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was all summarized in our 2010, 2011, and 2012 Annual Water Quality Reports, which were <br />mailed to all of our customers. (Reference No. 3) <br />Guidelines Followed: <br />The Association of California Water Agencies (ACWA) formed a work group, which <br />prepared guidelines for water utilities to use in preparing these required reports. The ACWA <br />guidelines were used in the preparation of this report. <br />Best Available Technology and Cost Estimates: <br />Both the USEPA and CDPH adopt what are known as BATs or Best Available <br />Technology, which are the best known methods of reducing contaminant levels to the MCL. <br />Costs can be estimated for such technologies. However, since many PHGs and all MCLGs are <br />set lower than the MCL, it is not always possible nor feasible to determine what treatment is <br />needed to further reduce a constituent downward to or near the PHG or MCLG, many of which <br />are set at zero. Estimating the costs to reduce a constituent to zero is difficult, if not impossible <br />because it is not possible to verify by analytical means that the level has been lowered to zero. In <br />some cases, installing treatment to try and further reduce very low levels of one constituent may <br />have adverse effects on other aspects of water quality. <br />Constituents Detected That Exceed a PHG or a MCLG: <br />The following is a discussion of constituents that were detected in one or more of our <br />drinking water sources at levels above PHG. <br />Naturally Occurring Uranium <br />The PHG for Natural Uranium is 0.43 pCi/L. The MCL or drinking water standard for <br />Natural Uranium is 20 pCi/L. We have detected Natural Uranium in 3 of our 20 wells at levels <br />1.39 to 10.20 pCi/L. The levels detected were below the MCL. The category of health risk <br />associated with Natural Uranium, and the reason that a drinking water standard was adopted for <br />it, is that people who drink water containing Natural Uranium above the MCL throughout their <br />lifetime could experience an increased risk of cancer. The 20 pCi/L MCL established by the <br />CDPH if complied with should have no adverse health effect. The numerical risk for cancer for <br />water containing Uranium at the PHG level of 0.43 pCi/L is one case in 1,000,000. The large <br />water system BAT for Natural Uranium to lower the levels below the PHG is Ion Exchange. <br />Total water production for all affected wells is 6,060 gallons per minute. Based on the USEPA <br />studies, the initial cost to treat one thousand gallons of water at 80 percent removal efficiency for <br />large water systems ranges from $0.67 to $1.84. The on going cost for the treatment ranges from <br />$0.57 to $0.74 per thousand gallons of water treated. For the City of Santa Ana, the estimated <br />cost to install such treatment systems (Ion Exchange) ranges between $5.56 and $15.28 Million. <br />The cost to operate the treatment facilities will range from $4.73 to $6.14 million per year. The <br />cost to build the treatment facilities would result in an assumed increased cost for each customer <br />of $16.46 to $45.21 in the first year and from $14.01 to $18.18 per customer annually. <br />75A2 4