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<br />W' <br />"-l <br />en <br />"", <br /> <br /> <br />SALINE WATER <br />SOURCES <br /> <br /> <br /> <br /> <br />t:+' <br />~~c:;o.. <br />1 ~I <br />I <br />GROUND WATER <br />COLLECTION <br /> <br />PRETREATMENT FOR <br />CORROSIONI SCALE <br />CONTROL <br /> <br />"J - <br /> <br />PUMPING PLANT <br /> <br />~~ <br /> <br />SOFTENING TREATMENT <br /> <br />OTHER WATER SUPPLIES <br /> <br />POSSIBLE <br />BLENDING <br /> <br />__ --c:- <br /> <br /> <br />CONCENTRATED - <br />BI.OWDOWN TO LINED <br />PONDS --- <br /> <br /> <br />OTHER PROCESS <br />USES-ASH OR <br />SLUDGE DISPOSAl. <br /> <br />~-== <br /> <br />PLANT BOUNDARY <br /> <br />BENEFICIAL USE <br />FIg. II LOCAL USE OPTION (Delivery less than IOOml.> <br />SYSTEM SCHEMATIC <br /> <br />Ten sites were evaluated, seven in the Upper Basin (8ig Sandy River, <br />Grand Valley, Lower Gunnison Basin, McElmo Creek, Uinta Basin, <br />Price River, and San Rafael River) and three in the Lower Basin <br />(LaVerkin Springs, Las Vegas Wash, and Palo Verde Irrigation Dis- <br />trict) (see map of sites on fig. 12), The collected water would be <br />transported by individual pipelines to the nearest potential power- <br />plant development sites (table 13). If all 10 units were con- <br />structed, 209,600 acre-feet of water and 854,000 tons of salt would <br />be removed each year from the Colorado River system. This would <br />result in a reduction in salinity at Imperial Dam of 81 m9/L, <br /> <br />Table 14 presents water volume data relevant to the units that would be <br />included, <br /> <br />V-4 <br />