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1.2.1 Collection of Baseline Information. After acquiring mapping and population data for the <br />Study area in electronic format from the City and the University, prepare a map of potential <br />water reuse locations in the service area. In addition, the Engineer will collect information on <br />the locations and approximate acreages of areas with potential to use reuse water for irrigation, <br />and existing and projected volumes of reuse water for potential commercial and industrial uses. <br />1.2.2 Assessment of Needs. Provide a description of current and projected water demands for <br />the City and the University with a comparison of current and projected water supplies. <br />1.3 TASK 3 — DEMAND DEVELOPMENT <br />The purpose of this task is to compile available information regarding wastewater <br />effluent quantity and quality and identify /quantify potential opportunities for water reuse in the <br />study area. In this task, the Engineer will: <br />1.3.1 Obtain Local Water Consumption and Wastewater Data. Collect available population <br />and land use data for the study area, inclusive of the City and the University. In addition, the <br />Engineer will analyze City and University data for water consumption, wastewater generation <br />rates, and landscape irrigation rates. <br />1.3.2 Evaluate Potential Uses. Describe the potential available market for reuse water, <br />including: <br />a) Potential water reuse customers, or categories of potential uses, including municipal, <br />domestic, industrial, agricultural, and power generation, expected use, peak use, on- <br />site conversion costs, and desire for water reuse. <br />b) Any associated water quality and associated treatment requirements. <br />c) Description of any consultations with potential reuse water customers. <br />d) Description of current water reuse including the type and amount of reuse, and a map <br />of existing pipelines and use sites. <br />e) A summary of water reuse technology currently in use and an assessment of <br />alternatives, including satellite treatment systems. <br />1.3.3 Develop Reuse Water Demands. Use peak summer water use data and landscaped area <br />information to develop potential demands to be addressed as part of this Study. The Engineer <br />will also develop standards for peak demands for cooling and other industrial uses using data <br />provided by the University. <br />1.4 TASK 4 — CONCEPTUAL PLANNING AND DESIGN <br />The purpose of this task is to evaluate two alternatives for ensuring a supply of high <br />quality water for reuse along with possible locations for pumping and storage facilities. In this <br />task, the Engineer will: <br />1.4.1 Identify Service Options. Prepare a conceptual plan for reuse water transmission mains <br />which will consider rights -of -way, utility coordination, and future maintenance. The Engineer <br />will also evaluate alternatives for treatment, transmission and storage based on accessibility, <br />capital cost, and cost of operations and maintenance. The Engineer will perform site analyses in <br />Direct Water Reuse Feasibility Study 2012 — Espey <br />c3 <br />