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Plan of Study-Greeley and Loveland Irrigation System Rehabilitation Feasibility Study Page 3 <br /> Products <br /> 1. A task memorandum will be prepared listing available project information and stating ECI's <br /> understanding of environmental and water rights issues which will impact the project. <br /> 2. The information developed for the existing facilities inventory will be used for Task 3 Existing Facilities <br /> Evaluation. <br /> Task 2-Hydrologic Analysis <br /> Objective: <br /> State approval for repair and rehabilitation will require that the Company's dams meet current state dam safety <br /> standards. The State Engineer's Office(SEO)presently uses 1988 ENR 55A for their hydrologic analyses. The <br /> State is presently sponsoring a Colorado regional probable maximum precipitation(PMP)study. The study will <br /> impact reservoirs above elevation 7500 feet so it will not have any future impacts on this study. The PMF's will <br /> be used in the following tasks to evaluate the existing dams and appurtenant structures and develop alternatives. <br /> Methodology: <br /> 1. The local and general PMP storms will be computed based on the HMR-55A. <br /> 2. 100-year flood hydrographs will be developed based on the NOAA Atlas 11. <br /> 3. Existing reservoir elevation-area-capacity curves will be verified with existing topographic maps. <br /> 4. Spillway and outlet rating curves will be verified. <br /> 5. Preliminary reservoir flood routing will be performed to check the spillway capacity adequacy. <br /> Products: <br /> 1. A memorandum will be prepared describing the analytical methods and results of the hydrologic <br /> evaluation. <br /> 2. Flood hydrographs for the local and general PMP storm events and 100-year flood hydrographs. <br /> Task 3-Existing Facilities Evaluation <br /> Objective: <br /> The Company's system has never been hydraulically modeled to identify possible operation issues. Reservoir <br /> and canal operations need to be analyzed to identify restricted flow reaches due to structural and nonstructural <br /> issues. <br /> Methodology: <br /> 1. A decision support system (DSS) hydraulic simulation model of the Company's system will be <br /> developed using Cana1Man. Cana1Man was ordinally developed by the USBR and has been modified <br /> for the windows environment by Utah State University. <br /> 2. Calibrate the model with existing weir rating curves and historical flow depths. <br /> 3. Perform hydraulic simulations using varying canal discharges and system operation rules. <br /> 4. Identify problem reaches and structures within the system to be addressed in Task 4 Alternative <br /> Development. <br /> F:\PROJECTS\GREELEā€”I\CWCB\GRELOV.PRO <br />