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<br />. 2. <br /> <br />. <br /> <br />STATE: Execute the data preprocessor to the CU model, makestr. Evaluate the log file <br />makestr,/og to determine structures not contained in the structure file (*,str), Revise the makestr <br />input file to incl ude structures without location data such as aggregated irrigation structures. In <br />addition, assign climate data to each aggregated irrigation structure to be the same as a nearby <br />County I HUC. <br />3. Boyle: Run the OMI demandts in "crop" mode to get the crop mix (*.cds) for each irrigation <br />structure in the direct diversion station file (*-dds). For aggregated irrigation structures, use the <br />crop mix identified in Task 3.03, If a revised version of demandts is available, include a command <br />line option which allows a crop mix to be seecified for the aggregated i~i,g~i.9!} s.tructures since no <br />data is available in the database. If a revised version of demandts is not available, hand edit the <br />crop mix file (* ,cds) to include aggregated irrigation structures, <br />4, Boyle: Execute the CU model to generate an on-farm consumptive irrigation requirement file <br />(* .ddc) for both explicit and aggregated modeled structures, Use the direct diversion station file <br />(* .dds) file from Task 3.07 and the crop mix file (*-cds) detern1ined above, <br />5. Boyle: Revise the conm1and files associated with the OMI demandts and execute them to: <br />. calculate diversion demands for explicitly modeled structures and aggregated irrigation <br />structures, using the irrigation efficiencies calculated in Task 3.08, <br />. create a historical diversion file (*.ddh) that includes historic diversions for explicitly <br />modeled structures and estimated demands for aggregated structures, <br />. create historical direct diversion demand file (*H.ddm) that includes historic diversions <br />for explicitly modeled structures and estimated demands for aggregated structures, <br />. create calculated direct diversion demand file (*C.ddm) that includes calculated demands <br />for both explicit and aggregated structures. <br />. for explicitly modeled irrigation structures, set efficiencies in the direct diversion station <br />file (*-dds) based on historical diversions. <br />. for non-irrigation structures, set efficiencies in the direct diversion station file (*dds) <br />based on use type. <br />. set diversion capacities in the direct diversion station file (* .dds) based on historical <br />di versions. <br />6. Boyle: Visually compare Phase IIIa results to Phase II results for explicitly modeled stf4ctures <br />using the UNIX command gdilT. Report any concerns to the STATE for resolution, <br />7. Boyle: Prepare a Task Memorandum 3.09 which swrunarizes this Task. Witl1in two weeks of <br />receiving a draft memo, the State will provide written comments on it. Boyle will finalize the <br />memo within two weeks of receiving comments. <br /> <br /> <br />Oeliverables: <br />I. STATE: A list of structures and their associated CountylHUC assignment in the Yampa River <br />Basin. Default County /HUC location data for each water district. <br />2. STATE: Makestr results and data that includes structures that did not have information in the <br />database. <br />3. Boyle: A crop distribution file (*,cds) that includes crop pattems for both explicit and aggregated <br />structures. <br />4. Boyle: Consumptive Use model results for both explicit and aggregated structures, <br />5. Boyle: Demandts results for both explicit and aggregated structures that include: <br />. A historical direct diversion file (* .ddh). <br /> <br />Phase Ill. Scope of Services <br /> <br />1155 <br /> <br />Jan 31,1997 <br /> <br />A.29 <br /> <br />&-I'> <br />~ <br />