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<br />I <br />I <br />I <br />I <br /> <br />TABLE 5 (continued) <br /> <br />DISTRICT WELLS <br /> <br />CHLORINATION EQUIPMENT <br /> <br />I <br /> <br />Well Number 2: <br /> <br />Wallace-Tiernan Chlorinator <br />Serial No. YY37l98 <br />Unit U23860 <br />Chlorine liquid supply <br /> <br />I <br /> <br />I <br />I <br /> <br />Goulds HB 707 Water Gun <br />Model C48L2DBllA4 <br /> <br />Well Number 3: <br /> <br />Via Well No. 2 Chlorinator by pumping <br />directly from Well No. 3 to Tank No.3. <br /> <br />I <br />I <br /> <br />Well Number 4: <br /> <br />Wallace-Tiernan Chlorinator <br />Serial No. JJ 37198 <br />Unit U23860, U-lOO <br />Chlorine gas supply <br /> <br />I <br /> <br />I <br /> <br />D. Future Water Sources <br /> <br />I <br /> <br />The future district demand for water has been estimated to be 107 gpm. <br />This. figure was derived from supplying 548 units with water at a rate of 80 <br />GPCD with an occupancy rate of four persons per unit. The present production <br />capacity of the four wells is estimated to be 44 gpm during the winter months. <br />Thus, 63 gpm in new water supplies will be needed for ultimate expansion in <br />the next 15 to 20 years. <br /> <br />I <br />I <br />I <br /> <br />All future water supplies will be developed from additional wells. It is <br />difficult to assess the number of wells needed to produce the additional 63 gpm <br />capacity because of the variability in the production of the wells within the <br /> <br />I <br />I <br /> <br />I <br /> <br />-34- <br />