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Water Rate Study 1950 ""' REPORT ON WA'l'ER HATES FOR THE CITY OF. SALINA, KAN~AS - Lloyd W, Price - Mew or 1. F, Stephenson - Commissioner Carl Ramsey - Commissioner A. L. Webb - Commissioner R. W. King - Commissioner E. J. Allison . City Manager & Water Superintendent Chas. E. Banker - City Clerk Harold Peterson - Deputy City Clerk C. L, Clark - City Attorney Harold F. Harpor - City Engineer "';~;~~'H~*-}~ .. ,. MARCH 1950 (149-45 ) WIlSON & COMPANY - ENGINEERS ~ Salina, Kansas REPORT ON WATER RATES FOR THE CITY OF SAUNA, KANSAS OUTLINE OF CONTENTS Page SECTION 1 - GENERAL INFORMATION Purpose of Report. . . . . . . . . . . . . . . . . . .. 1 Reason for Revised Water Rates . . . . . . . . . . . .. 1 Trend in Population and Water Usage. . . . . . . .. 4 Water Lost in Distribution System and "Free" Water . .. 5 Pipe Line leakage . . . . . . . . . . . . .. 5 Low Flows Are Not Registered. . . . . . . . . . .. 5 Faulty Meter Registration . . . . . . . . . . . .. 6 Free Vfater . . . . . . . . . . . . . . . . . . .. 6 Quantity of Water to be Used in Establishing Water Rates. 7 SECTION 2 - BASIS FOR THE Wi. TER Ri. TE SCHEDUIE Gene ral . . .. ... . . . . . . . . . . . A.W.W.A. Recommendations on Rates. . . . . . . . . . . . 8 8 - SECTION 3 - P.MOUNT OF REVENUE REQUIRED General. . . . . . .. .. . . . . . .. . . . . . . . . . 10 Determining Financial Requirements . . . . . . . 10 Operation and lmintenance Expense. . . . . . . . . . . . 10 Depreciation (Replacements & Extensions) . . . . . 11 Expenditures for New Construction. . . . . . . . . . 13 Bond and Interest Payments . . . . . . . . . . . . . .. 14 Fire Hydrants. . . . . . . . . . .. . . . . . . 15 Classification of Expenditures . . . . . . . . . 16 Commercial. . . . . . . . . . . . . .. 16 Meter and Service Lines . . . . . . . . . . . 16 Production and Transmission Expenses~ . . . . . . . 16 Distribution Elpense for Conmercial or Intermediate 16 Distribution Expense for Domestic Customers . . 17 Fire Hydrants arid Connections . . . . . . . . . .. 17 Tabulation of E~nditures. . . . . . . . . . .. . . . . . 17 Customers . .. . . .- .- . . . . . . . .. . . . - SECTION 4 ... FIRE PROTECTION eJe.neral. . . . . . . . . . . . . . . .- . . . . . . . .. 18 Separate Charge for Fire Protection. . . . . . . . . .. 19 Method of Determining Value of It'ire Protection . . . .. 19 l~thod of Collecting for Fire Protection . . . . . . .. 21 Fire Protection Charge in Other Cities . . . . . 22 , -.l1.... OUTLINE OF REPORT (CONT'D) . SECTION 5 - RATE STRUCTURE General. . . . . . . . . . . . . Minimum Meter and Service Charge . . . . . . . . Commodity Unit Rates . . . . . . . . Vfuo1esale Unit Rate . . . . . . Intermediate Unit Rate. . . . . . . . . Domestic Unit Rate. . . . . . . Rate Steps . . . . . . . . Domestic Rate .. . . . . . . Intermediate Rate . . . . . . . . . . Vfuolesale Rate. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..... "" SECTION 6 - RATE SCHEDULE COMPUTATIONS General. . . .. . . . . . . . . . . . . . . . . .. 24 TableH 1. - Data. Required in Computations . . . . . . .. 24 Distribution of ~enditure5. . . . . . . . . . .. 24 Total Amount of Sales and Pump age . . . . . . . . . 24 Table 2. - Water Sales by Meters and Classification. .. 25 Table 3. - Computa+.i on of Meter and Service (;harge . .. 25 Table 4. - MinimUft Charge per Month.. . . . . .. 26 Table S. - Gomputation of Commodity Charge . . . . . 27 Wholesale Rate.. ..... . . . . . . 27 Intermediate Rate . . . . . . . . . . . . . . . .. 27 Domestic Rate . . . . . . . . . . . . . . . . . . . 27 Table 6. - Comparing Formula Rates with Present Salina Rates. . . . . . . . . . . . . . . . . . . .. 28 Amount of Revenue from Established Rates. . . . .. 29 - SECTION 7 - CONCLUSIONS AND RECOMMENDhTIONS Conclusions. . . . . . . . . . . . . . . . . . . . . 30 Recommendations. . . . . . . . . . . . . . . . . . . .. 31 SUPPIElvlENTkRY INFOIil.L'.'I'ION - General. . . . . . . . . . . . Factors Affecting Water Rates. . . . . . . . . . . . . . Curves for Compal~ison of Water Rates . . . Cities Used for Comparison ..... . . . . . Table A. Comparison of Water Hates - First Class Cities Larger than Salina . . . . . . . . Table B. Comparison of Water Rates - First Class Cities Smaller than Salina. . . . . . . . Table C. Comparison of Water Rates - First Class Cities with Population Over 10,,000 . . . . - ANALYSIS OF RJ', TE COHPARISONS. . . . . . . -B- ........ . . ~ . . 22 22 22 22 23 23 23 23 23 23 . . . . . . . . 32 32 33 33 34 34 35 36 . . - REPORT ON WATER RATES FOR THE CITY OF SALINA, KANSAS SECTION 1 GENERAL INFORMATION - PURPOSE OF REPORT. This report has been prepared for the purpose of making a study of water rates for the City of Salina. The tentative new rate established in July 1949 has been analyzed in this report to determine whether the resulting revenue viil1 be adequate and whether the charges have been fairly distributed among the various classes of customers, Where revisions in the existing water rates are found necessar,y, recommendations are made regarding a revised rate schedule. REASON FOR REVISED WATER RATES. There were four principal reasons why it was necessary to raise the water rates in Scil. ina last year: 1. The water rates in Salina have been gradually decreased, by successive steps in 1932, 1936, 1939, and 1944, until the rates after 1944 were approximately one-half the amount charged from th3 time the waterworks system was purchased in 1925 until 1932. A portion of this reduction was justified by the fact that the original waterworks bonds were being paid off, and because the plant was being operated more efficiently. However, these savings resulting from lower bond and interest payments and better plant efficiency were largely offset by increases in wage rates and material costs and the necessity of making extensions and improvements. "'- '- - -1- As a result of the lower rates, the expenditures in 1947 and 1948 for - maintenance, operation and new construction exceeded the revm ue collected ) by a total of $26,366, and it was necessary to draw on the reserve fund - to make up the deficiency. This made it evident that rate reductions had been too drastic in the past, and that SODle upward revisions were necessary. The following is a tabulation of water rates in use in Salina since 1925: Salina W"ater Rates in Cents per 100 Cubic Feet 1925-32 1932-36 1936-39 1939-44 1944-49 Present Quantity Rate Rate Rate Rate Rate Rate First 3000 Cu. Ft. 22-1/2~ 20f 17-1/2~ 15~ ll-1/4~ 16.B~ Next 6000 Cu. Ft. 18~ 15~ 15~ l2~ 9~ 13.5~ Next 6000 Cu. Ft. 12~ 10~ 10~ 9~ 6-3/4~ 10.6~ Over 15,000 eu.Ft. 10~ & 5 ~ 5~ 5~ 5t 3- 3/4~ 5.6~ 2. A second reason for the ne cessi ty of increasing the water rates was the steady rise in the cost of material, labor and equipment. The . water works dollar, like the grocery store dollar, does not buy nearly as much cast iron pipe, pumps, and chlorine as it did a few years ago. For this reason, practically all the cities in the United States have found it necessary to increase their water rates since the recent war, unless they already had excessively high rates before the recent increase in costs. 3.. A third necessity for higher rates is too large amounts of im- provements that must be made to the water distribution system. During the years prior the recent war, there was a relatively small amount of large mains installed, and during the war practically no material was available ~ for new construction. However, during the 25 years between 1925 and 1950 - the population of Salina increased 50%, and the usage of water increased 400%. The storage and pumping facilities were improved during those years, and small mains were provided for new areas, but the greatly increased -2- . rate of pumpage had to be forced through undersized mains. Klse, the iron, manganese and hardness of the Salina water has been constantly coating the interior of the mains and this further reduced their carrying capacities. As a result, in several areas of the City, it has become impossible to de- liver water with the pressure required to provide satisfactory domestic service and to insure adequate fire protection. A report now being pre- pared describes the deficiencies in the distribution system, and outlines a construction program to provide thE;; necessary improvements.. In an attempt to reduce the deficioncies in the water works system, extensive improvements have been made during the past three years_, amounting to an average of ~68, 300 worth of new co ns truction pe r year. Addi tional amounts of improvements and enJargements will be necessary for several years in the future, before the program is completed. This will be discussed Jater in this report and the amount of additional revenue required for new construction will be determinedo 4. The fourth reas on for increasing the water ratesis to provide funds for constructing and operating the proposed water softening plant. After tIre softening plant is in operation, the actual saving due to the use of soft water will exceed the construction and operation cost of the plant, but this does not preclude the necessity for higher rates in order to transfer these savings back into the waterworks fund. The amount of revenue required to offset the increased costs mentioned above,.will be discussed in detail later in this report. ,.. '- - -)- . TREND IN POPUIA'l'ION AND WATER USAGE. When establishing water rates, it is necessary to anticipate the probable future demand for water. If the amount of water used is constantly increasing, then the rates can be rather close to the actual production costs, as the overall unit cost is redu0ed slightly with increased output. This results from the fact that the overhead and fixed costs remain rath8r ccnstant at all rates of pumpage, and only t,h<:; pumping and treatmEmt costs vary almost directly wi th output~ The pupulation of Salina has been increasing at a relatively uniform rate for the past 50 yearss and thero is every indication that a similar rate of increase will continue in the futureo The Curve (Plate I) on the Eollowing page shows that tho population has increased at a rate of about 4,000 persons ever 10 years since 1900, which will make the estimated population about 30,000 in 1960. The rate of water usage has been increasing even faster than the population, because the average amount of water pumped per capita per day has increased from 63 ga:lons in 1926 to about 160 gallons in 1949. This increased use of water per capita per day is caused principally by airconditioning, more sanitary facilities, automatic dish washers and garbage disposal units, and better kept lawns. The total amount of water pumped por year increased from 411 million gallons in 1926 to 1,560 million gallons in 1949. This information is shown graphically on Plate II. It is assumed that a similar rate of increase in water usage will continue in the future, and this should provide assurance that a proper rate schedule established now should be adequate for the future, and it mightbe possible to reduce the rate slightly within 10 yearso ;a. -4- ~ E' i~-I ~,-, 1 . T 1 -~ ~ I t + ~ I - j . _ u ~ .j I _ ~. L ~--1 I 1 j ~. (\l ~-. . ~ :r: ::; o ~ ~. i ~ - ~ ... -2 I . I. - . i~~~~-'-~--i--' . i I' .' I' 1 ! '1 ~ ..... "1 . . I " tt~~"~o~e~JJQP' pe' d~! i: ,1<C'200il' ',: .--H---i :." I - "-,':' , :':j;. g" i j ,.,~~-~'l I " '--4 .-0::1 . <t I ;~w I I ,[, .", . -, , '- --:, }... " . "J ! ",<(. 't'75- I., , r------l ~----.t -l~1 I 1 ~ 'I I .:! <I) . ~ I : 1-->- i; ,r, ~o j', I , ' I '..J! , ,,' r ! ' , ' I a:: I 5'0' -2'500' '..J : r-.-'------f<r ~ -~ ..J I !.' I ~ .' i.... I. . Ii ~~~~;I.)y,h~1 I ',I o~, '.! '" "'I " y ~I ' 't 25 I' _.' ' , ~- ," /' I 2'000 -' r--.~_-lO::-_..-.---+-'-.---I--- .. ---;-- /-' ".,_ -1'1 ! " I ~ I, ix' · - J' /// ~ ./1 I i I I . Z : i ~, I!' /' 'I _ I a.. IO~-L~~_~ i , 13. 1 I , , /:r8%lr~i~e~i:q{;ita9~\ "~ ' , i a: ! . j '/ '. \.w11llmake 1,560 m yr. , j ':::; . I ' !& "I ", 1/ Q , i L---,-,:__-f~~,'75~ ' *Oi)'Of~ : ' , ! i' /. ~ ~ ' t " 'I I i ~. i · ,/:.4 .1 .. .! ~ i f-'~'-'----'--t!~ 5~-i---.-,..._-~t---!'--- '~+~ ---~I.~?~--~j I ' f _/ !' "'1'" " I I 0 I '<r~ 6 j "0 '" i ~ i ~ i ~I ' ~ ",. ~I' ~ I : - f -I - -;, ~ I ____~~ _~ J_._~~EA~_~~__+____~__!-c-I II i I . '. I . I 'I.... i . 11 . I ~---~r~--;~-- .' T~---L--~ SA~NA.--KAjirSAS:-~l I' , 1 ,.1 ' '1 . j RATES F,W.ATER PUMPAGE ! ' I II . .' · I .' I . . f;-,. ,- :WI so~: &, ~OM~ANY : ' . l I,' 'I ' . . .H, . "t r 't .! -E'NGtNE.E'R t' , . . i '____ ',_~~l~cc~~~~!'_fo~~~~d.!=d'=.~l~f fQ5 ;: ;;~ : ~." "T~.:~_~ ____~~ PLATE D ~ " M , , <II M '1 ~~ ,"J .,., o .~ : ~ ~ ~ . '" " .r, w . C . - WATER LOST IN DISTRIBUTION SYSTEM AND "FREE" WATER. A very important item which must bo given consideration when establishing water rates is the unaccounted for and "free" water. More than 38% of all water pumped into the City mains in recent years has been lost in the distribution system or given to City departments without charge. Since this water is never registered on the custaners' meters, it is obvious that the cost of pumping, purifying and distributing the non-revenue water must be in- cluded in a higher unit charge for metered water. Non-revenue water is a necessary factor in the operation of a utility, but the amount of unaccounted for water can usually be kept below 25%, and the Salina Water Department is making an attempt at the present time to reduce the loss as much as possible. The following are the principal reasons for non-revenue water: 1. Pipe Line Leaka~. Water is lost from the distribution system through leaky pipe joints, poor house service connections, cracks in cast iron pipe, and leaking valves and hydrants~ It is difficult to find these leaks, end it may be nec0ssary to make a pitometer survey of the distribution system to locate those sections of the system tr3t have the largest losses. 2. Low Flm~ Are Not Registeredo Leaky plumbing fixtures will per- mit a continual loss of water, but the flow is so slow that it .vill seep through the meter wi thout registering. Although the loss in individual fixtur~s is small, when taken collectively over the entire city for a year it amounts to millions of gallons. An educational campaign to encourage home owners to stop plumbing leaks is sometimes beneficial, and spot check- ing homes for leaks will help to determine the amount of loss from this ,. - source .. -$- 3. Faulty Meter Registration. When a water meter is new it is a very .' accurate instrument,. but as it becomes older it begins to run slow. This is especially true in Sal ina where the water is hard and contains iron and . manganese, as these minerals form a coating on the interior of the meter which retards its movement and rewlts in a low reading. The Water Depart- ment has begun a program of reconditioning all water meters and restoring them to near their original accuracy. Ylben this reconditioning work has been completed, the amount of unaccounted for water will undoubtedJy be greatly reduced. 4. Free Water. Large quantities of water are given to other City Departments each year, free of charge. During 1949 the amount of free water has been estimated at 4-1/2% of all water pumped, and was distribuwd about .. as follows: . Flushing Sewers and Flush Tanks ............. 1,476,000 gallons Washing Streets and Fighting Fires........... 4,550,000 gallons Hydrant Flushing.............................. 6,390,000 gallons Water used in City Parks.....................50,lOO,000 gallons TOTAL FREE WA TER PER YEAR 68,516,000 gallons Most water works authorities contend that the Water Works Depart- ment should be opereted on a strictly business basis, and all water used by both private customers and the municipality should be paid for. However,. in that case, the General Fund of the City should be refunded by the Water .. Department for office rent, administrative and attorney costs, and possibly . some city taxes, and this would partially offset the charge for water. Also, it must be realized that the domestic customf:rs, who use over 7CY/o of the water in Salina, are the same general group who get the most benefits from the parks and sewers. Therefore, no real injustice is done, and book- -6- . keeping is simplified, if the cost of the free water given to the City is added to the customers' water bills. If a fen -thousand dollars additional revenue per year is needed in the Water Department at some future date, a charge could then be made against the other City departments for free water. QUANTITY OF WATER TO BE USED IN ESTABLISHING WATER RATES. When computing the rate base, later in this report, it will be assumed that the free water will amount to 5%, and the amount of unaccounted for water can be reduced to 25%, making the revenue producing water amount to 7CJ!, of the total pumpage. Since the curve on Plate II indicates that the total pumpage in 1952 would be about 1,700 million gallons, with th:i present 38% loss, we will assume too t the pumpage will be only 1560 million gallons after the loss has been reduced to 30$. The estimated amount of water which will be sold in 1952 will be 70% of 1560 million gallons, or about 1,093 million gallons (145.7 million cubic feet). These figures will be used in later computations. .. . -7- SECTION 2 BASIS FOR THE WATER RATE SCHEDUIE ; GENERAL. Thero are two principal factors to be detennined when establishing a rate base: first,. the total amount of revenue required must be computed, and second, a method of distributing these costs equitably over all users and property owners in the city must be devised. The amount of revenue a waterworks should receive is the sum of the costs of maintenance and operation, plus the estimated cost of improvements and extensions,. plus any depreciation allowance which may be included. Having determined the gross total of income needed, the next IT oblem is to allocate this amount fairly to property assessments and to water rates. . This division is necessary because a waterworks performs two principal fund- tions: (1) it provides fire protection, which is chargeable to the taxpayers as a whole, and (2) it supplies a commodity which should be paid for by the customers who use the water. The nonusers should pay for the portion of the waterworks costs which are incurred in providing fire protection, and the remainder of the incoIm required should be assigned to the waoor customers on a basis that is fair to both the large and small users. A.W.W.A.. RECOMMENDJiTIONS ON RATES. For many years the :s ading engineers of this country have given a great deal of study to water rates and have ex- pressed numerous theories on the subject. The American Water Works Asso- ciation has attempted to analyze and evaluate the various theories advanced and to develop a workable pattern or fonnula by which all waterworks per- sonnel could be guided in the preparation of water rate schedules. . The first really constructive work on this subject was done by A.W~W.A. in 1923, and the recommendations made by them at that time have since then been used extensively, but there were many pertinent questions in rate making which were not settled at that time. Twenty-five years later, in -8- 1948, the Michigan Section of A.W.W.A. again undertook the study of water rates in an attempt to clear up the questions not settled in 1923, and to analyze the results of the previous recommendations. Since these two - studies and reports are by far the most thorough and logical of any theories advanced, we propose to use the 1l..W.VfJ.. recommendations, with minor adjustments, as the basis on which to determine the Salina water rates. The following is a brief outline of the A.W.W.1l.. recommendations. Each subject listed below will be discussed in detail in subsequent sections of this report and the value of each item will be determined. I. Amount of Revenue Required - Must be Sufficient to Pay. 1. Operating Costs .2. Maintenance, Renewals & Replacements (Depreciation) 3. Anticipated New Construction Work (Extensions and ImProvements) 4. Bond and Interest Payments . II. Allocation of Costs: 1. Fire Protection Costs, chargeable to Taxpayers 2. All other costs to be included in a Rate Schedule, consisting of: A. Minimum Charge - to Include Cost of: a. Meters and Service Lines b. Reading Meters, Billing and Collecting c. General Office Expense d. Sufficient Water for Domestic Sanitary Needs .. B. Other Cos ts to Be Applis d in Three Steps a. Lowest step - Viliolesale b. Next Step - Intermediate - Cost of Production &. Trans- mission plus Distribution Lines 6" and Over c. Highest Step- Domestic. Cost of Production, Transmission Distribution Lin8s Under 6" and Lost Wator . -9- ..... SECTION 3 AMOUNT OF REVENUE REQUIRED GENERAL. The rate structure for a municipally owned water works should provide sufficient revenue to pay all operation and maintenance expense, pay all debt requirements, and create a sufficient reserve to meet all probable replacements, extensions and improvements. The proposed Salina rate should include not only the expenses of the existing water works facilities but also the cost of constructing the proposed major projects, of enlarging the distribution mains and providing a water softening plant. DETERMINING FINANCIAL REQUIREMENTS. The following is an explanation of the expenditures mentioned above, and a determination of the amount of funds roquired to pay for the cost of c~ch of the finu typos of expenses at Salina. 1. Operation and Maintenance Expense. Sufficient revenue must be provided to cover the cost of economical and efficient operation and main- tenance . The amount of funds required to operate and maintain the existing water works facilities can best be determined by studying the Water Depart- ment expenditures during recent years. The cost of operating and maintaining the proposed water softening plant is determined by canputing the cost of chemicals, electric power, personnel and repairs necessary to operate the plant, when treating the total amount of water to be pumped in 1952, which was estimated in Section 1 of this report as 1,560 million gallons per year. The cost of chemicals will vary almost directly with the rate of pumpage, but power, personnel and repair expenditures are more or less fixed costs regardless of the rate of plant operation. Therefore, the future costs of operation will not increase as fast as the revenue, which should provide some addi~ tional rese~ as the useage of water increases during future years. -10- - . .... ... The following is the estimated annual expenditure for operating and maintaining both the existing waterworks facilities and the proposed water softening plant in 1952 when the estimated pumpage for the year will be 1,560 million gallons. Cost of Operating and Maintaining the Existing Waterworks. Annual Expenditures (from City's Records) during 1948 III $66,915 Annual Expenditures (from City's Records) during 1949 .. $71,577 Annual Estimated Expenditure during 1952 = $80,800 Cost of Operating & Maintaining the Proposed Water Softening Plant Chemicals @ 5.3~ per 1,000 gal. ... $82,100 per year Electric Power @ 0.3; per 1,000 gal. III 4,700 per year Additional Personnel @ 1.0_ per 1,000 gal. III 15,600 per year Maintenance @ 0.4, per 1,000 gal.. 6,200 per year Total Operation and Maintenance Cost. . . . $109,200 per year Total Cost of Operating and Maintaining Both the Existing Waterworks and the Softening Plant in 1952 = $190,000 2. Depreciation (Replacements and Extensions). Private utilities always carry an item of depreciation for the purpose of building up a re- serve fund with which to pay for new construction as required. Municipal utilities have found it more satisfactory to plan for future construction and include a specified amount in the rate base to pay for most of the anticipated new construction. The new construction progrem, which includes the installation of numerous large mains and additional elevated storage, as outlined in a recent report on water pressures, should be set out as a specific expendi- ture in the rate base and not be covered by an indefinite percentage under depreciation. The same is true of tre funds required to build the pro- posed water softening plant. The-se will .be d-iscussed further in later paragraphs of this section of the report. -11- ... There will be minor replacements and extensions in the existing water works system which it is difficult to anticipate, and for this reason it is advisable to carry a small depreciation item to cover the more routine work, done mostly by force account, and which will supplement too main construction program which will be planned in advance. Furthermore, the wording of the certain sections of tre Kansas Statutes requires an item for "depreciation" in connection with certain bond issues, and for this reason the allowance for "replacements and extensions" will not be as acceptable to bond attorneys as the term Itdepreciation1t. However, the depreciation item should not be an amount which will create a sinking fund, capable of replacing the entire system and plant in a few years, as it is unfair to mB.k:e a "double chargell against the prosent water users by requiring them to pay for too construction of the proposed water softening plant, and at the sam time create a reserve fund to replace it. At some future time, after the bonds for the construction of the plant have been redeemed, a depreciation item could be included in the rate base to build up a sinking fund to be used to enlarge or replace the plant when necessary. But both a bond and interest charge and a depreciation charge should not be carried on a plant at the same time. The amount of depreciation to be placed on the existing facilities, which have been paid for, depends upon the condition of the system and the amount of minor extensions contemplated. In the past, it has been the practice at Sal ina to use about 0.8% of the estimated value of the system as the annual depreciation item, and that seems to be satisfactory and will be continued in establishing the present water rates. The valuation carried in the City's records on the waterworks system at the present time is about $1,300,000" and we have made no attempt to revise this figure, although the -12- .... present da,y val. ue, after allowing for ample depreciation, would be approx- imately $2,000,000. Therefore, using the City's valuation, this item will be 0.8% of 11,300,000 · $10,400 per year. 3. Expenditures for New Construction. There are two major construction programs contemplated for the Salina Water Works at this time which should be given consideration when establishing the new water rates. One is the installation of large mains and additional elevated storage, and the other is the water softening plant. The mains and storage can be paid for with cash and will be discussed in this paragraph, but a portion of the water softening plant should be financed with a bond issue and will be included under the heading of Bond and Interest, on the following page. The report now being prepared on water pressures explains the necessity for larger transmission and distribution mains in portions of the City which have insufficient water pressure at the present time to provide satisfactory domestic service and insure adequate fire protection. Additional elevated storage is also included in this program; and an itemized estimate of cost was presented in the report covering all recommended improvements. These new mains can be installed in sections over a period of years, and only sufficient funds must be raised each year to pay for the improve- ments to be made at that time. Therefore, this work can be paid for in cash by making sufficient allowance in the water rates to create a reserve fund for this purpose. '!he construction schedule recommended in the water pressure report calls for an expenditure of about $30,000 for large mains during the first year, with a gradually increasing expenditure each year as the increased sale of water produces a 11 rger reserve fund in the future. 'l'herefore J the new rate base will include an item of $30,000 for new construction not financed with a bond issue. - . -13- ... 4. Bond and Interest Payments. .At the present time, the Vlater Works Department has no bonded indebtedness, and there was a surplus of about $300,000 on hand at the end of 1949. The new water rates established in July 1949 should collect an average of about $220,000 per year during the - next two years. The average operation and maintenance cost, together with the allowance for depreciation will reqaire an expenditure of about ~90,000 per year during that time, and if we allow an additional $30,000 per year for new construction on the distribution system, it will leave a surplus of about $100,000 per year. At this rate, there will be a total surplus in the water works fund of about $500,000 by the end of 1951. A reserve of about $100,000 should always be maintained in the Water Department, to care for emergencies and unanticipated expenditures, and to ,.. smooth out the balance between income and expenditures during unusual years. Therefore, this Ylill leave about $409,000 avaiJable for the construction of a water softening plant. The present estimated construction cost of the softening plant is $760,000. After deducting the $400,000 already available, this will leave about ~360,OOO which must be provided for the construction of the plant. This $360,000 could be secured by several methods. One method would be to delay the letting of construction contracts for 3 or 4 years. But it would be unfair to the present water users to expect them to continue paying the higher water rates for several more years without J:e rmitting them to enjoy the convenience and savings which will result from the use of soft water. Therefore, the construction of the plant should not be delayed until the full amount of its cost is on hand. The additional money required could be financed with temporary notes, but if they were issued, they should be of relatively short tem, and that would make the annual payment by the present water user rather high, and the interest on temporary notes is more than on bonds. -14- "'" Therefore, it seems that the most desirabls tOOthod of providing the $360,,000 would be with a bond issue. These could be Revenue Bonds, payable from the sale of water, with no affect on property taxes. It is a matter of judgment as to how fast such bonds should be retired, but it should be kept in mind that the softening plant would be here for many years, and it is only fair that future users should pay their share of the construction cost. Therefore, it, might be advisable to issue the bonds to be retired O"ter a period of 18 years at the rate of $20,000 per yetrr. The interest on these bonds at 2% will amount to $7,200 the first year, decreasing to $400 the 18th year" and averaging about $3,800 per year throughout the period. Proceeding on that basis, an il.€m of $,527,200 per year should be included in the new water rates to care for the "Bond and Interest Payments". FIRE HYDRANTS. There are two principal items of cost in connection with fire hydrants. One is the maintenance and repair of existing installations, the expenditures for which have averaged about $800 per year during recent ye ars . The other item is the cost of furnishing and installing new hydrants. Each fire hydrant, including tho 611 pipe stub and 6" gate valve and box, will cost about $400 installed. Over a period of years, the Water Depart- ment has installed an average of 10 new units per year. Therefore, the water rates should include about $!i,800 per year for ItHydrant Expense". The expenditures rentioned above are' in addition to the value of IIFire Protection", which includes the water used for fire fighting, and the investment in pumping equipment, large mains and storage provided for fire recpirements, and which will be discussed in detail in the next section of this report. .. .. -15- CIASSIFICATION OF EXPENDITURES. The preceding discussion in this section of the report covers the various expenditures which will be made by the ... Waterworks Department each year. In order that those costs can be allocated properly to the various classes of customers, the A.VI.W.A. Formula requires that each of the expenditures mentioned must be broken down into six principal divisions as follows: 1. Commercial, which includes the cost of reading meters, billing, collecting, administration, office expense, and general overhead costs not specifically chargeable to any othar classification. 2. Meters and Service Lines, includes the cost of new meters, and all . expense of installing, repairing and maintaining the existing ones; alSO, any costs relative to the house service lines. However, this item is small .. in Salina, as the service lines are usually owned and maintained by the customers. 3. Production and Transmission Expense, or the cost of supplying water to the distribution system, including all the costs up to the point where the water is delivered under pressure at a reasonably central point. Under this classification will. come all costs pertaining to wells, low service supply lines, pumping station, proposed water softening plant, storage, and tranSmission facilities. The transmission mains are the large lines from the pumping station to the central point of distribution, and are sub- stantially without service taps, which consists of about 8,000 linear feet of 12" pipeline in the case of Salina. 4. Distribution Expense for Commercial or Intermediate Customers. This includes all costs for new pipeline construction and the expense of repairing, maintaining and extending the existing lines which are 611 or larger in diameter, excepting about 30% of the 6" pipe which is allocated to Domestic Customers. -16- .. 5. Distribution Expense for Domestic Customers. This includes all costs and expenses relative to the pipe lines which are less than 6" in diameter, and about 30% of the 6" pipe. 6. Fire Hydrants and Connections. This expense covers the cost of installing new hydrants, as well as maintaining the existing ones. These - expenditures are not incorporated into the water rate base, as they are paid separately as "Hydrant RentalJl, as explained later under "Fire Protection". Tll.BULATION OF EXPENDITURES. The following is a summarized tabulation of the expenditures previously detennined, broken down into the classifications required for theA'.li{~Vi;.J.~ate Fonnula. CLASSIFICA nON OF EXPENDITURES (For the Year 1952) - Distribution 'Commercial'Meters &'Production &' System 1& General 'ServicesITransmission' Intermed.Domestic Opera tion &, I , Maintenance I of Waterworks $27,600 '$16,800 I $41,040 $ 900 1$ 200 I, , Operation & I Maintenance' of Softening Plant I , Hydrant I "Rental' Total , '$2,460 '$ 89,000 [I ~ 1 101,000 Depreciation (Replacernen t &. 'Repairs) , I 400' 1,200' 2,520 3,000 800 2,000 1 3,480 New Construction I 12,000 '6,000 I , 9,000 - Bond &. Interest (Softening Plant) I Fire Hydrants (Depreciation & New) I 1 4,800 19,040 I 8,160 TOTALS $28,000 '$18,000 ' $166,600 1$14,900 $7,000 $27,900 I $262,400 -17- 1 r:~ 101,000 . ,j , 10,400 30,000 27,200 '1. 4s800 - SECTIrn 4 FIRE PROTECTION GENERAL. In too preceding sections of this report, the amount of revenue required to operate the waterworks was determined. The second question is how this amount is to be allocated to the property assessments and to the utility rates; or, in other wOrds, what proportion should be paid for by nonusers and what portion by users of the water. It is generally accepted that a waterworks has two principal functions: it performs a service, and it supplies a commodity. The service comprises all those benefits enjoyed by the taxpayers as a whole and includes the increased velue of property in the city due to the watezworks system, the intangible values of good health of the community due to a pure water supply, and especially the value of fire protection. These benefits are generally realized by a city when a new waterworks system is first constructed, and practically the entire cost of the original system is paid for by taxes assessed against private property as a whole. But, as time passes, City Officials sometimes lose sight of the general benefits and gradually shift the entire burden of the waterworks system over to the water customers. Although no rate schedule will be perfect in all details, it is evident that the practice of raising all revenue through the sale of water alone often results in injustice. A lumber bUSiness, which uses a negligible amount of water and accordingly receives a minimum bill, pays practical~ nothing for fire protection although its demand is large. Also, nonresident property owners receive the benefits of fire protection, although they pay nothing toward the ope ra tion of the waterworks system, if all revenue to the water department comes through sale of water. The insurance rates on all -18- - the property in the city is much lower because of the waterworks system, yet the saving in fire insurance rates is not fairlY apportioned over all property if all the revenue is derived from the sale of water. The industries which use a large amount of wa tor and the citizens who maintain large lawns are paying for fire protection on tho high valuation property which use but little water. SEPARATE CHARGE FOR FIRE PROTECTION. Most cities make a charge for this fire protection separate from the :revenue secured from the sale of water. At Salina" a reasonable charge was made against property owners for fire protection at the time the Salina waterworks was purchased in 1925. However, during the intervening 25 years, this assessment has been graduallY lowered until now onlY a token charge of t,l.OO per year per hydrant is collected from the taxpayers. It is generally realized that a considerable portion of tre cost of a waterworks is created by the necessity of providing additional capacity to meet the :requirements of fire protection. Therefore, in order to determine how much of the waterworks expense should be allocated to fire protection, we must carefully evaluate the cost of the various factors involved in prOducing, treating, storing and distributing water and divide the cost of each of these i terns in proportion to their use in supplying fire demand and ordinary demand. METHOD OF DETERMING VALUE OF FIRE PROTECTION. The A.VI.W.A.. has suggested that tho capital cost chargeable to fire protection may be determined most equitably by' using the ratio of the maximum fire demand, based on fire unde!'i1JTiters' requirements, to the combined demand for fire plus all other uses. Tho maximum fire deme..nd in Salina, as set forth by the requirements -19- of the State Inspection Bureau, is 5,000 gallons per minute, for a period of 10 hours, in the principal Mercantile District. This amounts to - 3,000,000 gallons in 10 hours, but storage will permit this pumpage to be distributed over a period of 15 hours. ThE) maximum demand for all other purposes last year was 9,355,000 gallons in 24 hours, and about 75% of this, or 7,000,000 gallons, was required in tho 15 hour period of maximum demand. Therefore, the ratio of fire requirement to tho total demand, including fire is 3 to 10 or 30%. This 30% should be applied to all "fixed chargesll excepting those relating to meters and fire hydrants. No part of thE: expense of meters, service lines and distribution mains smaller than 6 inches should be charged to fire protection, but 100% of the hydrant expense should be included. The following is a reasonable estimate of the amounts that should be in- eluded in fire protection costs, based on probable expenditures in 1952: Items in the 30% Classifications Portion of the Administration and General Expense 3<:1J6 of $8,200. . . . . . . . . . . . . . . . . . . $2,460.00 Depreciation on Applicable Items 0.8 of $950;000 ~))% ~... .......... 2,280.00 Annual Construction of Large Mains 30% of $30,000 c . e . . . . . .......... 9,000.00 Bond and Interest Payments 3~ of $27,200 . . . . . . . . . . . . . . . . .. 8,160.00 Items in the 100% Classification: Installation of New Hydrants 10 per year at $400.00 e . . ........... 4,000.00 Depreciation on Existing Hydrants 2% of $60,000 ..... . . . . . , . . . . . . . 1,200.00 800.00 rfuintenance & Repair on Existing Hydrants . . . . . . . Total Amount Chargeable to Fire Protection Annually. . . . .$27,900.00 -20- ... METHOD OF CQUECTING FOR FIRE PRarECTION. Several different theories have been advanced as to the best method of collecting for fire protection, but most cities have found that a charge for "Hydrant Rental" is the simplest method; this will automatically take care of the cost of serving new areas as they are developed, as additional hydrants are always needed as a city expands. Trere is a total of 601 hydrants installed in Salina at the present time" and therefore the total expense of $27,900 would make the rental charge amount to $4,~00 per hydrant per year. FIRE PROTECTION Cf!ARGE IN OTHER CITIES. A study has been made to detennine what charge other cities in this country are making for fire protection. It was found that 71% of all cities over 10,000 population who charge for fire protection use the llHydrant Rental" method of making the assessment, and the amount charged varies from $,.00 to $100.00 per hydrant per year, with most of the cities charging between $30,,00 and $,0.00 per year. Therefore, the charee of ~4,.00 per hydrant per ;year, proposed for the City of Salina, seems to be entirely in line with the gener~l practice. -21- SECTION 5 RATE STRUCTURE GENERAL. The total amount of revenoo recp ired by the Water Works Depart- ment each year has been detennined as $262,400. After $27,900 is collected from taxes as "Hydrant Rental", the remaining $234,500.must be secured from the sale of water. The A.Vi.W.A. has recommended a rather definite rate schedule for allocating the required charges to the different classes of users. The schedule con- sists of a minimum meter and service charge, plus a colTillodi ty charge applied in 3 steps, as follows: MINIMUM METER AND SERVICE C HA OOE, is to include: "1. All conunercial expanse and a sui table portion of administration and overhead costs, the total ~ which is to be divided equally to all accounts. "2. All eXp:lnse arising out of meters and services, with a share of administrative expense and overhoad, the total of which may be distributed between accounts on the basis of the meter cost. "3. There should also be added for all minimum users, the cost, based on the domestic commodity rate, of the minimum desirable use frem the stand- point of sanitary conditions or about 100 g.p.d. per meter." COMMODITY UNIT RATES are to be determined as follows: "1. The Wholesale Unit Rate is obtained by dividing the total of all production and transmission expense (capital costs and operation and main- tenance), plus a portion of administrative expense and overhead, by the total annual pumpage. -22- - "2. The Intermediate unit Rat:. is obtained by adding the intermediate increment to the whoJe sale rate. The intermediate inere!ll:)nt is obtained by dividing the total expense arising out of distribution mains serving intermadiate customers, by the water sold through all .IlI,;lters, except sales at the wholesale rate. 113. The Domestic Unit Rate is obtained by adding the domestic increrent to the intermediate rate. The domestic increment is obtained by dividing the total expense arising out of distribution mains serv;1.ng domestic customers, plus the cost of all lost water, by the water sold t~"ough all meters 3/4 in'. and smaller. fI RATE STEPS are to be determined as follows: Step quantity limitations must be adopted which, when cp plied to the unit rates, will produce the necessa~ revenue; and the quantity limitations and unit rates must be chocked as a whole against the system's customers~ The A.W.W.A. SUgg0StS that as an initial determination o! step quantities, the following amounts of consumption be applied to tho three rate classes I The Domestic Rate should apply up to a quantity equal to twice the average consumption through all domestic S/811 and 3/411 meters j which, in the case of Salina will be 2 x 1,000 = 2,000 cu. !t./month. However, to provide the mcessary revenue at Salina, this step must be about 50% broader; so we recommend that tho present first step of 3,000 cu. ft. now in use at Salina, be continued. The Intermediate Rate should apply up to a quantity equal to twice the average consumption through 1" to 4" meters, which in the case of Salina will be about 2 x 10,000 - 20,000 ~.ft./month. The Wholesale Rate will apply to all usage in excess of the intermediate rate or 20,000 cU.ft./mo. - - -23- - SECTION 6 RATE SCHEDUlE OOMPUTl.TIONS GENERAL. Using the expenditures that were determined in Section 3 of this report and distributing them according to the schedule outlined in the preceding section, we wi II calculate the water rates required at Salina in 1952, as follows: TaBIE 1 DATA REQUIRED IN COMPUTATIONS DISTRIBUTION OF EXPENDITURES. (From Page 17) .. Commercial and General. . . . . . . . .. . .. . . . .. . . .$ 28,000 Meters and Service Lines. . . . _ _ .. . . . .. . . . . . . 18,000 Production and Transmiasion . . . . . . . . . . . . . . . 166,600 Distribution to Intennediate Customers . . . .. .. . . .. 14,900 Distribution to Domestic Customers ............. 7,000 Hydrant Rental ._ ... . . . . . . . . . . . . . . . . .. 27,900 Total Annual Expenditure $262,400 TOTAL AMOUNT OF SAIES hND PUMPAGE (In 1952) Renvenue to be Secured from Sale of Water - $262,400 - 27,900 - 234,500 .. Total Annual of Water Sales · 1,093 Million Gal.-l,457,OOO Hundred Cu.Ft. Total Water Free to City ... 77 n "- 103,000 If "" Water Lost In Dist. System... 390 II ,,_ 520,000 II II II Total Annual Pumpage ....1,560 !ullion Gal.-2,080,ooo Hundred Cu.Ft. .. -24- TABIE 2 WATER SAIES BY METERS AND CLASSIFICATION (In 1952) - Size of No. of Average Total Annual Total Annual Sales Meter Meters Annual Sale Sales by Classification Per Meter (100 Cu.Ft.) (100 Cu.Ft.) (100 Cu. Ft) 5/811 1,,565 123 920,500) Domestic Sales 3/4" 230 433 99,500) 1,020,000 (Hundred Cu.Ft.) 1" 150 453 68,000~ Internediate Sales 1 1/2" 58 1,500 87,000 385,00 (Hundred Cu.Ft.) 2lt 85 2,700 230,000) 3" 6 3,000 18,000) Wholesale Sales 4" 4 3, 500 14,(00) 52,000 (Hundred Cu.Ft.) 611 2 10,000 20,000) .. 8,100 1,457,000 TABIE 3 COMPtITATION OF :METER AND SERVICE CHARGE Commercial Costs Number of Accounts Meter and Service Costs Number of Meter Units $28,000 a tl,loo. $3.45 per year, _ $18,000 = ~ r:' - 9,230 ~1.9~ per year, per account per unit Meter SizelNo. of'Meter Cost'No. of ' Annual Chg'Annua1 Chg~ Total (Inches) tMeters' Ratio 'Units 'Per Size 'Per Meter' Service Charge It" I 'Per Year' Per Month , , , 5/811 '7,565 1 '7,565 '$ 1.95 ' $ 3.45 '$ 5.40 ' $ 0.45 3/4" t 230 ' 1.5 , 345 , 2.92 3.45 , 6.37 ' 0.55 .. 1" 1$0 , 2.25 I 338 ' 4.39 3.45 7.84 ' 0.65 1 1/2" $8 ' 4 232 I 7.80 3.45 I 11.2$ , 0.9$ 2" 85 ' 6 , 510 ' 11.70 3.45 , 15.15 ' 1.25 .. 3" 6 ' 10 60 ' 19.50 3.45 I 22.95 I 1.90 4" 1 4 ' 20 80 ' 39.00 3.45 , 42.45 ' 3.50 6" , 2 ' 50 100 ' 97.50 3.45 ' 100.95 1 8.40 1 -2$- - TABLE 4 MINIMUM CHt.RGE PER MONTH (Service Charge from Table 3 plus Minimum Amount of Water) Meter Size Water Included Service Charge (Inches) Amount I Cost (From Table 3) Total Cu.Ft. $ 5/811 400 $ 0.60 $ 0(\45 $ IG05 3/411 600 0.95 0055 1050 1" 1,s200 1.85 0,,65 2,.50 1 1/211 2:400 3.65 0.95 4060 - 211 4,000 5.55 1.25 6080 311 8,000 8.40 1.90 10,>30 4" 14,000 14 .10 3.50 17.60 6" 30,000 29.10 8.40 37.50 .... .. -26- - TABLE 5 COMPUTATION OF OOMMODITY CHARGE A.W.Vv.A. FORMUIA SALINA DATA "- Third Step (Wl'1olesal~ Rate) , Production + Transmission Pumpage (3rd Step Ra. te ) , Armual Pumpage - 2,080,000 Hundred Cu.Ft. less lIFreell , Water to City ~ 103,000 Hundred Cu.Ft. Wholesale) $ 166,60Q.=$0.084/100 Cu.Ft.' Rate ) .01,917,000 , 3rd Step Base _ 1,977,000 Hundred Cu.Ft. , ~cond Step (Intermediate Rate) I .. Distr. Cost (Intermed. Customers) 2nd Step Increment Base I Water Sales _ 1,457,000 Hundred Cu.Ft. Deduct Wholesale Sales - 52,000 Hundred Cu.Ft. $ 14,900 1,406,000 Add 3rd Step Rate Intermediate Rate -$0.011/100 Cu.Ft. I I I =. 0.084/100 Cu.Ft., , -$0.095/100 Cu.Ft., 2nd Step Increment Base - 1,406,00 Hundred Cu.Ft. First Step (Domestic Rate) I Distr. Cost (DomestiC)+Lost Water Cost ' Domestic Sales {Hundred Cu.Ft.) t Total Water Loss = 623,000 Hundred Cu.Ft. @ Wholesale Rate . $ 0.084 $ 59 330 1,020,000 _$0.058/100 Cu.Ft.' Cost of Lost Water $52,330 - 0.095 2ndStep Rate Domestic Distri- I bution Cost = 7,000 Domestic Rate , = 0.0153/100 Cu.Ft, &59,330 .. -27.. TABLE 6 COMPARING FORMUU RATES WIT.I PRESENT SALINi.. RATES Water Used Formula Rate Present Salina Rate First 3,000 Cu.Ft. Next '6~000 Cu.Ft. Next ,9,000 Cu. Ft. Over lS,OOO Cu.Ft. Over 20,000 Cu.Ft. lS.3~ per 100 Cu.Ft. 9.5~ >> " II " 9.5~ If II >> " --- 8.4~ II " 11 II l6.8t per 100 Cu. Ft. l3.5~ II II " 11 10.6~ II " II " S.6~>> II " II MINIMtfA! CHARGE Meter Size Formula Rate Present Salina Rate (Inches Min. Charge Cu.Ft. Allowed Uin. Charge Cu.Ft. Allowed S/8" $ 1.05 400 $ 1.15 685 3/4" 1.50 800 1.65 982 I" 2.50 1,600 2.75 1,637 . 1 1/211 4.60 2,400 5.00 2 ,976 211 6.80 4,000 6.75 4,267 3" 10.30 8,POO 10.85 7,304 4" 17.60 14,000 18 .10 13,680 6" 37.50 30,000 36.15 44,730 From the preceding tabulation it will be noted that there is not a great deal of difference between the i...W.W.J.. Formula Rate (based on infor- mation developed in this report) and the present water rates in Salina. The Formula produces slightly lower rates to the domestic and intermediate users, and slightly higher to wholesale customers. The minimum charge under the Fonnula is lower than the present Salina rate, butthe amount of water included in the minimum is also less - under the Formula, which makes the present Salina rate actually lower to - the customer using a minimum of water. -28- .. AMOUNT OF REVENUE FROM ESTABLISHED RA'lES. An investigation has been made to determine whether either the A.W.W.A. Formula water rates or the present Salina rates will yield the amount of revenue required. The amount of water registered by the different sizes of meters has been tabUlated from the meter reading records of 1949 in the Ci ty Water Department. From these records the number of minimum users and also the amount of water sold in each of the rate steps, through each size of meter, were determined. The 1949 quantities were increased 8% to arrive at the probable water sales in 1952. The quantities thus determined were multiplied by the present Salina rates and also by the A.W.W.A Formula rates to detennine the probable amount of income to be derived from each set of rates. It was found that the following amounts of revenue could be expected from Water customers in 1952: Income from water sales at A.W.W.A. Formula Rates . $23~.t800 Income fr.om water sales at Present Salina Rates .. 229,200 By adding, the $27,900 Annual Hydrant Rental the total income will be: Total Annual Revenue @ A.W.W.A. Formula Rates . $263,700 Total Annual Revenue @ Present Salina Rates .. 257,100 Amount of Revenue Required (See Page 17) - 262,400 . ... -29- ... SECTION 7 CONCWSIONS AND REC(]iIMENDA TIONS CONCLUSIONS. From the foregoing study and tabulations, it is evident that the present Salina water rates are well balanced, with the exception of the whoJesale rate which applies to quantities over 15,000 cu. ft. per month. The actual cost of pumping from the wells, softening the water and repumping to the distribution system, including maintenance and depreciation will amount to 8.4; per 100 cu. ft.; therefore, the present wholesale rate of 5.6i per 100 cu. ft. will be too low after the softening plant is in operation. About 2 million cubic feet of water is sold in the wholesale step each year, which, at the rate increase of 2.8; (8.4; - 5.6;) per hundred cubic feet will add about :l;l5,600 to the amount of revenue collected each year. The cost of providing water for fire protection amounts to $27,900 per year; and this eJlPense can be covered by charging "hydrant rental" at the rate of $45.00 per hydrant per year. This charge for fire protection should be collected by taxes assessed directly against the property pro- tected, and not charged to the water customers. If $27,900 hydrant rental and $5,600 additional income from wholesale water sales is added to the $229,200 revenue expected from other water sales at present water rates, it will make the to tal annual income amount to $262,700. This is almost exactly the amount of expenditures estimated on Page 17 for all costs of operating and maintaining the waterworks system including the water softening plant. '" ... -30- RECamENDATIONS The following water rates are recommended for the City of Salina, 1. Minimum Rate. The present monthly minimum rates to remain unchanged. Size of Minimum Cu.Ft. Size of Minimum Cu.Ft. Meter Char~ Allowed Meter Charge Allowed 5/8" $1.1$ 685 2" $6.75 4,267 3/4" 1.65 982 3" 10.85 7,304 1" 2.75 1,637 4" 18 .10 13,680 1 1/2" 5.00 2,976 5" 36.15 44,730 2. The Present Domestic. IntermediatA9 and Industrial Rates and step quantities to remain unchanged: (Domestic) First 3,000 cu.ft. per month 0 16.8_ per 100 cu. tt. (Intermed.) Nextg,OOO"" " " @ 13.5_" " It " (Industrial) Next 6,000"" II " @ lO.~~ " " II " ,. 3. 1)1e PtlElsent 'Wholesale Rate for quanti ties over 15,000 cu.tt. per month should be increased from the pres.ent 5.6~ per 100 cu.ft. to 8.4~ per 100 cUaft., as soon as the softening plant goes into operation. 4. ~drant Rental, at the rate of $45.00 per hydrant per year should be charged to pay tor fire protection. This assessment should be made in sufficient time to be entered on next year's tax rolls. After making the changes recommended in paragraphs 3 and 4, above, the revenue resulting trom the present Salina Water rates will be suf'ficient to: a. Operate and maintain the existing waterworks system. b. Construct and operate the proposed water softening plant. c. Build $30,000 worth of new distribution mains annually. d. Provide 77 million gallons of "free" water to the City Parks and other City uses each year. ~ .". Respectful11 submitted, WIISON & COUPANY, EmlNEERS 27 March'1950 By ,~~~yI:-~~~ .. Har1H. C~ -31- SUPPIEMENTARY INFORMA nON COMPARISCN OF WATER RATES:.lli CITIES.IF KANSAS '" GENERAL. The follOW'ing canparison of water rates in the different cities of Kansas is offered for general infonnation only" and is not for the purpose of justifying the Salina rates or condemning the rates in other cities" as we realize that there are too many variable and unknam.factors involved to make a really fair canJ:Brison possible. However, we know that City Officials and Water Department employees are often asked how the Salina rates compare with those in other cities, and for this reason we believe infonnation on the subject may be of value. FACTORS AFFEC'l'ING wVATER RATES. In reviewing these different rates, it should be kept in mind that there must be considerable variation in water rates between cities, because there are so many factors affecting the rates, some of which are: methods of financing, charges for fire protec- tion, IIfree" water furnished, ownership of meters and services, debt charges, depreciation charges, allowance for future extensions and im- provements, type of consumers, difficulty of serving area, water treat- ment costs, pumping costs, valuation of plant and property, age of system source of supply, types and sizes of mains, amount of storage available, labor rates, and innumerable other items. However, the general public does give consideration to the charges made for water in other cities since newspapers and magazines often try to canpare water rates of various cities by publishing the prevailing rates, and since many small cities have established their rate schedules by comparing them with neighboring cities of about the same size; therefore, we offer the following canparisons for general information. ... ,- -32- CITIES USED FOR COMPARISONS; We have compiled the water rates of all cities in Kansas which have a population of over 10,000. The data has been tabu- lated in three groups, as follows: 1. Cities of the First Class - Larger than Salina 2. Cities of the First Class - Smaller than Salina 3. Citie$ of the Second Class - Over 10,000 Population The minimum rate and the rate per 1,000 gallons for various steps has been tabulated as follows on the next page. CURVES FOR COMPf,.RIIDN OF W.t.TER RATES. It is often easier to visualize the ... comparison of rates when they are presented graphically. Therefore, we have prepared 3 sets of curves on Plates 3, 4 and 5 ~ich follow the tabulations on the next two pages. These curves show the rates charged in cents per 1,000 gallons for various quantities between 3,000 gallons per month and 3,000,000 gallons per month, for all the First Class Cities in Kansas and all the Second Class Cities with populations over 10,000. These curves show graphically the same information that has been tabulated on the following pages. . 'C -33- TABlE A COMPARISrn OF WATER RJ.TES FlRST CIASS CITIES IN KANSAS - lARGER THLN SALINA , Minimum , , Water Usage in Gallons per month I 'Water ' f I r , , t Popu- 'Char~'Incl.'3,000'10JOO0130,000'100,00011,OOO,000'3,000,000 City , 1ationl~ 'Gals.' 1 Rate in Cents per 1,000 Gallons , 1 1 1 1 , 1 1 , Wichita , 185,366 '$0.94 13,0001 31.3' 31.3 ' 25.0 ' 17.5 , 1.5 6.25 , 1 1 . , Kansas City' 148,254J 1.00 '3,000' 33.3' 25.0 , 25.0 12.0 1.0 1.0 I ~ 1 , , Topeka 89,8101 0.35 ' 1501 40.0' 22.1 , 22.7 , 22.1 ' 15.35 15.35 j i , Hutchinson' 31,814 , 1.00 '3,,150~ 26.7' 26.7 ' 16.7 ' 10.0 , 4.1 4.7 \ , J , , Salina 26,923' 1.15 '5,138' 22.5' 22.5 ' 18.0 ' 14.0 ' 7.5 1.5 , , , , I "" City Salina Pitts burg ~ leavenworth' I Lawrence t , Coffeyville' 1 Pars ons t 1 A tchis on ' Ft. Scott TABIE B COOARISON OF WATER RATES FIRST ClASS CITIES IN KANSAS - SMALIER THAN SJL INJ. Minimum Water Usage in Gallons per Month 1 Water , '" , Pop~- 'chargeIInc1.'3,OOO'10,OOO'30,000'100,000'100OOO,000'3,OOO,Ooo lation' $ 'Gals.' . Rate in Cents per~, 0 Gc1.1ons , , , , , , , , 26,923'$ 1.15'5,138'1. 22.5' 22.5 ' 18.0' 14.0' 7.5 ' .7.5 " , 25,427! I 21,183 ' , 18,499' , 17,898' , 15,567' t 12,428t 10,4191 I Q.10'2,OOO' , I '1.00' 1,500~ , , '1.40'2,0001 , I , 1.00'4,000! , I 0.50'1,250 , 35.0' 35.0 ' 25.0 ' , 22.0' 22.0 ' 22.0 ' , 40.0' 37.8 ' 32.2 · , 25.0' 25.0 ' 20.0 ' , 4.5 13.5 9,0 25.0 16.0 16.0 ;:0..0' 14.0 9.0 16.2' 10.8 10.8 20.0' 15.0 , ' 40.0' 35.0 ' 40.0 I , 27.0' 13.5 t 11.0 f 11.0 0.10'4,000 35.0' 35.0 ' 32.0 ' , , 2.00'6,000 33.J 26.1' 26.7 ' ! 20.0' 10.7 8.0 -34- TABlE C COMPJ,.RISON OF WATER RATES SECOND CLASS CITIES OF KNASAS WITH POPUU..TION OVER 10,000 Minimum Water Usage in Gallons per month 'Water' I , , , Popu- t ChargeInc1"3,000'10kOOO'30,000'100,000'~00,000'3,000,000 City 1ation' $ 'Gals' 'ate in Cents per 1, gallons t , , , , , I , Manhattan , 15,132'$ 2.50'7,5001 33.4' 33.4 ' 33.4 ' 30.0 , 23.3 2J .0 , , , Er.1poria , 14,692' 0.30'None I 25.0' 25.0 , 17.0 , 17.0 , 9.0 9.0 , , I , Arkansas City 13,135' 1.00'3,000' 33.3' 33.3 ' 16.1 ' 11.1 I 11.1 11.1 , , , , , Junction City 12,920' 2.25'6,750' 33.3' 33.3 ' 33.3 ' 26.6 , 16.0 14.0 , , , , , Independence' 12,016' 1.00'1,,001 30.0' 20.0 ' 15.0 I 12.0 , 11.0 il.O .. I , , I I E1 Dorado , 11,887' 1.00'3,000' 33.3' 33.3 I 16.1 , 11.1 I 11.1 11.1 , , , Great Bend ' 11,721 i 1.00'4,,001 22.1' 20.0 ' 13.0 , 10.0 , 7.0 , . 7.0 , , I , Newton I 11,222i 0.15'4,22,' 21.8' ~1.8 I 21.8 ' 13.3 ' 9.3 9.3 , , I I Chanute 11,181 ' 0.50' 1,500' 40.0' 28.0 1 28.0 , 16.0 , 16.0 16.0 , , , I Dodge City , 11,068' 1.,0'3,000' 50.0' 30.0 1 20.0 ' 10.0 , 10.0 10.0 , , I , I , , , Salina , 26,923, 1.15.,5,138, 22." 22.5 18.0 14.0 7., 7.5 >> -35- '" " ::> " ~ '"- I\) .:;J ~,~ '![ ::; o ~ ') 0 ':. .; . ~- ~ .. ~ ~ o :: t .. - , ---,-~~~: ..,.. .., ..... ..," ...~ "1~PEKA i' \',,~>' \ . , . \ .' =k' \ ., i1:t' :.- ,\ \, _' W'CHl A, ._-, "_ in" -'<;_ ' _---:~---4----n--1 : \ ". -' . , i ." \ " \ ...' ". .~.. \'r:.~f'."'J. \. .... '.'..... .'\.~U';rf;H INS~' N .\' I'l \ H i,.:F;i;: ' ". L.:-,'-':". '.- .-', . 1 . ., ,'~ '_""';>""1 " . 1 I ~;ii\~'\:id\~\ , .'n~_\ ,:"n~-\ f...,..... 'ii',\,~{in \ ',' ", r \ .' ..0\\.... \ \': : .H. \ ..~ :4} " \ . . . . \ - ...\" \ ... ' I . . . . " .,%.:.... \.. . \ ~.' t' 'j 'oD- , ' \ ' 1 ~OJs~~~;N't=. . ' n~\--~-~-~i r \ \ \. t , " ..~.Il \ I, .! ,. " I" ' ~-"J":' ~' .. .'.5-4--.-..:.t----~t... -----r---- \ ' t. '. ..~ .", I \.. '. . \ ' \ ' ' '" :. . ..\' ! . , i" .,0 "i "., ...,,, ' , ' f "u 1 ".\ '. . \" '. . ... . ~" . \,~ " \ ..... t · 1 ~ -~", ~. \ . \' . -t. .' ..' .... .~. \'''' . \. t-'-~~ ,,10 i '-- '---~~ \:"':':\+',' '\, " . \ \ ,... \".<,....J\ _. h"I~Ji.i i~;,-l'\ _---~_+--+- 1-~-.2~~.=~~ \ . ' ','~ t 1\0 ,3P "I~O . I~OO 3 \ '._,"; '. ". \' \ WA1E~U5'PER MON1r-I.OOOGAL\ \ ' ' . . \' .,' \ I \ ! " I 'I" , I I [ . I _ _ . \.' \ I I " ' ., .' I I l-_~i,_,-~--~:_,__nJ- _~_!_~--_:..-\. .. " '\_n \, : ;::~' , ' , , \ COMPAR\SON~Of WATE RATf ': 1.11 T ~ ~_ ',' J :,.:.! . \ ' F I F\ 5 TeL A 5 C ill E 5 I, - K A N5 P \ : ' . i, I" : ~ l, : _: . _ II ~ \'" . \'. LAR~.E,_, ~HA~ 5ALlNA \ . ,.:' ,I . . " \ . . .' WILsqN.. GOM~AN .: LL . _~L I ~:....._ _~l~~,-,-~iJ,~':" :..t,.:.:..~-'--i"rt,~"'..:' 9~ --..:.....:.- PLATE. '"' -- - -1 r i . ..r- J r ;,,; "; . .. I[ ? ~~ s '? ~ o " ~ i .1 ; I I , i I -. . 1 f 1- ---:------:--I----+e-f--'------~ . I I I ! I i . ! ~ --t--' !,,' . . . ~WJ,LS i--ENG+ ~ M ~ . . 'M ., ~ M~ OJ " OJ '" 1J: :; " ~ o ~ ~ -- . g .." ~ o ~ .. O' ,. - I ~~---~ -- _'U. T - -- .--. ----.5.{} --. -- H___ - --r.-----Bl ; : ~ J L.l ..--11-----.- -- ~---T-~,-.- --1 . . I, I I 1 1 ~ I ; , I I' I' I I I I I j I 1 I I I . : . . .. I t ~ -I ' I , I I I I , I I I I I ' i , ' ' I . I - _ @~-: 1 I ::' I ,1 ' ~-~---f- .'----,.JI.bt;--~ O<lti :;.;~.~I i~iti~-J'-;-- - ;- -l-'-~-i _ 1- --r _I I , ' - t 1 ~ ,- .c- I ~ t ~ II '_ ., ~ ii, j t , . j I, I I. I I I , r I u: , ':__;1 i~" u I"'~~d t-. tr+-, I T I -\ ,'" \ i j .j; 1 _ , " : cl" : ....t.:.; '.1 .:-tn.'~. -------.-----L--.---:-.--4~B '.t=- 'I ' ! I'. I I '. Ii 1\ ! 'C> I ' i . r \ I : g . ~--: ~ ~\~- --, --. .. . ..--u---.--r-Ty...----3-5--tl~\l~~: : II ~ . ~I!' --\-;, .a. ,. i~; I '\..., '\- - l i'C,... 1-, f '. . I ~.. -- ~ 'i ' I I\.. 'l.. I . I."--'~--'Tr' :...:;.~' -~. ----~...,;\' ~v-:EL OOr:A~ ~~.. f. ' . ~ [-1\:\; j\-t- - r -; \ i , .... I : i ,~..~ f \ ... . Q i It ; ~ I . '\', :'~. J . ,- I " l' " I I I !' LL: ' \ r\, I r---~--'~--r--" u-O-~- . . .. .1 J' \- ..\-- , . -I , ,1, . \ . i 'j - I . .\, i---...---..."-r-+-,-----2B4~.-..~-.--,. --~----=-~ i . I 11'<, : ,I I, SALt. 'N..AI., .~- : ! I .,.., ., .~. r ',\ . i . I I I' "'-, \ i '\. :________1__ -t~ i :~-- r.---~n~~, ! . I . . 1 .1..1. .. f.. -..-.---. --~. ----1... ~._._-------+.e-+.- .-..------.. --+----m~----1_ --.- --- . I , ' I I I f !: . ,... :1 I l ..1 ' .' I P . _ 3~i 9() I 900 . I ~ . : : WATER USEI PER MONTH~lQO() GAL. I "--.--r-~-----.---.-------r--..----.;--.-------..---.l~- --'--~-- ---'-'---~i --.~-~-~--_r__~---'- ~--'~-'~-.--- ~-- -----~- ----I ! ~ i .C-6MPAR.1S()N--bFWAT€~RATES.l f. :' ! SE<:~.o.~LAS~CIT-tES '.Ni KANSAS j ! ! j . : P~PULA~l?N_ OVER 10;00 i , - I , I ' . ,1 w'LSOf-& COMPAN I " Ii. I I ENGIN E R 5 - t95 I ___--.J...-~_______._~_J___________ ~~___!_..O....-----l_______~__ _ ______-'-_ --'--_~______ ..-, PLATE Y . I 30,00 ! . ANALYSIS OF RATE COMPARISONS. Some Salina citizens feel that the present water rates here are relatively high,; however, by comparison with otoor citie~ of Kansas that is not the case, It will be noted from the preceding tabu- lation and curves that: 1. Salina has the lowest overall wator rates of too 12 cities of the First Class in Kansas. 2. Four of the First Class Cities make a lower minimum charge than Salina, but they include much Je ss water in the minimum allowance. When the quantity of water included in the minimum rate in those four cities is increased to the 5,138 gallons included at salina" it makes each of them have a considerably higher rate than Salina. 3. The comparison of Salina's present water rates with the larger Second Class Cities of Kansas shows a similar favorable result, as all of too larger Second Class Cities have higher minimum rates than Salina when the Bame quantity of water is included; only Great Bend and Newton have slight 1y lower overall rates and both of these cities provide untreated well water. 4. Therefore,. 'When it is realized that too present Salina rates pro- vide for the construction and operation of the proposed water softening plant, as well as the operation of the present watervlorks system, there should be no criticism of the existing water rates in Salina. t /III -36-