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4TH STREET RESIDENCE HALLW
ATE
R: R
educ
tion,
Col
lect
ion,
Tre
atm
ent,
EN
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: On-
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arve
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WA
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E: R
educ
e, R
e-us
e, R
ecyc
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3. Low-Flow FixturesSimply installing low-flow fixtures reduces the water demand from 53.58 gal./person/day using typical fixtures compared to 19.47 gal./person/day with low-flow fixtures, a 64% reduction.
4. HydroponicsVertical farming produces crops that use 70% less water than conventional farming and produces 10x the amount of food with the same footprint.
1. Constructed WetlandA sub-surface constructed wetland provides treatment of up to 7,275 gal/day of wastewater to be re-used for toilets, irrigation, and laundry meeting well over 100% of non-potable water demand. Subsurface flow wetland eliminates odor and prevents contact with the water. All water flows beneath layers of planted gravel so that no surface water is exposed.
2. Green Roof22,000 sf of extensive green roof planted with native prairie grasses will reduce stormwater runoff, reduce urban heat island-effect, moderate interior temperatures, increase biodiversity, and enhance the aesthetic quality.
5. Rainwater HarvestingRunoff from roofs will be captured and stored in cisterns to be used for irrigation and hydroponic farming. Excess rainwater infiltrates through impervious surfaces and is further channelled into the retention pond
7. Solar Thermal CollectorsDesigned to meet 75% of domestic hot water load and 30% of heating load.
9. HydroponicsOn a large scale, the hydroponic farming technique will help alleviate agricultural runoff, restore cultivated fields back to their native ecosystems, and reduce energy input and carbon emissions from food cultivation, harvesting, and transportation.
6. Photovoltaics17,550 sf of photovoltaic panels generate 714,240 KBtu, meeting 30% of electric load annually.
8. DaylightingNarrow floor plates (48’) and 30% glass to wall area allows most of the interior spaces to be naturally lit. This will reduce energy consumption for electric lighting by 25%.
13. HydroponicsNutrients from organic compost and blackwater could be used to feed crops in a hydroponic growing system.
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10. Constructed WetlandSolid organic waste extracted from the wastewater treatment system can be recovered and exported to a central anaerobic digestor on campus. This waste can be converted to methane that is used to produce electricity.
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11. RecyclingThe Residence Hall has a potential to recycle 79% of all waste. This is an ambitious goal requiring superb waste management, recycling infrastructure and resident awareness/education. One alternative would be to implement a single stream waste that would be meticulously sorted to capture all recyclables.
12. ReuseCommon dormroom items such as storage containers could be reused or rented between years rather than disposed of.
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