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<br />09/04/92 <br /> <br />13:44 <br /> <br />URS CONSULTRNT DENUER <br /> <br />011 <br /> <br />types and drainage facilities to support a variety of earlng tank configurations for <br />;; .\-':9P9d4o.ting fish behavioral experiments. · . . <br /> <br />. : ..,' -. -A hatchery building Is located central to the faClI" . Incub~tlon. and cult to first feedlng~~~ <br />of all augmentation stocks will take place here. The hate ery. u ng will also house 811 ~.?' V <br />Intensive culture facilities for up to one-half of total augmentation stocks. Sixty <br />augmentation ponds are provided for extensive culture. <br /> <br />1 <br /> <br />j~'lr <br />, ~ <br />~ <br />..x <br />... ~ <br />::> .;) <br />') <br /> <br />~S~ <br />1; <br /> <br />.0-01847 <br /> <br />e <br /> <br />~~ <br />~ <br /> <br />~fl, <br />- <br /> <br />~t\ <br />o. <br />A maintenance and storage building Is located near the hatch8. ry and research complex. .0 ~ <br />A warehouse space Is provided to store equipment and supplies. Emergency equipment /.T./> <br />is provided for low oxygen, loss of power and general alarm conditions. Three dOmeS\i~ ' ~~ <br />residences are strategically placed outside the facility perimeter., security fence at locatlohs ~ f" <br />which allow for observation into critical areas of the hatchery co. mplex by off-duty h~ery _ ~' ~ <br /> <br />:::and their mmilies. ~~~~~~ ~/L <br /> <br /> <br />The conceptual level design prepared for this study include a hatchery building and <br />brood stock rearing ponds for augmentation; ponds for holding ditional broodstock and <br />for refugia; ~ research building and outside research facilities. This design represents <br />a state-of-the-art facility to assist In the recovery of the enda"ger d fishes. <br /> <br />The ir.tellt dunng me evcfutleA ot1he design of this "recovery facility" warto provideS fo/" I <br />design and cost Information for those components and faclll~tes which would be part of ~ <br />a model faCility. This information could then be used to assist in the final selectIOn of the ~, <br />recovery facility components; selection of the site, and wouldjalso be a starting point for ~~ <br />the preliminary design. ""l, I <br /> <br />~ ~\ <br />EstImated conceptual design level costs for capital const e develope for , , <br />o comparable unit or system basis and are shown I able 7, II an . The estimates re * ,i <br /> <br />10 ~W "'~.{.;t <br />VoQ\u~~ lSt?~~ ~ <br />~~ (J~ a...e <br />~~Q~ <br /> <br /> <br />Ouarantlne facilities are strategically placed to receive alllnCOJ!1lng live fish and/or eggs. Q\!.. <br />All biological products will be screened for diseases and quarantined prior to entrance to <br />the remainder of the facility. Access to all facilities Is secured behind locking gates. <br /> <br />Water conditioning functions have been designed for all three water types. Heating or <br />cooling requirements wUl be a function of the temperature of the incoming supply and the <br />specific life stage needs of the various fish stocks. In additior, the design incorporates <br />water treatment facilities for degassing, aeration, screening and disinfection. Wastewater <br />from all research. brood and augmentation culture operations will be adequately treat~d <br />to prevent escapement and to remove Solids prior to discharge. Research facility effluent <br />water will be directed to a pretreatment pl.?nd prior to screening to allow for special <br />treatment, such as removal of pathogens, prior to discharge to settlement ponds. All <br />quarantine water will be disinfected prior to discharge to the effluent disposal facility. <br /> <br />