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<br />APR-24-1996 15:56 <br />I <br />I <br />I ~)S o-h-w- I b.~ \ <br />I ~~} \ ) <br /> <br />~6. RTiWR: M,odify the ST A TEMOD input f1l.es to represent the three additional <br />! M&I nodes. (becau.~e these nodes are modeled as depletive, assume an effieiency <br />i .Id, of Joo%, and a large capacity) <br />17. ~ -R'fiWR: Document the location of the three additional aggregated M&I nodes <br />\ . A" j an~ the detenninaUon of their water use time series in a 2-4 page memo for State <br />U 0...... \)( v i revIew. <br />, \,-\0 :8. RTi~. .Incorporate S~mmcnts. <br />'\ "'\ ! R \ (,., \\.e-'tr1:~ -(:\ /V-,-,' . <br />Delivefahles: / <br />I <br />>~I. <br />~v ,- <br />I <br />2.10. : Aggregate reservoirs and stock pond.s <br />I <br />Objec~ve: For the White River Basin create II roap showing all reservoirs. From this map, <br />physiCjlllly aggregate and model the reservoirs and stock ponds not explicitly modeled in Phase II. <br />This t<jsk is to be accomplished through the following specific work tasks: <br />1 <br />I <br />APl'r~h: <br /> <br />"Ny; ~ 11 RTiWR: Create a reservoir list for the White River Basin and sort .reservoirs into <br />~"'" I,:' three distinct categories; 1) those modeled in Pha~ II, 2) those not modeled in <br />Pbase II that have a net storage decree greater than 100 acre-feet, and 3) those not <br />.~j modeled in Phase II that have a net stomge decree Jess than 100 acre-feet. <br />~ ! 2. RTiGIS: Create a site file (coverage) including lat1lon coordinates for all <br />I \ reservoir:> in the basin. Plot the reservoir covemge and hydrology on a 24 by 36 <br />'I inch map. Shade differently each of the three re:;crvoir eatcgories. Reservoinl <br />: that do not have a latllon coordinate from the database will not be plotted. . ~ If'./"" <br />~.l'-iGm tt............p, identify locations for amaximumoft~~lIJed~ \':5 <br />Skk. ; rcservoirnodes, ~~]1. \4<\fc:o.II" ~ ~ L.""-'~~ <l ~ 1 F'" <br />8 i 4. RTiWR: Determine the cumulative net absolute storage decree for storage types '"' , \,\.. <br />! of irrigation and non-itrigatlon. This wUl be accompli:>hed by searching the data {).\,~ <br />base and sorting the net absolute storage decrees by "use_type" from the "o$' <br />"wrstatus_use" table. Any unresolved data issues in this table and field will not t"l \ <br />be resolved under this subta.~ but will~be ~ed tola Xle and will ~equire a <br />change order 10 address. Ct~~""1 :~c.\: 'tc.kl(-oo\.l'- \1,- s,,' I <br />RTiWR: Obtain the cumulalivc ftet storag~ 9f all stock ponds as derived u t <br />from the Pha~e II consumptive use analysis., :n.c:. <br />:R.Ti"lR: Prepare up to three aggregated reservoir nodes with two accounts <br />(irrigation and non-irrigation) in each reservoir and locate these nodes within the <br />Phase III model network through a visual analysis of the GIS map with more <br />emphasis given to those reservoirs with storage decrccs greater than 100 acre-feel <br />The irrigation account would have a capacity estimated by the cumulative net <br /> <br />., <br /> <br />>~5. <br />~ <br />i 6. <br />S~ <br /> <br />0040 <br /> <br />FIU1 RIVERSIDE lECHNCLOGY.INC <br /> <br />p.ea' <br /> <br />. ..... ,~-,.., . .." <br /> <br />,10 <br /> <br />1~~ <br /> <br />A memorandum describing the aggregated M&I demands, their associated <br />chardC1eristics (demand, location, efficiency, return location). <br />ST A TEMOD input f1les reflecting 100 % of the M&I use within the basin. <br />