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Water Plant Permit App State of Kansas DEPARTMENT OF HEALTH AND ENVIRONMENT Division of Environment TOPEKA, KANSAS 66620 Public Water Supply PERMIT APPLICATION 20 September ,1988 To the Secretary, Department of Health and Environment, Topeka, Kansas: In conformance with the provisions of Kansas Statutes Annotated 65-163 City of Salina, Kansas Name of Municipality, Institution, District. Company. Corporation or Person hereby makes application to the Department of Health and Environment for a permit, or additional permit due to proposed change in source, storage, or treatment, to supply water for domestic purposes to the public within the State of Kansas, in accordance with the information herein contained and with the accompanying maps, plans and specifications, which are made a part of this application. 000000 The follOwing questions are designed to meet the requirements of widely varying conditions. Answers are desired to all applicable questions. GENERAL 1. Type of facilities to be constructed: 2. Give population to be served 42,000 (Present) 60,500 (Year 2020) SOURCE Of SUPPLY-SURfACE-WATER SUPPLY (See Note 1) 3. In case the proposed supply is to be taken from a river or creek, furnish the following information: ( a) Name of stream (b) Drainage area above intake, in square miles ( c) Approximate minimum flow of stream (d) Location of intake with reference to potential sources of pollution (e) Furnish map of gencral layout, togcther with plans of intake, suction line, dam, intake wel!, and all other devices to be used in taking watcr from the river, and specifications for their construction. (f) Remarks Note 1: There is no change River Channel near near the Old Smoky -1- in the supply streami however, the intake was relocated from the Old Smoky Hill the Water Treatment Plant to a location on the Active Smoky Hill River Channel Hill River Channel bypass point. 4. In case the supply is to be taken from an impounding reservoir, furnish infornlatioll as follows: (a) Area of water surface when reservoir is full, in acres ------- (b) Maximum and average depth of water in reservoir, when full: Maximum ; A vcrage ( c) Approximate holding capacity of reservoir when full, in gallons (d) Name of creek tributary to reservoir, and its drainage area in acres or square miles (c) Average yearly rainfall over drainage area (f) Nature of drainage area: smooth or rough ; sand or clay percent of tilled land percent of grass bnd percent of timbered land (g) \Vhat measures will be taken to protect the drainage and reservoir from contamination? (11) \Vhat measures are proposed for protecting the supply from excessive plant and algae growths in shallow water? - (i) Furnish (1) a map of the drainage area, showing the location of all public roads and railroads; all residences, animal feed- lots, and picnic or camping grounds v.-ithin the limits of the area; (2) a large-scale contour map of the reservoir area; (3) plans of the dam, spillway, blow-olf or drain, and intake arrangement, together with specifications for their construction. SOURCE OF SUPPLY-GROUND-WATER SUPPLY (NO CHANGE) 5. In case the proposed supply is to be taken from wells, furnish infomlation as follows: (a) Number of wells available at present (b) Number of wells to be constructed ( c) Location of well ( s) to be constructed (* ~ section, twp., R) ( d) Diameter and depth of each new well ( e) Log of the well or test holes (f) Description of the aquifer from which the supply of water is to be obtained (g) State type of well casing and its diameter, length, thickness and weight per foot -2- (h) State means employed to facilitate the entrance of water into the well from the aquifer. If a well screen is to be used, give length, type of material and size of openings (i) Give detailed results of any preliminary tests that have been made to determine the yield of the proposed wells, or any data that might be used in estimating such yields (i) Fumish large-scale map showing general layout of wells, together with plans and specifications for the construction of wells, well house, pumping equipment and appurtenances. 6. In case the proposed supply is to be derived from springs, fumish infonnation as follows: ( a) Character and thickness of aquifer from which springs apparently flow (b) Results of any measurements or tests that have been made to determine the yield of the proposed springs, or any data that might be used in estimating such yield ( c) Furnish large-scale map showing general layout of springs, and plans and specifications for the construction of whatever collecting chambers, tunnels, weirs and conduits are to be used to collect or store the water from the springs and convey it to the point of use. 7. In case the supply is to be collected from an underground source by means of infiltration galleries, collecting pipes or tunnels, or similar devices, furnish the follOwing information: ( a) Descriptiion and depth of aquifer from which supply is collected ( b) Character and thickness of each stratum of material encountered, from the surface of the ground down to the aquifer from which the water is to be obtained (c) Give results of any tests that have been made to determine the probable yield of water from the proposed construction, or any data that might be used in estimating such yield (d) Fumish large-scale map showing general layout of collecting system, together with plans and specifications for the con- struction of collecting pipes, tunnels, or galleries, and of whatever weirs, conduits and other devices may be employed. -3- 8. A:re there any cesspools, septic tanks, sanitary sewers, feedlots, underground storage tanh for petroleum products or chemicals, or other sources of pollution within 600 feet of site of proposed supply? If so, specify each, or show location on a map 9. Are there any salt or oil wells in the vicinity that would be likely to injure the supply? 10. Is there to be an auxiliary supply for emergency use, as in ca,e of large fires? If so, describe source of such supply, the connection of the same with the pumping plant, and the conditions under which it is to be used: PURIFICATION (See Note 2) 11. State briefly the treatment processes to be used 12. State basis of design of treatment works as to capacity 13. In case of aeration, give type and location of aerator _ 14. In case of preliminary sedimentation, give type, capacity, theoretical detention, overflow rate and weir loading of basin: (sinqle flash mix basin, flocculation basin, over/under baffle ammonia feed and clarification; 7000 qpm; flash mix/flocculation -25 min. clarification -3.25 hrs.; 15 ~ 000 qpd/ft.) 15. In case of sedimentation with coagulation, furnish information as follows: (a) Chemicals used (b) Points of application of chemicals, and facilities for feeding, mixing and flocculating: (c) Capacity, theoretical detention, overflow rate and weir loading of basin: ( d) Type of sludge disposal Note 2: This is pre sedimentation for river water only and the effluent is mixed with well water and then goes through upflow basins for softening and then to final treatment. -4- 16. In case of filtration furnish information as to the following: (a) General type of filter (b) Number and dimensions of filter units (c) Type and source of filter media ( d) Depth of filter media (e) Type of underdrain ( f) Quantity and source of wash water ( g) Filter equipment (gauges, controllers, etc.) ( h) Type and capacity of clearwell 17. Chlorination is required. Give information on chlorination equipment: (a) Make, model and capacity of equipment ( b) Place of application 18. What laboratory facilities and equipment are to be provided? ( a ) Make and range of chlorine residual test kit ( b) Other 19. Are daily operation records to be maintained? Specify items to be recorded 20. Furnish generall2lans of the purification plant, showing relative locations and elevations of settling basins, filters, chemical feeds, clearwe1l, flood protection arrangements, and other general features of the plant, indicating all piJ2C connections. Also, furnish detailed drawings in all cases in which these are essential to the proper understanding of the plant. PUMPING AND DISTRIBUTION 21. Low service pumps: (a) Type and capacity of each in gallons per minute 3-Vertical Turbine Pwnps with Variable Frequency Drives; 3,000 qprn 7,000 qprn (b) Suction lift in feet: ordinary (c) Discharge head in feet One Pwnp Operation .Two Pwnp Operation maximum 3,000 qprn at 37 ft.; 5,000 qprn at 46 ft. 3,500 gprn each at 66 ft. -5- 22. High service pumps: (a) Type and capacity in gallons per minute ( b) Suction lift in feet: ordinary (c) Discharge head in feet maximum Z3. In regard to the pipe system for distributing the supply, furnish infonnation as follows: (a) Total length of each size of pipe in entire system: I-inch ft 4-incJ, ft lO-incb ft ft 2-incJ, ft 6-incJ, ft 12-incb ft 3-inch ft 8-inch ft ft Tot'" ft (b) Type of pipe to be used (c) Is any portion of the pipe system to be carried over a stream on a bridge, or otherwise to be exposed? If so, give methods to be used to prevent freezing (d) Number of fire hydrants (e) Number of flushing hydrants 24. In case an elevated tank or a standpipe is to be used, give the following information: ( a) Diameter and height, in feet (b) Capacity, in gallons (c) Height of top of tank or standpipe above foundation (d) Height of top of tank or standpipe above area of major use (e) How is tank or standpipe to be covered? (f) High water level with respect to existing tanks ( g) Capacities of existing tanks 25. If a pressure tank is to be used, give size, and pressure range 26. In case a ground level or below ground level reservoir is to be used, give information as follows: ( a) Shape, dimensions, and capacity when full (b) Height of water level, when reservoir is full, above area of major use (c) Is a provision to be made to cut out the service reservoir in case of fire, and operate under direct pump pressure?_ 27. Furnish plans showing all details of the facility for which this application is made such as, source of supply, transmission main, distribution system, and water storage tanks. Also furnish specifications for all equipment included in the project and for all installation procedures where applicable. -6- 28. Give name of person or fiml responsible for engineering Wilson & Comp~~gineers & Architects, Salina, Kansas 29. How and by whom is the work of construction to be supervised? Wilson & Company, Engineers & Architects, Salina, Kansas 30. Give name of well driller: AUTHORITY 31. Name and address of proper official to be contacted: ~dney S. Soderberg I Mayor, City County Building, 300 W. Ash, Salina, Kansas 67401 Signature of proper official #t-~ . ~ ~ Stale of Kansas, County of <~__ /;~ e/ , SSe / It) 1!t- day of SWORN TO AND SUBSCRIBED before me, a notary public in and for said county and state, this 5,/?71- -(''-fA j.,.,V' , 19~ r:' (SEAR~BERT K. BILES ~ S~~~~~/':~~~ MY APPT. EXPIRES 9: b ~/ y commission expire~ ~~.<(~~~ . Notary PublIC .- . ' -7- MI-1750 State of Kansas Joan Finney, Governor Robert C. Harder, Secretary Reply to: DATE: APRIL 15, 1993 STATEMENT FOR WASTEWATER PERMIT MAY 1993 THROUGH MAY 1994 SALINA, CITY OF C/O CITY CLERK 300 WEST ASH SALINA, KANSAS 67401 WASTEWATER PERMIT NO. M-SH33-I001 FEE: $1480.00 DUE DATE FOR ANNUAL FEE: OS/26/93 PLEASE MAKE CHECK PAYABLE TO: DIVISION OF ENVIRONMENT THE BOTTOM HALF OF THIS STATEMENT MUST BE RETURNED WITH THE REMITTANCE TO INSURE PROPER CREDIT. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - DETACH AT LINE AND RETURN TO: KDHE - BUREAU OF WATER TECHNICAL SERVICES SECTION BLDG. 740-FORBES FIELD TOPEKA, KANSAS 66620 ATTN: BETHEL SPOTTS STATEMENT FOR WASTEWATER PERMIT MAY 1993 THROUGH MAY 1994 SALINA, CITY OF C/O CITY CLERK 300 WEST ASH SALINA, KANSAS 67401 WASTEWATER PERMIT NO. M-SH33-I001 FEE: $1480.00 PAYMENT OF ANNUAL WASTEWATER PERMIT FEES THROUGH MAY 1994. Forbes Field . Building 740 . Topeka, Kansas 66620-0001 . (913) 296-1500 Printed on Recycled Pap",