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<br />JJ Ji. h r- --,L <br />""'----- <br /> <br />. <br /> <br />. <br /> <br />1'';TEi\ REOUI~'lENTS <br /> <br />. <br /> <br />. Ir:riqa ~ion <br /> <br />Tne base pro~l~~ file was developed fo= a total future irrigation develop- <br /> <br />m7nt of aEproxL~ate1y 44,400 AF per year. According to the April 1972 <br /> <br />Feasibility Report for the Yellow Jacket Project, irrigation supplies <br /> <br />would be 30,080 AF for 20,500~cres of full service lands and 3,690 <br /> <br />acres of supplemental service lands. Using 2.75 feet of duty per year, <br /> <br />, <br /> <br />.' <br /> <br />44,400 AF would supp2y 16;000 acres on new full service lands, including <br /> <br />lands in the Ye210w Jacket Project area, or approximately 50 percent <br /> <br />more than the 1970 level of use. <br /> <br />Hunicioa1 <br /> <br />" <br /> <br />The base problem file provides for 25,000 acre feet of water to be supplied <br /> <br />annually for a total new popu2ation of 100,000 people. This study represents <br /> <br />an annual average demand of 223 gallons per capita per day and is felt to <br /> <br />be fairly conservative. It does include the demands of light industry and <br /> <br />co~erce associated with municipal development. Water supplies for major <br /> <br />industries were cons~dered to be separate accounts. <br /> <br />. <br />. <br /> <br />Oil Shale <br /> <br />Water demands for o~ sha2e were based upon a water demand of 11 cfs per <br /> <br />50,000 BPD of plant capacity, approxir.~te2y 3-1/3 barrels per water for <br /> <br />each barrel of o~. Assuming an ultimate o~ shale plant capacity of <br /> <br />2,500,000 BPD, the annual water demand would be 143,000 AF which ~as <br /> <br />rounded to 140,000 AF per year for the base prob1e,;, file. <br /> <br />0275 <br /> <br />- 6 - <br /> <br />,,\ <br />i-- f'. . <br />