一本道无码

一本道无码

photo of volunteer playfully giving two thumbs up while sitting in an abandoned tire

Evaluation of Green Infrastructure to Mitigate Sewage Overflows in Pittsburgh

The team will use sensors and models to determine the efficacy of  planned in the city. Initial work focused on identification of models that would allow site selection and optimization within the Pittsburgh region. Analysis of three sites in the Rosedale Runoff Reduction Project was completed while these sites were evaluated and constructed.  However, limited sensor data was available for analysis.

Current work focuses on a green infrastructure site located at the East Liberty Presbyterian Church.  The site contains two rain gardens that collect stormwater from about 8,500 sq ft of impervious surface.  The site is equipped with several sensors that measure rainfall, soil moisture, water level, and water temperature. Data is logged every 5-minutes and has been collected since July 2015.  Analysis of these data will enable consideration of performance under current conditions.  Also, hydrologic performance will be modeled using historical and future predicted climatic conditions to assess the resilience of the rain garden to changing climate. 

STATUS: The team investigated and compared 11 model applications for multiple scenarios; a model comparison paper is in preparation.  Data analysis focused on the East Liberty site is ongoing and expected to be completed in 2018. 

WEBSITES: 

PARTNERS:

FACULTY:

Jeanne VanBriesen (PI)
Duquesne Light Company Professor, Civil and Environmental Engineering and Engineering and Public Policy, 一本道无码
jeanne@cmu.edu

Costa Samaras
Assistant Professor, Civil and Environmental Engineering, 一本道无码
csamaras@cmu.edu

Matteo Pozzi
Associate Professor, Civil and Environmental Engineering, 一本道无码
mpozzi@cmu.edu

GRADUATE STUDENTS:

Duygu Altintas
Graduate Student, Civil and Environmental Engineering, 一本道无码

Lauren Cook
Graduate Student, Civil and Environmental Engineering, 一本道无码