/ Awards / EPA Honors Winners of 2015 Campus RainWorks Challenge

EPA Honors Winners of 2015 Campus RainWorks Challenge

Matt Ball on April 29, 2016 - in Awards, Design/Engineering, Stormwater

In 2015, seventy-seven student teams from 26 states submitted green infrastracture designs for the fourth annual Campus RainWorks Challenge. These projects show how managing stormwater at its source can benefit the community and environment by reducing the burden on local water infrastructure, managing local flooding, reducing urban heat islands, and lowering energy demands.This round of competition encouraged students to learn about the current or potential impacts of climate change on campus and demonstrate how using green infrastructure practices on their campuses can build resiliency to those impacts while effectively managing stormwater runoff.  In April 2016, EPA announced four winners and two honorable mentions for the 2015 Campus RainWorks Challenge.

“Our Campus RainWorks Challenge winners inspire the next generation of green infrastructure designers and planners,” said Joel Beauvais, deputy assistant administrator for EPA’s Office of Water. “All the submissions included innovative approaches to stormwater management.”

EPA invited student teams to compete in two design categories — the Master Plan category, which examines how green infrastructure could be integrated into a broad area of a school’s campus; and the Demonstration Project category, which examines how green infrastructure could be integrated into a particular site on the team’s campus. Teams of undergraduate and graduate students, working with a faculty advisor, developed innovative green infrastructure designs in one of the categories, showing how managing stormwater at its source can benefit the campus community and the environment.

The 2015 Campus RainWorks Challenge winners are:

University of Texas at Arlington

1st Place, Master Plan category

mp_1-univ_of_texas_at_arlington-sust_impact-m42The team’s design concept, titled, “Eco-Flow: A Water-Sensitive Placemaking Response to Climate Change,” transforms the campus through green infrastructure placed in relation to the natural water flow of Trading House Creek. The creek flows from northwest to south connecting the campus. The plan proposes to increase biodiversity, restore soil quality and watershed hydrology, and implement photovoltaic cells to supply alternative energy. The plan has the potential to reduce stormwater runoff 25 inches annually, generate more than 1 million kilowatt hours each year, increase campus tree coverage 89 percent, and mitigate 5,000 tons of CO2.

University of Maryland, College Park

1st Place, Demonstration Project category

dem_univ_of_mdThe design is centered on reimagining a major, five-acre parking lot to retrofit it for improved stormwater management. The design features reduce 40 percent of impervious surface; add over 17,000 square feet of new vegetation space, 56 new trees for shaded parking spaces, and 8,640 square feet of pedestrian space; and, reduce 12.3 metric tons of CO2 annually. The team’s design has good potential for implementing on other campuses.

Stevens Institute of Technology

2nd Place, Master Plan category

mp_2-stevens_institute_of_technoology-m18The team proposed the first stormwater management plan for the Stevens’ campus, “The Living Laboratory.” The design includes 29 green infrastructure techniques, which have been applied to problem areas to reduce runoff, contaminant discharge, and potable water usage. The Living Laboratory provides a practical example for urban campus green infrastructure and introduces classroom and community educational opportunities. The team worked with Stevens Facilities and Events Management to ensure the proposed design is aligned with future growth of campus, can be maintained, is aesthetically pleasing, and economically responsible.

University of California, Berkeley

2nd Place, Demonstration Project category

dem_2-univ_of_cal_berk-d70The team chose a creek site on campus that was the university’s first botanical garden with many artificial landscape features that cause drainage problems. While it is home to a legacy of exotic plants, the site lacks habitat conducive to supporting native species and reducing runoff. The team proposes a design that will store 37,000 cubic feet of stormwater runoff, increase pervious surface are by 33 percent and increase native plant species. The design has potential to reduce flooding and restore the ecological diversity of the area.

EPA also recognized teams from the University of Texas at Arlington (Master Plan category) and Northeastern University (Demonstration Project category) as honorable mentions for their entries. EPA will announce the fifth annual Campus RainWorks Challenge in the summer of 2016.

More details on the winners can be found here.

Matt Ball

About Matt Ball

Matt Ball is founder and editorial director of V1 Media, publisher of Informed Infrastructure, Earth Imaging Journal, Sensors & Systems, Asian Surveying & Mapping and the video news site GeoSpatial Stream.

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