale, blue 1426bbc GE 1214.04 SWL 28.5 Dril3¡ed 24 December 1956 Quaternary - Alluvium SU t and Clay Saz:d and S1l t ." Gravel, rine, me&:tUm to Gravel, some silt Gravel, rine, medium to coarse coarse Permian - Wellington Shale, blue 1426bbb GE 120947 SWL 28.5 Drilled 19 November 1956 Quaternary:'- Alluvium SU t and Clay Sil t and Fine Sand Gravel, rine medium to clay lense at 41 " Gravel and Silt Gravel, r1ne, medium to coarse, coarse Permian - Wellington Shale, blue A-7 - Thickness Feet WTE 1185.9 'Zl 2 35.5 1.5 15 5 WTE 1185.5 22 3 50 2 11 5 WTE 1181.0 25 6 30 8 6.5 6.5 ,., ," Depth Feet :'Zl 29 64.5 66 81 86 22 25 75 77 88 93 25 31 61 69 75.5 82 Thickness Depth . Fettt Feet (51 ) 1426cbc GE 1214.58 SWL 30.5 WTE 1185.1 Drilled 20 December 1956 Quaternary - Alluvium Sil t and Clay 24 24 Fine Sand, some silt 5 29 Gravel, fine, medium to coarse 55 84 Permian - Wellington Shale, blue 5 89 ( 56) 1426ccc GE 1216.36 SWL 30 WTE 1186.4 Drilled 19 December 1956 Quaternary - Alluvium Silt and Clay 23 23 Gravel, fine, medium to coarse 66 89 8 Permian - Wellington Shale, blue. 5 94 (OB3) 1431 add GE 1214.0 SWL 28.0 WTE 1186.0 Drilled 1 May 1957 Quaternary - Alluvium Silrt and Clay 25 25 Sand, fine to medium 7 32. Gravel, fi?e, medium to coarse 53 85 Permian - Wellington Shale, blue 4 89 ( 55) 1 431 ddd GE 1216.33 SWL 30.9 WTE 1185.4 Drilled 9 December 1956 . Quaternary - Alluvium gUt and Clay 30 30 Gravel, fine, medium to coarse 61.5 91",- 5 Permian - Wellington Shale, blue 5 96.5 A-8 -- thickness Depth Feet - Feet - (52) 1431adc GE 1213.08 swr.. Z7. 5 WTE 1185.6 -; . Drilled 19 December 1956 Quaternary - Alluvium S1J,1t and Clay- 23 23 Sana/and Gravel, £ine, medium to Coarse 38 61 Gravel, some silt 2 ó) Permian - Wellington Shale, blue 5 68 (17) 1431bdd GE 1215.28 swr.. Z7 WTE 1188.3 Drilled 26 November 1956 8- Qua ternar;y - AlluVium S1]. ~' and Clay- Gravel and Silt Gravel, £ine, medium to coarse 28 18 9 28 46 5~ Permian - Wellington Shale, blue (54) 5 60 1431dbc GE 1218.49 swr.. 33.3 WTE 1185.2 Drilled 20 December 1956 Quaternary - Alluvium Si1;' and Clay- Sand and Silt Gravel, £ine, medium to Gravel (Silt) Gravel, £ine, medium to Gravel and Silt coarse 31 16 9 5 7 4 31 47 56 61 68 72 coarse Permian - Wellington Shale, blue 5 77 . A-'1 Thickness Depth . Feet Feet (16) 1431 dcc GE 1216.62 SWL 32.5 WTE 1184. 1 Drilled 21 November 1956 Quaternary - Alluvium Silt and Clay 26 26 Sand and Silt 7 33 Gravel, medium to coarse 17 ~O Gravel, fine, medium to coarse 19 <69 Permian - Wellington Shale, blue 5 74 (42) 1428bbc GE 1210.00 SWL 21.1 WTE,1188.9 Drilled 10 December 1956 Quaternary - Alluvium Sil t and Clay 11 11 8 Gravel, some silt 8 19 Gravel, fine to medium 9 28 Gravel, fine, medium to coarse Z7 55 Clay 1 56' Gravel, fine, medium to coarse 7 63 Permian - Wellington , Shale, blue 5 68 ( 6) 142Bcbb GE 1214.60 SWL 25.5 WTE 1189.1 Drilled 9 November 1956 Quaternary - Alluvium Sil t and Clay 11 11 Fine Sand 11 22 Gravel, medium to coarse 8 30 Silt and Gravel 3 33:' Gravel, medium to coa~lIe 16 49 Permian - Wellington Shale, blue 7 56 . A-10 D Thickness Depth I . Feet Feet (5) 1427dbb GE 12,20.37 SWL 30.4 WTE 1190.0 I Drilled 9 November 1956 Quaternary - Alluvium Œ Silt and Clay 11 11 Fine Sand 5 16 I Silt and Clay 5 21 Fine Sand 10 31 Gravel, medium to coarse 5 36 Silt and Gravel 5 41 r Gravel, medium to coarse 13 54 Permian - Wellington í Shale, blue 6 60 (13) 1 431 2a.aa GE 1216.39 SWL 32 WTE 1184.4 r Drilled 21 November 1956 Quaternary - Alluvium 8 Silt and Clay 27 27 Silt and Fine Sand 4 31 Gravel, medium to coarse 10 41 Gravel and Silt 5 46 Gravel, fine, medium to coarse 32 18 Gravel~and Silt 1 79 Gravel, medium to coarse 11 90 Gravel, some silt .2 92 Permian - Wellington Shale, blue 5 97 (53) 14312aaa GE 1217.59 SWL 33.3 WTE 1184.3 Drilled 19 De~embe-l" 1956 QUaternary - Alluvium Sil t and Clay 22 22 Sand and Silt, fairly clear 9 31 Gravel, fine, medium tp coarse 55 '$'6 Gravel and Silt 2 88 . Gravel, fine, medium and coarse 4.5 92.5 Permian - Wellington Shale 5.5 98 A-11 Thickness Depth . Feet Feet ( 4) 14:31 2add GE 1218.67 SWL :35.5 'WTE 118:3.2 Drilled 8 November 1956 Quaternary - Alluvium Silt and Clay :38 :38 Sand, fine, medium 5 4:3 Gravel, medium, coarse 17 60 Silt and Gravel 5 65 Gravel, medium to coarse 5 70 Permian - Wellington Shale, blue 5 75 (22) 14:31.2daa GE 1218.11 SWL :35.5 WTE 1182.6 Drilled 21 November 1956 Quaternary - Alluvium . Silt and Fine Sand 25 25 F~ne Sand 6 :31 Gravel, fine, medium to coarse :39 70 Permian - Wellington Shale, blue 4 74 (24) 14:31 2adb GE 1 219.76 SWL :35.8 'WTE 1184.0 Drilled Z7 November 19.56 Quaternary - Alluvium Sil t and Fine Sand 8 8 Silt and Clay 7 15 Silt and Fine ~d 6 21 Silt and Clay. 10 :31 Silt and Sand' :3 :34 Gravel, fine, medium to coarse, clay at 58' Z7 61 Gravel and Silt .3 64 Gravel, fine, medium, coarse 11 75 Gravel and Silt 10 85 8 Permian - Wellington ~ha1e, blue 5 90 . A-12 Thickness Depth . Feet .leet .. I (21) 1431 2dba GE 1219.82 SWL 37.0 WTE 1182.8 Drilled 19 November 1956 Quaternary - Alluvium S11 t and Clay 13 13,' Silt and Fine Sand 11 24 Gravel, fine to medium 8 32 Gravel, fine, medium to coarse 3~ 62 Gravel and Silt 2 64 Gravel, fine, medium to coarse 11 75 Permian - Wellington Shale, blue 4.5 79.5 ( 2) 1431 2dbd GE 1215.34 SWL 34.8 WTE 1180.5 Drilled 7 November 1956 Quaternary - Alluvium . . Silt and Clay 19 19 IUne Sand 4 23 Gravel, coarse 58 81 Permian - Wellington Clay, blue 5 86 (3;) 14312acc GE 1 220 .77 SWL 38.4 WTE 1182.4 Drilled 7 November 1956 Quaternary - Alluvium Silt and Clay 21 .21 Fine Sand 6 Zl Gravel, medium to coarse 12 39 Clay 1 4D Sand and Clay 6 46 Gravel, medium to coarse 34 gO Permian - Wellington Shale, blue 5 85 8 A-1) Thickness Depth . Feet Feet (39) 1431 2bda GE 1219.47 SWL 37.0 'WTE 1182.5 Drilled 4 December 1956 Quaternary ,- Alluvium S11 tand Clay, Zl Zl Gravel, .fine, medium to coarse ~lay lense at 37', cemented 28'-29' 2!3 56 Silt and Clay 7 63 Gravel, fine, medium to coarse 10 73 Permian - Wellington Shale, blue 5 78 (40) 1431 2bdd GE 1219.48 SWL 33.0 WTE 1186.5 Drilled 5 December 1956 Quaternary - Alluvium . Silt and Clay 26 26 Gravel and Silt 3 2!3 Gravel, fine, medium to coarse' /is 77 Permian - Wellington Shale, blue, 10 87 - Gypsum 3 90 (41 ) 14312cdd GE 1220.00 SWL 42.7 WTE 1177.3 Drilled 10 December 1956 Quaternary - Alluvium Silt and Clay 21 21 .Sand and Silt 2 23' Gravel, fine to coarse 6.5 2!3.5 Silt and Sand 9 38.5 Silt and Clay 2.5 41 Gravel, fine, medium to coarse 14 55 Silt and Gravel 4 59 Gravel, fine, medium to coarse 16 75 8 Permian - Wellington 'áo Shale 5 A-14 - Thickness Depth . Feet Feet '. (57) 14311dda GE 1226.70 SWL 45.0 WTE 1181.7. Drilled 17 January 1957 Quaternary - Alluvium Silt and Clay 38 38 Fine Sand 14 52 Gravel, f1n~ to coarse 15 " 67 Pe~~~~ - Wellington Shale, blue 5 72 (20) 14313ada GE 1221.89 SWL 39.4 WTE 1182.5 Drilled 12 November 1956 Quaternary - Alluvium Silt and Clay 5 5 Silt and Fine Sand 15 20 -- Gravel and Silt' 5' 25 . S11 t and Clay 3 28 Grave;I. and S11 t 3 . 31 Gravel, medium to coarse 12 43 Sand, fine to medium 4 47 Gravel, fine, medium to coarse 5 52 ., Gravel. and S11 t g 60 ' Permian - Wellington Shale, blue 2 62 (23) 14313adå GE 1223.00 SWL 44.5 WTE 1178.5 Drilled 20 Novem~r 1956 Quaternary - Alluvium S11 t and Clay 21 21 I' Gravel with S11 t 20 41 Gravel, medium to coarse 28.5 69.5 Permian - Wellington Shale, blue 5.5 75 . A-15 . 4 . . I I Thickness Depth Feet Feet Ie (19) 14313adc GE 1222.86 SWL 46.1 WTE 1178.8 Drilled 1 2 November 1956 I Quaternary - Alluvium Sil t and Clay 5 5 i Silt and Fine Sand 7 12 Silt and Clay 10 22 Sand and.'Sil t 22 44 Gravel, fine, medium to coarse ,.." Î hard layer z..6 n at about 43' 25 69 Permian - Wellington 8 Shale, blue 3 72 ì (1) 14313baa GE 1221.69 SWL 44.7 WTE 1187.3 Drilled 7 November 1956 J Quaternary - Alluvium rl Silt and Clay 13 13 . Fine' Sand 10 23 Gravel, medium 15 38 I Sil t "and Blue Clay 3 41 Sand and ,Clay 12 53 Silt and Clay 16 69 Gravel, medium 4 73 I Sand and Clay 2.5 75.5 Permian - Wellington n Shale, blue 6~5 82 J (58) 14313ccc GE 1229.28 SWL 45.6 WTE 1183.7 Drilled 18 January 1957 J Quaternary. - Alluvium q Silt and Clay 39 39 Gravel, fine, medium to coarse, , some silt 10 49 1 Gravel, fine, medium to coarse 16 65 11 Permian - Wellington 8 Shale, blue 5 70 .. 1 A-16 Thickness Depth Feet Feet . (61) 14314ada GE.1227.72 SWL 45.5 WTE 1182.2 Drilled 25 February 1957 Quaternary - Alluv~um Clay and Silt 33 33 Sand, fine to coarse 14 47 Silt and Clay 1 48 Gravel, medium to fine, and sand 28 76 Gravel, coarse to fine and sand 10 86 Permian - Wellington Shale, blue 4 90 (60) 14314daa GE 1227.60 SWL 45.7 WTE 1181.9 Drilled 25 Feq,#uary 1957 Quaternary - Alluvium Silt and Clay Z7 Z7 Silt 9 36 . Sandy Silt 4 4D Sand,' coarse to fine 4 44 Gravel, fine. and sand 4 48 Gravel, medium to fine, and sand 8.5 56.5 Silt 2.5 59 Gravel, coarse, fine and sand 30.5 89.5 Permian - Wellington Shale, blue 4.5 94 (63) 14314dad GE .1228.87 SWL 46.7 WTE 1182.2 Drilled 27 February 1957 Quaternary - Alluvium Silt and Clay 23 23" . Clay . 18 41 F ine Sand 15 56 .Sàrid, coarse to fine 38 94 Permian - Wellington 8 Shale, blue 2 96 A-17 Thickness Depth Feet Feet . (62) 14314dab GE 1229. 13 SWL 46.2 W'l'E 1182.9 Drilled 26 February 1957 Quaternary - Alluvium Sil t and Clay 34 34 Sand, fine 18 52 Sand and Gravel, coarse to fine 7 59 Sil t and Clay 3 62 Gravel, coarse, cemented zone 83'-87' 25 .87 Permian ~ Wellington Shale, blue 4 91 ( 26) 14324ddc GE 1232.51 SWL 28.5 'WTE 1204.0 Drilled 28 November 1956 Quaternary - Alluvium . Silt and Clay 30 30 Gravel 'and Silt 10 40 Gravel, fine, medium to coarse 5 45 Clay 5 50 Gravel and Silt 4 54 Permian - Wellington Shale, blue, hard 5 59 (65) 14324cdb GE 1231.60 . Sr,n, 32.9 'WTE 1198.7 Drilled 14 March 1957 Quaternary - Alluvium Sil t and Clay 26 26 Gravel, fine to coårse 8 34 Silt and Clay 5 39 Gravel, fine to medium, -sand and silt, interbedded mostly granitic to 60' 31 70 Permian - Wellington 8 Shale, blue 4 74 A-18 . (OB2) (64) (Same as (25)) ( 25) (28) .. . . (30) 8 14324cdd 14324cdc GE 1232.29 SWL 31.0 Drilled 'Z7 November 1956 Quaternary - Alluvium Silt and Clay Sandy Silt Clay Gravel, fine, medium to coarse Gravel and Silt Permian - Wellington Shale 14230cbb GE 1 229 . 56 SWL 18.0 Drilled 'Z7 November 1956 Qua ternary - Alluvium - S11 t and Clay S11 t and Sand Gravel, medium to coarse Gravel and Silt Gravel, fine, medium, coarse Permian - Wellington Shale '" 142.30cdd GE 1233.29 SWL 17.4 Drilled 29 November 1956 Quaternary - Alluvium S11 t and Clay Silt and Fine Sand .Gravel, fine, medium to coarse Permian - Wellington Shale, blue A-19 Thickness Feet WTE 120:1..; 30 4 5 20.5 10.5 5 WTE 1211.6 12 7 12 4 9 5 WTE 1215.9 13 9 30 5 Depth Feet .30 34 39 59.5 70 75 12 -19 31 35 44 49 13 22 52 57 .r I - - ¡ - t - - ¡ - -=-q;!",-", --~-~ ..- --~.,.. -~:-'?-_:. ~~~f . :_~ -~~~-:';::=.=~ Thickness Depth Feet Feet . (29) 14325ddd GE 1230.28 SWL 15.0 WTE 1215.3 Drilled 28 November 1956 Quaternary - Alluvium Sil t and Clay 19 19 Gravel and Silt 12 31 Clay 5 36 Gravel, fine, medium to coarse 14 50 Clay 3 53 Gravel, some silt 7 60 Clay 7 67 Permian - Wellington - . "Shale 5 72 (27) 14325acd GE 1230.00 SWL 20.3 WTE 1209.7 Drilled 27 November 1956 Quaternary - Alluvium 8 Silt and Clay 19 19 Gravel, fine, medium and coarse 30 49 Permian - Wellington Shale, blue 5 54 (36) 14325dcc GE 1237.41 SWL 21.7 WTE 1215.7 Drilled 3 December 1956 Quaternary - Alluvium Silt and Clay 31 31 Sand and Silt -5 36 Gravel, fine to medium 5 41- Gravel, fine, medium to coarse 17 . 58 Silt .and Clay J 61 Sand and Silt 6 67 Gravel and S11 t 11 78 Permian - Wellington Shale, blue 5 83 8 A-20~' .. --.......-. .-....__..- Thickness Depth Feet Feet . (38) 14325bdd GE 12.35,.33 SWL 23.7 WTE 1211.6 Drilled 4 December 1956 Quaternary - Alluvium Silt and Clay 29 2fJ Gravel and Silt 7 .36 Gravel, fine, medium to coarse 13 49 Gravel and Silt 9 '58 Clay and Silt 3 61 Gravel, fine, medium to coarse 8 69 Silt and Clay 3 72 Gravel with Silt 12 84 Permian - Wellington Shale, blue 5 89 (37) 14325ccc GE 1237.20 SWL 23.3 WTE 1213.9 Drilled 3 December 1956 Quaternary - Alluvium . Silt and Clay 31 31 Gravel and Silt 3 34 Gravel, fine, medium to coarse 14 48 Gravel and Silt 3 51 Sil t and Clay 28 79 . Permian - Wellington '. , " Shale 5 84 'r . (32) 14231 ccc GE 1241.79 SWL 23.3 WTE 1218.5 H Drilled 30 November 1956 Quaternary - Alluvium J Silt and Clay 35 35 Gravel, fine, medium, coarse 17 52 ;r Gravel,: some silt ~ 58 ,il Permian - Wellington U . Shale, blue 5 63 8 « A- 21 I 1 f . 1 1 1 I ] J J ~8 I I ] I I 1 I 8 I J . (31), 14336daà GE 1238.66 SWL 18.5 Drilled 29 November 1956 Quaternary - Alluvium Silt and Clay Gravel, fine, medium to coarse Permian - Wellington Sþ.ale, blue (OB4) 14336add (Same as (31») .(34) 14336dcc GE 1244.17 SWL 23.0 (35) Drilled 30 November 1956 Quaternary - Alluvium Silt and Clay Sand a~d Silt Gravel, fine, medium to coarse Sil t and Clay ...qt'avel, fine, medium to coarse, cemented zones 71',77' and 78' Clay Permian - Wellington Shale 14336dbb GE 1240.68 SWL 23.8 Drilled 3 December 1956 Quaternary - Alluvium Silt and Clay Sand and Silt Gravel, fine, medium to coarse Sil t and Clay Gravel and Silt Silt and Clay Gravel, fine, medium to coarse Permian - Wellington Shale, blue A -22 .. Th~e88 Feet WTE 1220.2 25 3Ó 5 WTE 1221.2 Depth Feet 25 55 60 34 34 5 39 28 67 5 72 . t'. 7 79 2 81 5 WTE 1216.9 29 4 25 3 17 2 S 5 86 ~ 33 58 61 78 80 85 90 . (33) . 8 1526baa GE 1233.97 Drilled 30 November 1956 Quaternary - Alluvium SWL 14.9 S11 t and Clay Sand and S11 t Sand, £ine to medium Gravel, £ine, medium to coarse Silt Gravel, fine, medium to coarse Permian - Wellington Shale, blue A-23 Thickness Feet WTE 1219~1 5 5 10 13 1 15 5 .~ IJ Depth Feet f :1 J I I J I J ..J 1 :1 II .5 10 20 33 34 49 54 .~ . ~I .-40; I I I I ! . A'ITACHMENT 9 Water Well Information 8 8 ATI'ACHMENT 9 ~at.r ~ell Information Salina Public ~ater supply Wells Site ~ell Sampled Date Total Screened P~ Discharge Population Static ~ater MP above or below Elevation (ft) and Owner Drilled Depth Interval Setting Rate Served* Level Below MP (+/-) land above lsd) of (ft) ft) (ft) (GPM) (ft) Date surface (ft) MP Salina P'oIS #1 74 60 1150 1726 42.1 10/29/91 + 2.0 1230.50 Sal ina PWS #2 1/38 70 49-69 58.8 825 943. 40.9 10/29/91 + 1.9 1229.40 Salina PWS iI3 12/41 85 59-79 70 900 488 41.9 10/29/91 + 1.0 1229.46 Salina P~S #4 70 66.2 1376 1042 41.9 10/29/91 +.4 1229.96 Sal ina PWS #5 1930 60 49 980 1269 38.9 10/29/91 + 2.3. 1230.72 Salina PWS #6 1931 80.2 38-78 70 950 1134 41.6 10/29/91 + 2.2 1230.10 Sal ina PWS #7 1938 69 60 1250 1564 42.4 10/29/91 + 4.3 1228.38 Sal ina PWS #8 1940 73.5 60 1000 . 1163 40.2 10/29/91 + 2.3 1227.02 Salina PWS;#10 6/48 74.5 49-69 60 1276 1307 41.1 11/05/91 1227.72 Salina PWS #11 8/53 74.7 50-70 60 .1100 1522 39.2 07/07/92 + 6 1226.15 Salina PWS #12 8/53. 73.5 58-13 60 1230 1897 40.25 10/29/91 + 5 '~26.30 . Salina PWS #13 -old 1/54 76 56-71 NA 41.09 05/07190 + 6 1227.10 Salina PWS #13 -new 1989 75.3 55-75 850 1077 43 92,R 2 Sal ina PWS #14 10/54 72.8 47-67 60 950 1C3'i 39.1 11/05/91 1225.82 al ina PWS #15 4/57 89 74-89 80 900 1053 40.25 10/29/91 + 6.8 Sal ina PWS #16 5/57 81 66-81 .70 800 940 40 10/29/91 + 8.7 James Betts (28) 1989 59 53-59 NA 40.48 07/92 + 1.2 1235.38 ** S. C. McCrae 1964 60 NA 35.7 11/91 0.0 1225.68 ** Dr. John Miller 1989 75 62-72 5 NA 37.9 11/91 + 1.0 1223.71 ** St. Johns Hospital,#2 1971 78 25 NA 35 11/91 Dennis Lilly (32) 1977 60 57-60 50 10 NA 41.15 11/91 + 1.0 1230.55 ** 1st.Presb Church (33) 40 NA Clyde Reed (26) 2/82 49.2 46-49 46 5 NA 33.25 07/92 . 5.3 James Pickering 50 NA * Based on water use information for. 1991, provided by Jim Wendell (1992), Population of Salina (1990), number of meters served by Saline County Rural Water District No.3 (1992) and average number of persons per household (1990). ** Elevation surveyed by ICDHE on November 5 and 6, 1991 ABBREVIATIONS: ft = Feet P\IS = Public Water Supply GPM = Gallons Per Minute LSD = Land Surface Datum MSL = Mean Sea Level NA = Not Appli cabl e HP = Measuring Point TO = Total Depth 8 = Unknown () = Well and SalTple number used in SSI report ~ Sources: Wendell, Hay 8, 1990 and July 21, 1992; KDHE/BoY, Yater Yell Records: Salina PYS Yells Site Files, SSI and ESI Field Notes: KDHE/BoY, Public Yater Supply Section, Salina PYS Files; Rural Water District Association, 1992: U. Y. Bureau of the Census, 1990: Yilson & Company 1957. . ATTACHMENT 10 VOC Analyatic Data - Salina PWS Wells: December 1990 to July 1992 . 8 AnACIIEIIT 10 December 1990 - July 1992 Volatile Organic Analytical Data, Ground Water Samples - Wells Salina Public Water Supply Wells Site (U1lts In I4I/L) ell Depth T/C Ethyl Carbon 8tion (ft)! Date LAB PCE TCE 1,2-DCE Benzene Benzene Toluene 1,1-DCE 1,2-DCA Tet Tot Xyl EDB MCL 5.0 5.0 100/70 700.0 5.0 1,000 7.0 5.0 5.0 10,000 0.05 PWS', 60 10/29/91 ICDHE 3.9 0.6 NO ND ND NO NO NO NO ND NO PWS tit 1/07/92 ICDHE 4.2 0.6 ND ND NO ND NO NO NO ND NO PWS #2 59 10/29/91 ICDHE NO ND ND ND ND ND ND ND NO ND ND PWS #3 70 12/31/90 WILSON 2.7 ND ND NO 1.7 NO ND 0.5 4.0 ND ND PWS #3 8/21/91 WILSON 1.4 NA NA NA NA NA NA ND NA ND ND PWS '3** 10/29/91 ICDHE NO ND ND ND 22.2 ND NO 7.7 2.8 NO ND PWS #3 11/5/91 ICDHE 17.5 1.9 ND ND ND ND ND 0.5 3.1 ND ND PWS #3 1/03/92 WILSON ND NO ND ND ND ND ND 3.6 0.9 ND ND P\iS #3 4/22/92 CONTNl 1.3 ND NO NO 9.1 ND ND 1.2 NO NO ND P\iS #3 6/10/92 CONTNl 1.7 NO NO NO 7.8 NO NO 4.3 NO NO NO P\iS #3** 1/01/92 KOHE NO NO NO NO 3.8 NO NO 5.0 NO ND ND P\iS #3 7/07/92 CONTNL 0.6 0.8 NA NO 3.8 NO NO 4.5 0.3 ND NA P\iS #4 66 12/31/90 WILSON 2.1 NO NO NO NO NO NO NO 0.9 ND ND PWS #4 8/27/91 WILSON 21.0 NA NA NA NA NA NA NA NA NA ND 10/29/91 ICDHE 0.9* ND ND ND ND NO ND ND NO NO ND #4 1/03/92 WI LSON 0.8 NO NO ND ND NO ND NO NO NO ND P\iS #4 7/07/92 ICDHE 6.7 NO NO NO ND ND ND NO NO NO NO P\iS #4 1/01/92 CONTNl 6.0 NA NA NA NA NA NA NA NA NA NA PWStIS 49 12/31/90 WILSON 11.0 ND ND ND ND NO 0.7 NO 0.6 ND ND P\iS #5 8/21/91 WILSON ND ND NA NA NA NA NA NA NA NA NA P\JS tIS 10/29/91 KOHE NO NO NO ND NO NO NO NO ND NO ND PWS #5 1/03/92 WILSON 31.0 0.6 NO ND NO NO ND NO ND ND ND P\iS #6 70 12/31/90 WILSON ND ND ND ND ND ND ND ND ND NO ND P\iS #6 8/21/91 WILSON NA ND NA NA NA NA NA NA ND NA ND PWS #6 10/29/91 ICDHE ND ND NO ND ND ND NO ND ND ND ND P\iS #6 1/03/92 WI LSON ND ND ND NO NO ND ND ND ND ND ND P\JS#6 7/01/92 ICDHE ND ND ND ND ND ND ND ND ND NO ND P\iS #6 1/01/92 CONTNL ND 1.0 NA NA NA NA NA NA NA NA NA P\iS'7 60 10/29/91 ICDHE ND ND ND ND ND NO NO NO NO NO NO P\iS #8 60 8/27/91 \iILSON 22.0 NA NA NA NA NA NA NA NA NA NA P\iS #8 10/29/91 ICDHE 1.0* NO ND NO ND NO NO NO NO ND ND 1/03/92 \iILSON 3.3 ND NO ND ND ND NO NO NO NO NO 7/07/92 KDHE 6.6 NO NO ND ND NO NO NO NO NO NO P\JS #8 7/07/92 CONTNl NO NA NA NA NA NA NA NA NA NA NA Page 1 of 2 ATTACJIElr 10 (Contiru!d) December 1990- July 1992 Volatile Organic Analytical Data, Ground Water Samples - Wells Salina Public Water Supply Wells Site (units in ..g/L) T/C Ethyl Carbon Date LAB PCE TCE 1,2-DCE Benzene Benzene Toluene 1,1-DCE 1,2-DCA Tet Tot Xyl EDB MCL 5.0 5.0 100170 700.0 5.0 1,000 7.0 5.0 5.0 10,000 0.05 PWS '10 60 10/29/91 KDHE ND ND ND ND ND ND ND ND ND ND ND PWS '11 60 8/27191 WILSON NA NA NA NA NA NA NA 2.3 NA NA ND PWS '11 10/29/91 KDHE 1.3 1.3 ND ND ND ND ND 3.6 ND ND ND PWS '11 7/07/92 KDHE ND 2.1 ND ND ND ND ND 5.7 ND ND ND PWS '11 7/07/92 CONTNL NA NA NA NA NA NA NA 5.4 NA NA NA PWS '12 60 8/27191 WILSON ND ND NA NA NA NA ND ND NA NA ND PWS '12 10/29/91 KDHE ND ND ND ND ND ND ND ND ND ND ND PWS #12 7/07/92 KDHE ND ND ND ND ND ND ND ND ND ND ND PWS #12 7107/92 CONTNL ND 0.7 NA NA NA NA ND 0.5 NA NA NA PWS #13 65 10/29/91 KDHE 0.9* ND ND ND ND ND NO ND ND ND ND PWS #13 7107192 KDHE ND 1.9 ND ND ND ND ND 5.8 ND ND ND PWS '14 60 10/29/91 KDHE ND ND ND ND ND ND ND ND ND ND ND PWS #15 80 8/27/91 WILSON NA 1.4 NA NA NA NA NA 3.4 NA NA ND 10/29/91 KDHE ND 1.0 0.5 ND ND ND ND 2.5 ND ND ND 5 7/07/92 KDHE ND 1.2 ND ND ND ND ND 4.3 ND ND ND P\IS '15 7107192 CONTNL NA 1.5 NA NA NA NA NA 3.1 NA NA NA PWS '16 70 10/29/91 KDHE ND ND ND ND ND ND ND ND ND ND ND REED 47 11/05/91 KDHE 17.0 8.1 13.1 ND ND ND ND ND ND ND ND REED 7/21/92 KDHE 21.2 9.0 11.6 ND ND ND ND ND ND ND ND BETTS 55 11/05/91 KDHE ND ND ND ND ND ND ND ND 2.6 ND ND LILLY 60 11/05/91 KDHE ND ND ND ND ND ND ND ND 0.7 ND ND 1PRES 40 11/05/91 KDHE ND ND ND ND ND ND ND ND ND ND ND MCCRAE 60 11/06/91 KDHE ND ND ND ND ND ND ND ND ND ND ND JMI LLER 65 11/05/91 KDHE 4.6 1.5 ND ND ND ND ND 3.9 0.7 ND ND JMILLER 7/21/92 KDHE 3.0 1.0 ND ND ND ND ND 2.6 ND ND ND PICKERIN 50 11/06/91 KDHE 3.2 0.5* ND ND ND ND ND ND ND ND ND PICKERIN 7/10/92 KDHE 1.9 ND ND ND ND ND ND ND ND ND ND STJOHN#2 65 11/05/91 KDHE ND ND ND ND ND ND ND ND NO NO NO ABBREVIATIONS: ND - Not Detected NA - Not Analyzed ug/L - Micrograms per Liter LAB - Testing Laboratory PCE - Tetrachloroethylene TCE - Trichloroethylene ~W-DCE - Trans/cis 1,2-Dichloroethylene 1,1-DCE - 1,1-Dichloroethylene - 1,2-Dichloroethane Tot Xyl - Total Xylenes MC - Maximum Contaminant Level * - Below reporting limit ! - Sample depth (or pump setting). For total and top of screen depths, see Attachment 10. 1PRES - First Presbyerian Church Page 2 of 2 . A'ITACHMENT 11 Environmental Assessment of the Former Huntsingers Store in Salina, Kansas Prepared by Plains Environmental Services . . - .JUN 15 '92 03:01PM KDHE NCDO SALINA KS P.2 .' . . ENVIRONMENTAL ASSESSMENT OF THE FORMER HUNTSINGERS STORE IN SALINA, KANSAS FOR MR. BRUCE SEIN AND GREAT-PLAINS FEDERAL CREDIT UNION 605 S. OHIO SALINA, KANSAS 8 JUNE 15, 1992 PREPARED BY: PLAINS ENVIRONMENTAL SERVICES 601 N. BROADWAY SALINA, KANSAS 67401 8 .. - ,!UN 15 '92 03:02PM KDHE NCDO SALINA KS . " . . 8 1. INTRODUCTION On 11 June 1992, Plains Environmental Services (PES) performed a Phase II Environmental Assessment at the former Huntsingers Store at 211 S. Santa Fe in Salina, Kansas. The area investi~ated includes Lot 143 and the north 1/2 of Lot 145 located ~n the southeast block intersected by Santa Fe Avenue and Iron Street. The purpose of this environmental investigation is to determine if volatile organic contaminants (VOCS) are present in the groundwater surrounding the former Huntsingers Store. Mr. Bruce Sein, an interested buyer, and Great Plains Credit Union, present owner, indicated that a dry cleaning facility had been located on this property at one time. The presence of VOCs (.commonly used dry cleaning solvents) in groundwater at this location would be of interest to the ~resent and future owners of this property. Since a Phase I ~nvestigation was not performed on this property, -PES determined that the analysis of groundwater samples for VOCs would provide an efficient and economical snapshot of potential contamination problems at the'site. II. SITE INVESTIGATION PES performed a site assessment which included collecting and analyzing groundwater samples for volatile organic compounds. Of particular interest were the detection of petroleum hydrocarbons (due to the site location from the old Firestone 'building) and the dry cleaning solvent tetrachloroethene. Access to potential contamination sites on the property were limited due to the size of the building with respect to the lot size, sidewalks to the west of the building, adjacent buildings to the north and south of the Huntsingers building, and the alley to the east which covered many utility lines. It was determined that groundwater samples would provide the best indication of potential site contamination due to petroleum hydrocarbons or dry cleaning solvents. Sample locations are shown on the aerial photograph provided by Great Plains Credit Union (Figure 1). ' Neither non-volatile organic chemicals nor inorganic contaminants i.e. heavy metals were investigated as possible' contaminants -' . Page 1 ot 3 P.4 . .,. ..'. . Jt.t4 15 '92 03: 03PM KDHE NCDO SALINA KS . 8 8 III. RESULTS Results of groundwater sample analyses indicated the presence of tetrachloroethene (PCE). Trace amounts of trichloroethene (TCE) were also detected in several groundwater samples. PCE was commonly used as a dry cleaning solvent. TCE has also been used as a dry cleaning solvent but is more likely a contaminant found in PCE or a degradation product of PCE. No petroleum hydrocarbons or other volatile organic compounds were detected in the groundwater samples. Highlighted in Figure 1 is the ~rojected area of groundwater contamination. Table 1 ~ncludes the analytical results of the groundwater samples collected. Table 1. Analytical Results. Sample Location Analyte Concentration (ug/L) C ((.or #1 <.'HCid VfY -;../¡,J.'" J. 0.19 TCE ND #2 PCE 11.6 TCE 0.22 #3 PCE 0.3 TCE ND #4 PCE 25.9 TCE 0.12 - #5 PCE 7.58 TCE 0.12 #6 PCE 46.5 TCE 1.38 PCE = Tetrachloroethene, detection limit = 0.002 ug/L TCE = Trichloroethene, detection limit = 0.02 ug/L ND = Not detected Page 2 of 3 ~.. ~ I'-.. ..0 " JuN f~ 15 '92 Ø'3~Ø3PM KDHE-NCDO SALINA KS. r ,\ , ' .,,' , - _."',- 10 I , ,'" ~ , , ~ :, ~.. .- 'j :, ."""c-- ',- ::f\), :,,~:O~ , ,. .. ~"'" " ,~-"':"t,::~)i,'~'f.~ :-,^ """" ,',' .. ",' :..'" ,; . , ~~" ' - J ., J Io!o..., \_j'~ " !,~ " ,,' " .. " " .. ", ; , ' " " ......, 9', , ... . ;),~. - :';o~, ',',' :'""""""" , , "P,';: :,;'" - .: > ,:~';"F: ,,:.. ;:' J,'; '::: , ", ':";::/'::::..:",,:: .. ;:"';~':~~\;,)~~?:',;, ,',' ..:";'.:.~~p~~~"::':'" '" .":i~~~;:~~,,~~,,.~.w'....¡~' y "'(""':~...~;.i'þ(~-;~..I..:~. ", : ,", ~":;"1.~':~;'~""':'~:<' :' ; ,: .. :/)]:~~¥jj;Yt¡>* "" :,;;.",';,(",;:":'!"~"": ~,(~if~~~~i '..,. '" "\ ., ~... " " " ENVIRONMENTAL SERVICES SALINA, KlìNSAS JUNE 1992 . A'ITACHMENT 12 Site Latitude-Longitude Coordinate Calculation Worksheets . . . 8 ,8 LATITUDE AND LONGITUDE CALCULATION WORKSHEET #1 LI USING CUSTOM RULER OR CooRDINATOR~ SITE NAME: Salina PWS Wells CERCLIS #: KSD984966770 AKA: SSID: ADDRESS: 401 S. Fifth Street CITY: Sal ins STATE: Kansas ZIP CODE: 67401 SITE REFERENCE POINT: Salina PWS Well #3 USGS QUAD MAP NAME: Salina, Kansas TOWNSHIP: 14 S RANGE: 03 W 1/4 SW SCALE: 1:24,000 MAP DATUM: 1927 MAP DATE: 1955 SECTION 13 1/4 NW 1/4 NE PHOTOREVISED: 1978 MERIDIAN: 6TH PRIME COORDINATES FROM LOWER RIGHT (SOUTHEAST) CORNER OF 7.5' MAP (attach photocopy): LONGITUDE: 97 ° 30' 00" LATITUDE: 38° 45' 00" -- COORDINATES FORM LOWER RIGHT (SOUTHEAST) CORNER OF 2.5' GRID CELL: LONGITUDE: 97° 35' 00" LATITUDE: 380 50' 00" -- CALCULATIONS: LATITUDE (7.5' QUADRANGLE MAP) A) ALIGN THE BOTTOM OF THE SCALE WITH BOTTOM OF GRID. ALIGN THE TOP OF THE SCALE WIT THE TOP OF THE GIRD. POSITION EDGE OF RULER OVER SITE REFERENCE POINT WHILE KEEPING TOP AND BOTTOM ALIGNED. B) READ TICS ON RULER AT 1- OR 0.5-SECOND INTERVALS (INTERPOLATE). C) EXPRESS IN MINUTES AND SECONDS (1' = 60"): 0' 01 .00" -- D) ADD TO STARTING LATITUDE: 380 50' 00 . 0" + 0' 01 .00" = ---- --- SITE LATITUDE: ~ ~ ~. ~ I CALCULATIONS: LONGITUDE (7.5' QUADRANGLE MAP) A) ALIGN THE BOTTOM OF THE SCALE WITH RIGHT SIDE OF GRID. ALIGN THE TOP OF THE SCALE WITH THE LEFT SIDE OF GRID. POSITION EDGE OF RULER OVER SITE REFERENCE POINT WHILE KEEPING TOP AND BOTTOM ALIGNED. B) READ TICS ON RULER AT 1- OR 0.5-SECOND INTERVALS. (INTERPOLATE). C) EXPRESS IN MINUTES AND SECONDS (1' = 60"): l' 26 . 00" -- D) ADD TO STARTING LONGITUDE: 97° 35' 00 0" + 01' 26 . A" = -- --- SITE LONGITUDE: ~ ~ ~ .~I INVESTIGATOR: Robert Brown DATE: July 1992 SITE NAME: 'Salina PWS Wells . 9u'7°37-""'-"Ù""""""""""'" ~ ' ' "-,,.' , , " 30'~ , , ,~ . NUMBER: KSD984966770 I" ! ' ¡,I' I,; , ' 35' '2 . . \. 1.'1') '~--'" -- W' . I .1 ! I i i ......,(?!;¡,....,........ i i ! i . . 3_-.. ".. ". ,i?'O / ./ ./ /" I . =..!.. I 1i?13 1i?15 / .......... 8./~,.. . io Tower ~ p ¡~{.~Ir 1\ S i c"t, I' - I, e"," I:! .. ;0' J:. '- .. "00 I ! ! j j I ! I..~:- e TOPOGRAPHIC MAP QUADRANGLE NAME: Salina, Kansas COORDINATES OF LOWER RIGHT-HAND CORNER OF 2.S-MINUTE GRID: LATITUDE: 380 50. 01. LONGITUDE: 970 36' 2&0. --- --- SCALE: 1 :24,000 -U,5 COVtJlNMENT PlUNTlNCOfFICE: I" I. S. 8.18 "'0 S 0 S E-ll . . 8 8. 9. 11. 12. Jone 1993 30 Salina PWS Wells ESI 8. REFERENCES 1. United States Geological Survey, 7.5-minute topographic quadrangle maps of Kansas: New Cambria, Salina, Salina SW, and Trenton, all 1955 and photorevised in 1978. 2. United States Environmental Protection Agency, "Standard Operating Procedure to Determine Site Latitude and Longitude Coordinates," 1991. Calculation worksheet for Salina Public Water Supply Wells Site (see Attachment 12). 3. Mary Knapp, with the Kansas Weather Data Library at Kansas State University, telephone conversation with Pam Chaffee, KDHE, August 10, 1992, Re: Climatological Data for Salina, KS. 4. Jim Wendell, Superintendent for the City of Salina's Water Division, telephone conversation with Pam Chaffee, KDHE, September 20, 1990, Re: Surface Water Use by Salina PWS. 5. Kansas Department of Health & Environment, Bureau of Environmental Remediation, Scanning Site Investigation of the Salina Public Water Supply Wells Site, Saline County, Kansas, September 1990. 6. Kansas Department of Health & Environment, Bureau of Water, Salina Public Water Supply files. 7. Kansas Water Resources Board, State Water Plan Studies, Part A: Preliminary Appraisal of Kansas ~ater Problems, Section 12. Smoky Hill Unit, June 1962 (pp. 75, 76, 95, 97). 42 U.S.C. 300 et seq. (Safe Drinking Water Act). Rachel E. Miller, A Survey of Organic Carbon and Trihalomethane Formation Potential in Kansas Groundwaters, 1987, unpublished Master's Thesis, University of Kansas. 10. Federal Register. Vol. 44, No. 231, National Interim Primary Drinking Water Regulations; Control of Trihalomethanes in Drinking Water, 1979 (pp. 68624-68642). Jim Wendell, Superintendent for the City of Salina's Water Division, telephone conversation with Pam Chaffee, KDHE, August 12, 1992, Re: Salina's PWS chlorination processes. Kansas Department of Health & Environment, Bureau of Environmental Remediation, Preliminary Assessment of the Salina Public Water Supply, Saline County, Kansas, 1988 (pp. 1, 2, 4). . 18. 19. . 20. 21. 22. 23. 24. 25. 26. 8 27. J one 1993 31 Salina PWS Wells ESI 13. Jim Wendell, Superintendent for the City of Salina's Water Division, telephone conversation with Pam Chaffee, KDHE, October 21, 1991, Re: Sampling the Salina PWS wells. 14. Jim Wendell, Superintendent for the City of Salina's Water Division, telephone conversation with Pam Chaffee, KDHE, November 15, 1991, Re: Salina PWS Well #3. 15. Kansas Department of Health & Environment, Bureau of Environmental Remediation, Salina Public Water Supply Wells Site files. 16. Kansas Department of Health & Environment, Bureau of Environmental Remediation, Salina Public Water Supply Wells Site, ESI field notes and memoranda. 17. Kansas Department of Health and Environment, Bureau of Waste Management, RCRA and Hazardous Waste Generators files for Salina, Kansas, 1991-1992. Polk Directories for Salina, Kansas, 1921-1991(?) Sanborn Insurance Company, Fire Insurance Maps for Salina, Kansas, 1931 to 1962. Douglas M. Considine, editor-in-chief, Chemical and Process Technology Encyclopedia. McGraw-Hill Book Company, 1974, pg. 835. . Priority Analytical Laboratory, Inc. analytical results for water sample from MW-5 at the Long-McArthur, Inc. facility (Project #1903002) on March 26, 1992. Kansas Department of Health and Environment, Bureau of Environmental Remediation, Storage Tank Section, UST and LUST files for Salina, Kansas, 1991 and 1992. Peter Denning, KDHE/BA WM/NCDO, visit with Pam Chaffee, KDHE, October 11, 1990, Re: Potential Sources in and Historical Information about Salina, Kansas. Kansas Department of Health and Environment, Bureau of Environmental Remediation, Spill Report Files. Agency for Toxic Substances and Disease Registry, October 1991, Toxicological Profile for Tetrachloroethylene, pp. 3, 4, 53, 66. Agency for Toxic Substances and Disease Registry, October 1991, Toxicological Profile for Trichloroethylene, pp. 3 and 35. Agency for Toxic Substances and Disease Registry, October 1992, Toxicological Profile for 1.2-Dichloroethane, pp. 3 and 4. . 8 8 34. 35. 36. 37. 38. 39. 40. 41. .J one 1993 32 Salina PWS Wells ESI 28. Code of Federal Regulations, 40, Chapter 1, Part 141, Subpart G, July 1, 1991 edition, pages 670-671. . 29. Agency for Toxic Substances and Disease Registry, May 1989, Toxicological Profile for Benzene. pp. 1, 73, and 102. 30. Agency for Toxic Substances and Disease Registry, October 1990, Toxicological Profile for 1.2-Dibromoethane, pp. 1 and 66. 31. N. Irving Sax and Richard J. Lewis, Sr., Hawley's Condensed Chemical Dictionary. Eleventh Edition, Van Nostrand Reinhold Company, 1987, page 486. 32. Agency for Toxic Substances and Disease Registry, October 1991, Toxicological Profile for Vinyl Chloride. 33. Agency for Toxic Substances and Disease Registry, December 1989, Toxicological Profile for 1.2-Dichloropropane, pp. 1, 76. Federal Emergency Management Agency, Flood Insurance Study, City of Salina, Kansas, Saline County, Community Number - 200319, February 5, 1986. Bruce F. Latta, Ground-Water Conditions in the Smoky Hill River Valley in Saline, Dickinson, and Geary Counties, Kansas: State Geological Survey of Kansas Bulletin 84, 1949, pp. 28, 30, 39, and Plate 1. Wilson & Company Engineers & Architects, City of Salina, Kansas, Water Supply ExplorationS Report, May 1957, pp. , and Sheet Nos. 2, 3, and 4. Kansas Department of Health & Environment, Bureau of Water, Water Well Records. R. Allan Freeze and John A. Cherry, Groundwater, Prentice-Hall, Inc., 1979, page 29. Tony Gogel, Discharge of Saltwater from Permian Rocks to Major Stream-Aquifer Systems in Central Kansas, Kansas Geological Survey, Chemical Quality Series 9, 1981, pages 3, 16. Carl D. McElwee, et ai, A Study of the Salt-Water Intrusion Problem Between Salina, Kansas and Solomon, Kansas, in the Smoky Hill River Valley, Kansas Geological Survey, Open-File Report 81-3, page 1. Jim Wendell, Superintendent for the City of Salina's Water Division, information provided to Pam Chaffee, KDHE, July 21, 1992, Re: Pumpage Data for Surface and Ground Water Sources to the Salina PWS. . . 8 46. 47. 48. 49. 50. 51. 52. 53. 54. Jone 1993 33 Salina PWS Wells ESI 42. Kansas Department of Health & Environment, Kansas Water Data Base, Water Well Program. 43. United States Bureau of the Census: 1990, Kansas 1990 Household Family, and Group Quarters Characteristics. 44. United States Bureau of the Census: 1990, Kansas 1990 Population Totals. 45. Joan Peterson, Saline County Rural Water District #3, telephone conversation with Danny Cooper, KDHE, August 30, 1990. Re: Number of metered residences on rural water. Jim Wendell, Superintendent for the City of Salina's Water Division, telephone conversation with Pam Chaffee, KDHE, May 3,1990, Re: Sampling the Salina PWS wells. Kansas Board of Agriculture, Division of Water Resources, 1992, Amount Statistics Report. Plains Environmental Services, 601 N. Broadway, Salina, Kansas, Environmental Assessment of the Former Huntsinger's Store in Salina, Kansas, for Mr. Bruce Sein and Great Plains Federal Credit Union, 605 S. Ohio, Salina, Kansas, June 15, 1992. C.O. Geiger, D.L. Lacock, D.R. Schneider, M.D. Carlson, and B.J. Pabst, 1991: Water Resources Data - Kansas: Water Year 1990. U.S. Geological Survey Water-Data Report KS-90-1, page 65. Kansas Administrative Regulations, 1987, Chapter 28, Article 16, Section 28, "Kansas Surface Water Quality Standards," Table 3 and Figure 4. Steve Adams, Kansas Department of Wildlife and Parks, telephone conversation with Pam Chaffee, KDHE, April 13, 1993. Re: Sensitive environment information for the Salina, Kansas area. Dewey Castor, Biologist, U.S. Department of Fish and Wildlife, telephone conversation with Pam Chaffee, KDHE, April 14, 1993. Re: National Wetlands Inventory coverage in Kansas. . Kansas Department of Wildlife and Parks, 1993, Threatened and Endangered Species List. selected pages. Register of Deeds Office, Saline County Courthouse, Salina, Kansas. . 8 8 Jone 1993 34 Salina PWS Wells ESI OTHER REFERENCES CITED Continental Analytical Services, Inc., Analytical results. Federal Emergency Management Agency, Flood Boundary and Floodway Map, City of Salina, Kansas, Saline County, Community-Panel Numbers 200319 0005 and 200319 0015, February 5, 1986. Kansas Department of Health and Environment, Geographic Information Systems Center. Kansas Department of Transportation, Bureau of Transportation Planning, 1983, General Highway Map of Saline County, Kansas. Kansas Health and Environmental Laboratory, Analytical results. Kansas Water Resources Board, State Water Plan Studies, Part A: Preliminary Appraisal of Kansas Water Problems, Section 8. Solomon-Saline Unit, June 1961 (p. 63). Marshall Sittig, Handbook of Toxic and Hazardous Chemicals and Carcinogen, Noyes Publications, 1985, pp. 424, 425. Rocky Mountain Aerial Surveys, Aerial Photograph of Salina, Kansas, March 9, 1991. Sandra Voegeli, Environmental Geologist, Kansas Department of Health & Environment, Bureau of Water, Public Water Section, telephone conversation with Pam Chaffee, KDHE, September 22, 1992, Re: Wellhead Protection Areas in Salina, Kansas. State Geological Survey of Kansas, 1964, Geologic Map of Kansas: Map M-l, scale 1:500,000. U.S. Environmental Protection Agency, Contract Laboratory Program, Analytical results. Wilson Laboratories, Inc., Analytical results. . ATTACHMENT 1 VOC (THM) Analytical Data - Salina PWS Distribution System: 1978 to March 1985 8 8 ATTACHMENT 1 1918 . March 1985 VOC (THM) Analytical Data' Salina PWS Distribution System Salina Public Water Supply Wells Site (units In .4/L) . S8q)le Location MCL 100 Water Treatment Plant (5th and South) 8/07/78 KDHE NA 19 53 ND 90 162 Water Treatment Plant -. 1st Saf11)le 10/19/78 KOHE NA NO NO NO NO NO Water Treatment Plant -- 2nd Saf11)le 10/19/78 KOHE NA 32 55 5 77 114 Water Treatment Plant -- 3rd Saf11)le 10/19/78 KOHE NA 28 69 3 145 245 Flna Truck Stop 1/07/81 Wi lson NA NO 1.1 46.1 NO 47.2 Municipal Airport 1/07/81 Wilson NA NO 2.1 64.1 1.7 67.9 Municipal Airport 5/19/81 Wilson 74.6 41.0 NO 27.8 112 255.4 Standard Service 5/19/81 Wilson 104 62.4 NO 33.6 122 322 343 N. 9th 8/17/81 Wi lson 27.2 47.7 NO 28.3 12.3 115.5 1910 N. 9th 8/17/81 Wilson 36.3 56.7 NO 35.1 17.8 145.9 1304 Kingsman 8/17/81 Wilson 42.1 66.0 NO 41.6 20.9 170.6 Golf Course 8/17/81 Wilson 76.1 NO NO 45.5 27.8 149.4 2501 Market Place 2/24/83 Wi lson NO 10.0 3.0 10.0 NO 23.0 GSSchilling 5/18/83 Wi lson 18.5 20.5 NO 38.8 44.4 122.2 Gol f Course 5/18/83 Wilson 46.2 35.1 NO 26.8 76.3 184.4 728 N. 8th 5/18183 Wi lson 8.27 16.3 NO 42.5 31.9 98.97 8 Phi II ips 66, 1-70 & 81 5/18/83 Wilson 37.6 31.1 NO 36.9 70.7 176.3 Truck Center 5/18/83 Wi lson 20.6 25.8 NO 50.0 46.3 142.7 QT S. 9th 5/07184 Wilson 9.1 3.6 NO 38.0 7.8 58.5 Fina Truck Stop 5/07/84 Wi lson NO 8.3 2.8 51.4 7.8 62.5 Phillips 66. 1-70 & 81 5/07/84 Wi lson NO 9.4 3.7 68.3 8.8 90.2 Golf Course 8124184 Wi lson NO 31.2 37.4 10.7 37.9 117.2 Municipal Airport 8/24/84 Wilson NO 26.3 31.8 10.3 19.8 88.2 Phillips 66 8/24/84 Wi lson NO 21.9 25.4 9.4 25.1 81.8 Fina Truck Stop 8/25/84 Wi lson NO 5.7 6.8 4.4 21.5 38.4 Daddy's Restaurant 12/28/84 Wilson ND 10.0 7.5 41.7 7.5 66.7 Municipal Golf Course 12/28/84 Wilson NO 7.7 3.2 73.2 2.0 86.1 Fina Truck Stop 12/28/84 Wi lson NO 7.3 5.6 29.8 2.4 45.1 Mr. G's 12/28184 Wi lson NO 6.4 6.0 21.8 3.5 37.7 2501 Market Place 3/07/85 KOHE NO 7.0 1.0 37.0 NO 45.0 ABBREVIATIONS: BOCM - Bromodichloromethane BRMFORM - Bromoform DBCM - Oibrochloromethane CHLFORM . Chloroform DCM - Oichloromethane uglL - Micrograms per Liter VOC - Volatile Organic Chemical THM . Trihalomethane 8 MCL - Maximum Contaminant Level Source: KDHE/Bureau of Water, Public Water Supply Section, Salina PWS files. . A'ITACHMENT 2 VOC Analytical Data - Salina PWS Distribution System: May 1985 to May 1990 . 8 . LAB LOCATION DATE MCL KDHE 300 II. Ash 05-28-8 KDHE 9th & Crawford 05-28-f KDHE 2501 Market Place D 05-28-f KDHE 1211 Sunrise Drive 05-28-f KDHE Hardees 09-13-f KDHE Ramada 1m (9th & 170) 09-13-f KDHE 1211 Sunrise Drive 09-13-f KDHE 2501 Market Place-D 09-13-8 KDHE Hardees 11-26-8 KDHE 2501 Market P l ace-O 11-26-8 KDHE 1211 Sunrise Drive 11-26-8 IIILSON Salina Lab Tap D2-03-8 IIILSON Sat ina Lab Tap 02-06-8 IIILSON Plant Tap 02-10-8 IIISLON Sat ina Lab Tap 02-13-8 IIILSON Salina Lab Tap 02-18-8 KDHE Hardees 03-06-8, KDHE 2501 Market Place-D 03-06-81 KDHE 1211 Sunrise Drive 03-06-6< KDHE 300 lIest Ash 03-06-81 III LSON Salina Lab Tap 05.07.8, KDHE Hardees 05-22-81 KDHE 2501 Market Place-D 05-22-8c KDHE 1211 Sunrise Drive 05-22-8( KDHE 300 lIest Ash 05-22-8( KDHE 2501 Market Place 08-05-8/ KDHE Your Stop Store (1118 II. 9th) 09-10-8/ KDHE Meadowlark School (2200 Glenn) 09.10-86 KDHE Step It Fetch 09-10-86 KDHE 2501 Market Place-D 09-10-86 KDHE Hardees 12-01-86 KDHE 2501 Market Place-D 12-01-86 KDHE 1211 Sunrise Drive 12-01-86 KDHE 300 lIest Ash 12-01-86 IIILSON Sat ina Lab Tap 12-18-86 IIILSON Plant Effluent 02-25-87 Page 1 of 3 5 May 1985 - - SAMPLE POINT 11.2 DCA BENZENE TCE 5.0 5.0 5.0 OS - 5.7 DS - 6.5 DS - 1,.1 OS - 7.91 0.91 0.5 OS DS DS OS OS - 1.6 OS - - 1.3 OS - 0.9 OS - OS - 3.3 OS - 2.6 OS DS DS 1.1 OS - 1.0 OS - 1.0 OS - 1.2 DS 1.1, 7.2 2.3 1.1 DS 0.7 4.2 2.4 0.7 OS 0.6 3.6 2.3 1.0 OS 0.7 4.3 2.1, 0.8 OS 0.7 4.5 2.5 0.9 DS - - OS - 0.9 1.9 DS 0.6 1.1, DS - - DS - 0.7 1.7 DS - 1.9 OS - 2.2 OS - - 2.3 DS 2.2 OS OS . ata - Sat ina PIIS Distribution System (Units in .g/L) Yl TOTAL TIC CHLORO ZEN XYLENE 1 2 aCE DCM FORM BDCM OBCH BRMFORM TOTAL 0.0 10000.0 100/70 - lTHM\ OHM) OHM\ ITHM1 THMs - - - - 17.1 21,.8 26.3 6.9 75.10 - - - - 20.1, 23.6 20.9 5.5 70.1,0 . - - - 21.9 26.6 21,.2 6.9 79.60 . - - - 23.7 30.1 28.1, 8.1 90.30 . - - - . 1.1 6.1 11,.5 21.70 - - - - 2.1 11.8 31,.2 48.10 - - - - 2.0 10.3 22.2 34.50 - - - - 1.7 10.1 27.7 39.50 - - - - Lo 5.0 11,.7 20.70 - - - - 1.7 8.9 25.4 36.00 - - - - 1.6 8.2 21,.3 31,.10 - - . 1.2 5.0 13.0 26.0 1,5.20 - - - - 3.7 15.0 37.0 55.70 - - - - 3.8 11.0 23.0 37.80 - . - - 3.5 12.0 27.0 42.50 0.00 - - - - 2.1 7.9 21.0 31.00 - - - - 1.4 6.4 17.2 25.00 - - - - 1.6 8.1 25.3 35.00 - - - - 1.5 7.7 22.5 31.70 . - - 0.5 1.4 6.5 15.5 23.90 - - - 1.8 4.3 19.0 51.0 76.10 - - - 0.9 2.0 7.3 15.2 25.40 - - 0.8 1.9 9.1, 24.3 36.40 - - - 0.8 2.1 8.4 20.8 32.10 - - - 0.8 2.0 7.3 14.7 21,.80 - - - - - - - 0.00 - - - 32.5 34.4 35.3 5.6 107.80 - - - 35.7 36.2 36.8 5.7 111,.1,0 - - - 37.0 38.6 36.9 5.5 118.00 - - - 32.4 35.1 36.3 5.7 109.50 - - - - 1.6 7.5 19.4 28.50 - - - - 2.0 12.0 26.8 40.80 - - - - 1.9 9.6 22.2 33.70 - - - - 1.7 8.1 18.3 28.10 0.00 - - - - 2.1 7.9 21.0 31.00 0.00 - - - - 2.8 11,.0 28.0 44.80 . ATTACHMENT 2 May 1990 Volatile Organic Chemical Analytical D Salina Public lIater Supply lIells CARBON ETHYl TET BENZE 5.0 700 5 6 . Hay 1985 - Hay lAB lOCATION OATE SAMPLE POINT 1 2 DCA E MCl 5.0 I/ILSON After Filter 03-04-87 OS - KDHE Holldome 03-09-87 OS - KOHE 2501 Harket Place-O 03-09-87 OS - KOHE 1211 Sunrise Drive 03-09-87 OS - KOHE 300 I/est Ash 03-09-87 OS - I/ILSON After Filter 03-18-87 OS - I/llSON After Filter 03-25-87 OS - I/llSON After Filter 04-01-87 OS - KOHE Ramada Inn 05-26-87 OS - KOHE 2501 Harket Place-O 05-26-87 OS - KDHE 1211 Sunrise Drive 05-26-87 os - KOHE 300 I/est Ash 05-26'87 OS - KOHE Airport Terminal 09-10-87 OS - KOHE 2501 Market Place-O 09-10-87 OS KOHE 1211 Sunrise Drive 09-10-87 OS KOHE 300 I/est Ash 09-10-87 OS - I/ILSON Sal ina lab Tap 11-16-87 os KOHE Airport Terminal 11-30-87 os KDHE 2501 Market Place-O 11-30-87 OS - KOHE 1211 Sunrise Drive 11-30-87 OS - KDHE 300 I/est Ash 11-30-87 OS - KDHE Holiday Inn (1616 Crawford) 03-07-88 os KOHE 300 I/est Ash 03-07-88 OS - KOHE 2501 Market Place-O 03-07-88 OS - KDHE Meadowlark Ridge School 03-07-88 OS - KOHE Municipal Golf Course 06-09-88 OS - KDHE Va-Tech School 06-09-88 OS KDHE Salina Public library 06-09-88 OS - KOHE 2501 Market Place-D 06-09-88 OS - KDHE Va-Tech School 09-12-88 OS - KOHE 2501 Market Place-O 09-12-88 OS - KOHE Meadowlark Ridge School 09-12-88 OS - KOHE Sal ina Appl iance Showroom 09-12-88 OS - KOHE 521 E. Gail Street 03-13'89 OS NA KOHE Golf Course 03-13-89 NA KOHE 16161/. Crawford 03-13-89 OS NA KOHE 740 N. 9th 03-13-89 OS NA Page 2 of 3 NA NA NA NA . tribution System CHlORO )CE DCM FORH BOCH OBCH BRHFORH TOTAL ro - CTHH) CTHM) CTHH) CTHH) THHs 0.00 - - 3.0 10.0 44.0 57.00 0.00 - - 1.6 8.3 22.6 32.S0 - - 1.9 9.9 24.4 36.20 - - 1.4 6.9 17.3 2S.60 - 0.5 1.4 6.2 14.9 23.00 - - 2.8 18.0 41.0 61.80 0.00 - - 1.8 11.0 32.0 44.80 0.00 - . 1.7 7.9 24.0 33.60 - 0.5 1.2 7.4 27.7 36.80 - 0.5 1.0 6.2 21.7 29.40 - - 1.3 7.0 15.3 23.60 - - 1.1 5.9 11.1 18.10 - 21.5 27.4 31.5 24.1 104.50 - 34.7 41.5 39.5 6.0 121.70 - 34.6 42.6 41.5 5.6 124.30 - 38.5 43.9 39.5 6.0 127.90 - 11.0 18.0 16.0 - 45.00 - - - - 0.00 - 30.7 30.1 20.9 3.3 8S.00 - 4.5 8.5 15.9 23.6 52.50 - 1.0 3.3 11.8 26.7 42.80 - 0.8 2.9 9.9 21.2 34.80 - 0.6 2.2 8.7 23.6 35.10 - 0.6 2.3 9.5 28.4 40.80 - 0.7 2.3 9.3 25.4 37.70 - 1.0 2.9 12.3 48.0 64.20 0.8 15.2 21.8 23.7 5.0 65.70 0.7 17.3 25.5 28.4 5.8 77.00 0.8 13.0 19.3 22.7 5.7 60.70 1.1 13.9 20.5 23.5 5.4 63.30 - 13.1 27.7 44.7 19.7 10S.20 - 12.3 26.3 40.0 18.0 96.60 - 14.5 28.3 41.0 17.5 101.30 - 13.3 27.9 41.1 18.5 100.80 NA 1.0 4.8 17.3 34.3 57.40 NA 1.3 5.2 19.2 36.6 62.30 NA 0.9 3.2 10.3 26.8 41.20 NA 1.1 4.0 14.6 29.9 49.60 . ATTACHMENT 2 (Continued) 1990 Volatile Organic Chemical Analytical Data - Sal ina PI/S Cis Salina Public Water Supply Wells (Units in ~/l) BENZENE 5.0 CARBON ETHYl HT BENZEN 5.0 700.0 TOTAL XYlENE 10000.0 PCE TOLUENE 7.0* 2000* TCE 5:õ 0.8 1.2 1.2 1.3 1.1 1.5 1.4 3.9 1.5 0.7 0.5 1.5 1.3 1.6 1.5 1.6 1.6 NA 0.6 NA NA NA NA NA NA NA NA NA NA NA NA NA 0.5 NA NA NA NA NA NA NA NA NA NA NA NA TIC !..LQ. 100/7 . lAB lOCATION KDHE Plant Tap ICOHE Gol f Course IIllSON Phillips Trk Center IIIlSON Hunlclpal Airport IIIlSON Green lantern No.9 IIllSON IIi Ison Field Blank ICOHE ICOHE ICOHE ICOHE Hol iday Inn (1616 Crawford) 300 lIest Ash 2601 East Crawford 2128 Roach ICDHE ICDHE ICDHE ICDHE 1112 N. 3rd Street 940 N. 9th 2562 Scanl an 2501 Harket ICDHE ICOHE ICDHE ICOHE Gol f Course 300 II. Ash 2562 Scanlan 2501 Harket ICDHE ICOHE KOHE KOHE 740 N. 9th Municipal Golf Course 2562 Scanlon 2501 Harket ClP Sarrple #41 ABBREVIATIONS: 1,2 DCA TIC 1,2 DCE - HCl . THM ClP - - - DATE HCl 04-01-89 06-12-89 06-12-89 06-12-89 06-12-89 06-13-89 06-13'89 06-13-89 06-13-89 09- 12-89 09-12-89 09-12-89 09-12-89 11-29-89 11-29-89 11-29-89 11-29-89 03-14-90 03-14-90 03-14-90 03-14-90 05-09-90 SAMPLE POINT OS OS OS OS DS OS OS OS OS OS OS OS OS OS OS OS OS PCE BDCM NA DCM Carbon Tet . CHlORO FORM BDCM OBCM BRMFORM TOTAL fTHM\ (THM\ fTHM\ fTHM\ THMs 2.5 8.2 22.1 33.6 NA 14.0 24.0 26.0 5.0 69.00 h.O 25.0 23.0 5.0 71.00 .0 19.0 15.0 4.0 54.00 .0 18.0 15.5 5.0 56.00 .0 - . - 3.00 .9 14.3 3.3 - 82.20 .9 16.9 3.3 - 90.10 .5 21.0 16.5 3.2 64.20 .2 17.5 7.2 0.7 66.60 .0 17.7 9.8 5.1 60.60 .5 22.2 13.5 3.6 73.80 .6 27.0 13.2 1.7 84.50 .2 29.6 21.6 3.1 87.50 .7 3.8 6.9 6.7 19.10 1 2.4 4.4 5.6 13.50 2 3.2 6.2 7.1 17.70 1 3.3 7.4 9.5 21.30 3 30.3 26.3 1.5 66.50 5 30.8 18.9 3.8 70.00 1 22.1 6.3 0.8 47.30 6 27.6 12.1 1.5 60.80 5 14.4 18.4 4.1 44.40 . ATTACHMENT 2 (Continued) May 1990 Volatile Organic Chemical Analytical Data - Sal ina PIIS Distribution System Sal ina Public lIater Supply lIells (Uni ts in ~/L) Hay 1985 - 1.? 5. OS OS OS OS OS * Value shown represents a proposed MCL prior to July 1992. 1,2 Dichloroethane Trans/cis 1,2-Dichloroethylene Maximun Contaminant Level Compound not detected Trihalomethane EPA Contract lab Program - CARBON ETHYl TOTAL TIC DCAIBENZENE PCE TOLUENE TCE TET BENZEN XYlENE 1 2 DCEt OCM 0 1 5.0 7.0* 2000* 5.0 5.0 700.0 10000.0 100/70 - - - - - - - - NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA - - - - - - - - - 3.3 0.6 NA NA 0.9 NA 0.6 NA NA 3.6 0.6 NA NA 1.1 NA 0.7 NA NA 3.3 NA 0.5 NA NA NA 0.5 NA NA 2.9 NA NA NA NA NA 0.6 NA NA NA 0.6 NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA 0.8 NA NA NA NA NA NA NA NA 2.3 NA NA NA NA NA NA NA NA 0.9 NA NA NA NA NA NA NA NA 1.1 NA NA NA NA NA NA NA 1.1 - 1.0 I 1.0 1.3 NA NA NA NA - NA NA NA NA NA NA NA NA NA NA NA NA - - - - - Tetracloroethylene TCE Bromodichloromethane DBCH Not Analyzed ~/lg Dichloromethane Brmform - Carbon Tetrachloride (or Tetrachloromethane) Trichloroethylene 0 i bromoch loromethane Hicrogram per liter Bromoform Sources: KOHE/Bureau of IIater, Public lIater Supply Section, Salina PIIS files. EPA Cont ract laboratory Program Page 3 of 3 tablesa6 (reduce to 93X for letter size paper) C FO. T 64 6 2 4 2 3 4 3 2 1 1 1 . A IT ACHMENT 3 VOC Analytical Data - Salina PWS Distribution System: June 1990 to March 1992 . 8 . ATTACHMENT 3 June 1990. March 1992 Volatile Organic Chemical Analytical Data. Salina PWS Distribution System Samples Salina Public Water Supply Well Site Salina Public Water Supply Wells Site (units In Jg/L) BRMFORM OBCM BOCM CHLORO- CHLORO. TOTAL Location LAB Toulene 1,2-0CA Benzene OCM PCE THM THM THM FRM-THM METHANE THMs MCL 2000 + 5.0 5.0 7.0+ 100 740 N. 9th 6/06/90 KOHE NO NO NO NO NO 4.0 15.4 17.8 12.2 NO 49.4 Muncpl Golf tour 6/06/90 KOHE NO NO NO NO NO 2.7 11.4 15.8 12.0 NO 41.9 2562 Scanlon 6/06/90 KOHE NO NO NO 1.0 NO NO 3.8 9.4 14.9 NO 28.1 2501 Market Pl 6/06/90 KOHE NO NO NO NO NO 3.8 14.8 19.1 13.6 NO 51.3 740 N. 9th 9/04/90 KOHE NO NO NO NO 1.3 2.3 13.8 18.0 15.5 NO 49.6 Muncpl Golf tour 9/04/90 KOHE NO NO NO NO 1.2 2.4 14.0 17.8 15.0 1.1 49.2 2562 Scanlon 9/04/90 KOHE NO NO NO NO 1.3 2.3 14.7 22.2 17.4 0.5 56.6 2501 Market Pl 9/04/90 KOHE NO NO NO NO 1.3 2.4 14.8 18.8 16.0 NO 52.0 740 N. 9th 11/26/90 KOHE NO NO NO NO 1.0 3.9 13.7 15.1 8.5 0.6 41.2 2562 Scanlon 11/26/90 KOHE NO NO NO 0.8 NO 4.0 10.4 11.6 7.7 0.6 33.7 1 Market Pl 11/26/90 KOHE NO NO NO NO 0.8 3.7 12.4 13.9 7.9 0.6 37.9 Aulwood-Smit 11/26/90 KOHE NO NO NO NO 0.9 4.1 13.9 15.4 8.4 0.5 41.8 740 N. 9th 3/04/91 KDHE NO NO NO NO 0.7 5.4 18.3 11.7 5.5 NO 40.9 Muncpl Golf tour 3/04/91 KOHE NO NO 2.8 NO 0.7 4.3 12.5 9.3 4.7 NO 30.8 2562 Scanlon 3/04/91 KOHE NO NO NO NO 0.7 4.9 17.2 13.1 5.9 NO 41.1 2501 Market Pl 3/04/91 KOHE NO NO NO NO 0.8 3.8 10.5 9.3 4.9 NO 28.5 740 N. 9th 6/04/91 KOHE NO NO NO NO NO 3.0 16.3 25.7 24.9 0.7 69.9 Muncpl Golf tour 6/04/91 KOHE NO NO NO NO NO 2.7 13.9 24.4 29.0 0.7 70.0 521 Gail Drive 6/04/91 KOHE NO NO NO NO NO 4.1 18.9 25.2 20.6 NO 68.8 Hol iday 1m 6/04/91 KOHE NO NO NO NO NO 2.6 15.7 27.2 29.2 NO 74.7 Muncpl Golf tour 9/03/91 KDHE NO NO NO NO NO 5.0 21.1 20.1 18.0 NO 64.2 2501 Market Pl 9/03/91 KOHE NO NO NO NO NO 5.5 20.5 20.3 17.3 1.0 63.6 1616 II. Crawford 9/03/91 KOHE NO NO NO NO 0.6 5.7 17.9 16.7 12.8 NO 53.1 224 II. IIi lson 9/03/91 KOHE NO NO NO NO 0.6 5.8 18.0 16.0 12.2 0.5 52.0 8 Page 1 of 2 ATTACHMENT 3 (Continued) . June 1990 - March 1992 Volatile Organic Chemical Analytical Data - Salina PWS Distribution System Samples Salina Public Water Supply Well Site Salina Public Water Supply Wells Site (units in l9/L) BRMFORM DBCM BDCM CHLORO- CHLORO- TOTAL Location Date LAB Toulene 1,2-DCA Benzene DCM PCE THM THM THM FRM-THM METHANE THMs MCL 2000 + 5.0 5.0 7.0+ 100 2562 Scanlon 11/21/91 KDHE NO NO NO ND NO 4.1 14.6 17.2 10.1 NO 46.0 Hol iday 1m 11/21/91 KDHE ND 0.5 ND ND ND 4.0 15.9 17.9 8.6 ND 46.4 2501 Market Pl 11/21/91 KDHE ND ND ND NO NO 3.7 15.7 19.8 11.6 NO 50.8 521 Gai l Drive 11/22/91 KDHE NO NO NO NO NO 3.8 14.6 17.2 9.6 NO 45.2 Muncpl Golf Cour 3/05/92* KOHE NO NO NO NO NO 6.4 15.0 11.0 5.0 NO 37.4 Hol iday 1m 3/05/92 KOHE NO NO NO NO NO 5.7 16.3 12.1 6.2 NO 40.3 2501 Market Pl 3/05/92 KOHE NO NO NO NO NO 5.5 15.7 12.3 6.3 0.5 39.8 300101. Ash 3/05/92 KOHE NO NO NO NO NO 5.6 17.4 13.3 6.9 NO 43.2 ABBREVIATIONS: PCE OBCM iÞ - Tetrachloroethylene - Dibromochloromethane - Dichloromethane - Trihalomethane - Micrograms per Liter ND - Not Detected BRMFORM - Bromoform BDCM - Bromodichloromethane 1,2-DCA 1,2-Dichloroethane MCL - Maximum Contaminant Level CHLOROFRM - Chloroform * 1,4-Dichlorobenzene was detected at a concentration of 1.1 ug/L. + Value shown represents a proposed MCL prior to July 1992. Source: KDHE/Bureau of Water, Public Water Supply Section, Salina PIoIS files. Page 2 of 2 8 . ATTACHMENT 4 VOC Analytical Data - Salina PWS Wells: May 1985 to May 1990 .' . ATTACHMENT 4 . 1985-1990 Volatile Organic Analytical Data, Ground Water Samples Salina Public Water Supply Wells Site (units in ..g/L) Well Depth TIC Ethyl Carbon Location eft)! Date LAB PCE TCE 1,2-0CE Benzene Benzene Toluene 1,1-0CE 1,2-0CA Tet Tot Xyl EOB MCL * 7.0* 5.0 100170 700.0 5.0 2,000* 7.0 5.0 5.0 10,000 0.05 PUS #1 60 8/07/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PUS #1 2/03186 WILSON 6.2 NO NO NO NO NO NO NO NO NA NA PUS #1 2125/87 WILSON 7.0 0.8 NO NO NO NO NO NO NO NO NO PUS #1 3/11/87 WILSON 5.6 NO NO NO NO NO NO NO NO NO NO PUS #1 3/25/87 WILSON 5.3 0.7 NO NO NO NO NO NO NO NO NO PUS #1 11/12/87 WILSON 1.3 NO NO NO NO NO NO NO NO NO NO PUS #1 11/18/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PUS #1 1131189 KOHE NO NO NO NO NO NO NO NO NO NO NO PUS #1 5/8190 EPA CLP 1. OJ NO NO NO NO NO NO NO NO NO NA PUS #2 59 8/07185 KOHE NO NO NO NO NO NO NO NO NO NO NA PUS #2 2/03/86 WILSON NO NO NO NO NO NO NO NO NO NA NA PUS #2 3/04/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PUS #2 3/18/87 WILSON NO NO NO NO NO NO NO NO NO NO NO !J,: 4/01/87 WILSON NO NO NO NO NO NO NO NO NO NO NO 11/17/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PUS #2 11/18/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PUS #2 1131189 KOHE NO NO NO NO NO NO NO NO NO NO NO PUS #2 5/8190 EPA CLP 2.0J 0.6J NO NO NO NO NO NO NO NO NA PUS tI3 70** 8/07/85 KOHE 8.5 NO NO NO NO NO NO 9.4 NO NO NA PUS tI3 ** 8/28/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PUS tI3 10/08/85 KOHE NO NO NO NO 5.6 NO NO NO NO NO NA PUS tI3 2/06/86 WILSON NO NO NO 9.1 180.0 9.9 NO 8.5 NO NA NA PUS tI3 5/07186 WI LSON 1.5 NO NO 1.3 4.0 1.8 NO 7.3 NO NA NA PUS tI3 11/12/87 WILSON 9.4 NO NO NO NO NO NO NO NO NO NO PUS tI3 **HT 4/01/89 KOHE NO NO NO NO NO NO NO 4.7 NO NO NO PUS tI3 8/09/89 CONTNL NA NA NA NA NA NA NA NO NA NA NO PWS tI3 5/8190 EPA CLP 50.0 4.0J 0.8J NO NO NO NO NO NO NO NA P\JS #4 66 8/07/85 KOHE 1.0 NO NO NO NO NO NO NO NO NO NA PUS #4 8/28/85 KOHE 7.1 NO NO NO NO NO NO NO NO NO NA .J98f 5 A TT ACIIMEIIT 4 (Continued) 1985-1990 Volatile Organic Analytical Date, Ground Water Samples Salina Public Water Supply Wells Site (u °t ° /L) nlSIn.G Well Depth T/C Ethyl Carbon Location (ft)! Date LAB PCE TCE 1,2-0CE Benzene Benzene Toluene 1,1-0CE 1,2-0CA Tet Tot Xyl EOB MCL * 7.0* 5.0 100/70 700.0 5.0 2,000* 7.0 5.0 5.0 10,000 0.05 PWS #4 10/08/85 KDHE 31.1 2.6 NO NO NO NO NO NO NO NO NA PWS #4 12/04/86 WILSON 20.0 NO 20.0 NO NO NO NO NO NO NA NA PWS #4 3/04/87 WILSON 12.0 2.7 NO NO NO 0.7 NO NO NO NO NO PWS #4 3/18/87 WILSON 18.0 4.7 NO NO NO NO NO NO NO NO NO PWS #4 4/01/87 WILSON 19.0 4.6 0.8 NO NO NO NO NO NO NO NO PWS #4 6/10/87 KOHE 24.9 2.4 0.6 NO NO NO NO NO NO NO NA PWS #4 11/12/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #4 1/31/89 KOHE 6.3 NO NO NO NO NO NO NO NO NO NO PWS #4 8/09/89 CONTNL 21.0 NA NA NA NA NA NA NA NA NA NO PWS #4 5/8/90 EPA CLP 4.0J NO NO NO NO NO NO NO NO NO NA PWS #5 49 8/07/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS #5 2/06/86 WILSON 74.0 2.8 NO NO NO NO NO NO NO NA NA PWS #5 12/11/86 WILSON 54.0 NO NO NO NO NO NO NO NO NA NA P 11/12/87 WILSON NO NO NO NO NO NO NO NO NO NO NO P 11/18/87 WILSON NO NO NO NO' NO NO NO NO NO NO NO PWS #5 1/31/89 KDHE 25.8 0.7 NO NO NO NO NO NO NO NO NO PWS #5 7/20/89 KOHE NO NO NO NO NO NO NO NO NO NO NO PWS #5 8/09/89 CONTNL NO NO NA NA NA NA NA NA NA NA NO PWS #5 5/8/90 EPA CtP NO NO NO NO NO NO NO NO NO NO NA PWS #6 70 8/07/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS #6 2/06/86 WILSON NO NO NO NO NO NO NO NO NO NA NA PWS #6 2/25/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #6 3/11/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #6 3/25/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #6 11/16/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #6 1/31/89 KOHE NO 1.2 NO NO NO NO NO NO 5.5 NO NO PWS #6 8/09/89 CONTNL NA NO NA NA NA NA NA NA NA NA NO PWS #6 5/8/90 EPA CLP NO NO NO NO NO NO NO NO NO NO NA PWS #7 60 8/07/85 KDHE NO NO NO NO NO NO NO NO NO NO NA PWS #7 2/03/86 WILSON NO NO NO NO NO NO NO NO NO NA NA PW 3/04/87 WILSON NO NO NO NO NO NO NO NO NO NO NO I P 3/18/87 WILSON NO NO NO NO NO NO NO NO NO NO NO page 2 at 5 ATTACHIEIIT4 (Continued) 1985-1990 Volatile Organic Analytical Data, Ground Water Samples Salina Public Water Supply Wells Site (units in I-G/L) Well Depth I Date I T/C Ethyl Carbon Location (ft)l LAB PCE TCE 1,2-0CE Benzene Benzene Toluene 1,1-0CE 1,2-0CA Tet Tot Xyl EOB MCL * 7.0* 5.0 100/70 700.0 5.0 2,000* 7.0 5.0 5.0 10,000 0.05 PWS'7 4/01/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS'7 11/16/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS'7 1/31/89 KDHE NO NO NO NO NO NO NO NO NO NO NO PWS '7 3/11/87 EPA CLP NO NO NO NO NO NO NO NO NO NO NA PWS tIS 60 8/07185 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS tIS 2/03/86 WILSON 2.6 NO NO NO 2.5 NO NO NO NO NA NA PWS tIS 2/25/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS tIS 3/11/87 WILSON 5.6 NO NO NO NO NO NO NO NO NO NO PWS tIS 3/25/87 WILSON 6.7 NO NO NO NO NO NO NO NO NO NO PWS tIS 11/12/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS tIS 1/31/89 KOHE 3.5 NO NO NO NO NO NO NO NO NO NO PWS tIS 8/09189 CONTNL 6.6 NA NA NA NA NA NA NA NA NA NO PWS tIS 5/8/90 EPA CLP 23.0 2.0J NO NO NO NO NO NO NO NO NA PWS tit 0 60 HT 8/07185 KDHE NO NO NO NO NO NO NO NO NO NO NA 8"',0 2/18/86 WILSON NO NO NO NO NO NO NO NO NO NA NA PWS ',0 12/18/86 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS ',0 2/25/87 KDHE NO NO NO NO NO NO NO NO NO NO NA PWS ',0 3/11/87 WI LSON NO NO NO NO NO NO NO NO NO NO NO PWS ',0 3/25/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS ',0 11/16/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS ',0 1/31/89 KDHE NO NO NO NO NO NO NO NO NO NO NO PWS ',0 5/8/90 EPA CLP NO NO NO NO NO NO NO NO NO NO NA PWS ',1 60 8/07185 KDHE NO NO NO NO NO NO NO NO NO NO NA PWS " 1 2/06/86 WILSON NO 5.2 NO NO NO NO NO 1.9 NO NA NA PWS " 1 2/25/87 WILSON NO 4.1 NO NO NO NO NO 2.6 NO NO NO PWS " 1 3/11/87 WILSON NO 4.2 NO NO NO NO NO 2.6 NO NO NO PWS " 1 3/25/87 WILSON NO 4.2 NO NO NO NO NO 2.5 NO NO NO PWS tit 1 6/10/87 KOHE NO 2.9 NO NO NO NO NO 2.0 NO NO NA PWS ," 11/12/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #1 1 1/31/89 KDHE NO NO NO NO NO NO NO 1.9 NO NO NO PWS " 1 5/8/90 EPA CLP NO 1. OJ NO NO NO NO NO 7.0 NO NO NA Page 3 of 5 A" ACIIEIIT 4 (Continued) 1985-1990 Volatile Organic Analytical Date, Ground Water Samples Salina Public Water Supply Wells Site (~its in .g/L) TIC Ethyl Carbon LAB PCE TCE 1,2-0CE Benzene Benzene Toluene 1,1-0CE 1,2-0CA Tet Tot Xyl EOB MCL * 7.0* 5.0 100170 700.0 5.0 2,000* 7.0 5.0 5.0 10,000 0.05 PWS #12 60 8/07/85 KOHE NO NO NO NO NO NO NO 1.8 NO NO NA PWS #12 8/28/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS #12 10/08/85 KOHE NO NO NO NO NO NO NO 3.1 1.1 NO NA PWS #12 2/13/86 WILSON NO NO NO NO NO NO NO 1.1 NO NA NA PWS #12 3/04/87 WI LSON 1.7 NO NO NO NO NO NO NO NO NO NO PWS #12 3/18/87 WILSON 1.4 NO NO NO NO NO NO 1.7 NO NO NO PWS #12 4/01/87 WILSON 1.2 NO 1.9 NO NO NO NO NO NO NO NO PWS #12 6/10/87 KOHE NO 0.7 NO NO NO NO NO 3.3 NO NO NA PWS #12 11/12/87 WILSON NO 2.2 NO NO NO NO NO 1.6 NO NO NO PWS #12 1/31/89 KOHE 1.4 0.9 NO NO NO NO 1.4 2.8 NO NO NO PWS #12 5/8/90 EPA CLP NO NO 2.6J NO NO NO NO NO NO NO NA PWS #13 65 8/07/85 KOHE NO NO NO NO NO NO NO 0.7 NO NO NA PWS #13 8/28/85 KOHE NO NO NO NO NO NO NO NO NO NO NA #13 ** 10/08/85 KOHE 1.5 NO NO 1.2 1.4 1.0 NO 1.0 NO 3.2 NA #13 2/10186 WILSON 8.4 NO NO NO 2.0 NO NO NO NO NA NA PWS #13 2/25/87 WILSON 3.9 NO NO NO NO NO NO 1.0 NO NO NO PWS #13 WILSON 2.9 NO NO NO 2.1 NO NO 1.0 NO NO NO 3/11/87 PWS #13 3/25/87 WILSON 2.7 NO NO NO 2.0 NO NO 1.2 NO NO NO PWS #13 6/10/87 KOHE NO NO NO NO NO NO NO 0.8 NO NO NA PWS #13 11/12/87 WILSON NO NO NO NO NO NO NO 1.9 NO NO NO PWS #13 4/14/89 KOHE NO NO NO NO NO NO NO 1.0 NO NO NO PWS #13 70 5/8/90 EPA CLP NO NO NO NO NO NO NO NO NO NO NA PWS #14 60 8/07/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS #14 2/10/86 WILSON NO NO NO NO NO NO NO NO NO NA NA PWS #14 3/04/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #14 3/18/87 WILSON NO NO NO NO NO NO NO NO NO NO NO PWS #14 4/01/87 WILSON NO NO NO NO NO NO NO NO NO NO NO pWS #14 11/16/87 WI LSON NO NO NO NO NO NO NO NO NO NO NO PWS #14 1/31189 KDHE NO NO NO NO NO NO NO NO NO NO NO PWS #14 5/8190 EPA CLP NO NO NO NO NO NO NO NO NO NO NA -aeOf 5 AnACIIEIT 4 (Continued) 1985-1990 Volatile Organic Analytical Data, Ground Water Samples Salina Public Water Supply Wells Site (~i ts in .C/L) Well Depth T/C Ethyl Carbon Location (ft)! Date LAB PCE TCE 1,2-DCE Benzene Benzene Toluene 1,1-0CE 1,2-0CA Tet Tot Xyl EDB MCL * 7.0* 5.0 100170 700.0 5.0 2,000* 7.0 5.0 5.0 10,000 0.05 PWS '15 80 8/07185 KDHE 1.5 NO NO NO NO NO NO NO NO NO NA PWS '15 ** 8/28/85 KOHE NO NO NO NO NO NO NO NO NO 1.9 NA PWS '15 10/08/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS '15 1/13/87 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS '15 3/04/87 WILSON NO 1.5 NO NO NO NO NO 2.0 NO NO NO PWS '15 3/18/87 WILSON NO 1.6 NO NO NO NO NO 2.0 NO NO NO PWS '15 4/01/87 WILSON NO NO NO NO NO NO NO 2.3 NO NO NO PWS '15 6/10/87 KOHE NO 1.0 NO NO NO NO NO 1.7 NO NO NA PWS '15 11/16/87 WI LSON NO NO NO NO NO NO NO NO NO NO NO PWS '15 1/31189 KOHE NO 0.6 NO NO NO NO NO 0.7 NO NO NO PWS '15 5/8190 EPA CLP NO 6.0 0.9J NO NO NO NO NO NO NO NA PWS '16 70 8/07/85 KOHE NO NO NO NO NO NO NO NO NO NO NA PWS '16 2/03186 WILSON NO NO NO NO NO NO NO NO NO NA NA .16 11116/87 WILSON NO NO NO NO NO NO NO NO NO NO NO '16 1/31189 KOHE NO NO NO NO NO NO NO NO NO NO NO REED 47 5/08/90 EPA CLP 4.0J 2.0J NO NO NO NO NO NO NO NO NA BETTS 55 5/08/90 EPA CLP 0.8J NO NO NO NO NO NO NO NO NO NA LILLY 60 5/08/90 EPA CLP NO NO NO NO NO NO NO NO NO NO NA 1PRES 40 5/08/90 EPA CLP NO NO NO NO NO 0.8J NO NO NO NO NA Sources: Analytical data from: Kansas Health & Environmental Laboratory, 1985 - 1989. U.S. EPA, Contract Laboratory Program, 1990. Continental Analytical Services, Inc., 1989. Wilson Laboratories, 1986 and 1987. Note: Only selected organics are reported. ABBREVIATIONS: NO J.{/L PCE TIC 1,2-0CE 1,2-0CA MCL EDB HT ! . - Not Detected NA - Not Analyzed - Micrograms per Liter LAB - Testing Laboratory - Tetrachloroethylene TCE - Trichloroethylene - Translcis 1,2-0ichloroethylene 1,1-0CE - 1,1-0ichloroethylene - 1,2-0ichloroethane Tot Xyl - Total Xylenes - Maximum Contaminant Level Carbon Tet - Carbon Tetrachloride (or Tetrachloromethane> - Ethylene Oibromide 1PRES - First Presbyterian Church - Holding time for VOCs (14 days) was exceeded before analysis could be completed. - Sample depth (or pump setting). For total and top of screen depths, see Attachment 10. - Value shown represents a proposed MCL prior to July 1992. - Other petroleum hydrocarbons were indicated. - Compound was quantitatively identified; however, compound failed to meet all QA criteria and, therefore is only an estimated value. * ** page 5 of 5