Please use this identifier to cite or link to this item: http://hdl.handle.net/10125/56012

Modeling Cost Effectiveness of Green Infrastructure at Stormwater Runoff Critical Points in Maunalua Bay Watershed, Oʻahu

Item Summary

dc.contributor.author McGrath, Casey
dc.contributor.author Ruisi-Besares, Pia
dc.contributor.author Farrant, Nicholas
dc.contributor.author Piena, Wesley
dc.date.accessioned 2018-05-11T23:04:02Z
dc.date.available 2018-05-11T23:04:02Z
dc.date.issued 2018-05-11
dc.identifier.uri http://hdl.handle.net/10125/56012
dc.description.abstract Like many urbanized areas, the watersheds surrounding Maunalua Bay are highly developed with impervious surfaces and channelized waterways. This can cause issues with stormwater. Stormwater is water that flows over impermeable surfaces (roads, roofs, etc.) after heavy rain events. Stormwater can pick up pollutants as is flows down slope, negatively impacting the health of water bodies. It can also cause flood events impacting infrastructure and lives Green Infrastructure (G.I.) techniques can be implemented to improve conventional infrastructure and stormwater management. Green infrastructure is an approach to stormwater management that tries to mimic the natural water cycle. Most green infrastructure traps and treats water from a storm event and then slowly releases it back into the environment allowing for more control on the quantity of water being released. We created a map that identifies areas in Maunalua that have the highest potential for stormwater mitigation via G.I. Using existing maps on land cover, slope , soil permeability and storm drain density, we created a model that ranks each map attribute in terms of stormwater risk. This map can assist regional stakeholders in prioritizing and evaluating the costs and benefits of adopting G.I. techniques.Our model identified two stormwater "hotspots" within the Kamilo Iki watershed. One "hotspot" validated the model with existing green infrastructure already present. The other "hotspot" lacked green infrastructure. Using the EPA stormwater calculator we identified the most cost effective green infrastructure for a residential neighborhood.
dc.description.sponsorship Malama Maunalua
dc.format.extent 19 page final report, supporting documents and map files
dc.language.iso en-US
dc.subject Runoff
dc.subject Urban runoff
dc.subject Sustainable development
dc.subject Suitability Mapping
dc.subject Critical Source Areas
dc.subject Green Infrastructure
dc.title Modeling Cost Effectiveness of Green Infrastructure at Stormwater Runoff Critical Points in Maunalua Bay Watershed, Oʻahu
dc.type Term Project
dc.type.dcmi Text
dc.contributor.instructor Kirsten Oleson, Susan Crow
Appears in Collections: 2018 Maunalua Bay Case Study


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