Brooke E. MasonUniversity of Michigan | U-M · Department of Civil and Environmental Engineering
Brooke E. Mason
Doctor of Philosophy
About
7
Publications
1,129
Reads
How we measure 'reads'
A 'read' is counted each time someone views a publication summary (such as the title, abstract, and list of authors), clicks on a figure, or views or downloads the full-text. Learn more
95
Citations
Introduction
Skills and Expertise
Additional affiliations
August 2018 - present
Position
- Research Assistant
Description
- Building a toolbox that extends EPA's SWMM capabilities to model pollutant transformations. This toolbox is needed to move the research field forward in order to more accurately model water quality with the ultimate goal of improving water quality.
May 2017 - August 2018
Position
- Research Assistant
Description
- This work leverages our expertise in stormwater modeling with latest developments in ultra-low power wireless sensing and cloud-computing.
January 2017 - May 2017
Position
- Research Assistant
Description
- Classes include Fluid Mechanics, Statics, and Professional Development for Civil and Environmental Engineers. Tasks include grading, office hours, review sessions, classroom assistance, and more.
Education
January 2017 - August 2018
May 2015 - December 2016
August 2008 - May 2012
Publications
Publications (7)
The impact of green infrastructure (GI) on the urban drainage landscape remains largely unmeasured at high temporal and spatial scales. To that end, a data toolchain is introduced, underpinned by a novel wireless sensor network for continuously measuring real-time water levels in GI. The internet-connected sensors enable the collection of high-reso...
The impact of green infrastructure (GI) on the urban drainage landscape remains largely unmeasured at high temporal and spatial scales. To that end, a data toolchain is introduced, underpinned by...
Retrofitting urban watersheds with wireless sensing and control technologies will enable the next generation of autonomous water systems. While many studies have highlighted the benefits of real-time controlled gray infrastructure, few have evaluated real-time controlled green infrastructure. Motivated by a controlled bioretention site where phosph...
Retrofitting watersheds with sensing and control technologies promises to enable autonomous water systems, which control themselves in real-time to improve water quality. To realize this vision, there is a need to improve the degree of fidelity in the underlying representation of pollutant processes. This paper presents an open-source Python packag...
Intelligent irrigation is one sustainable solution to reduce demands on water resources and adverse environmental impacts from irrigation. Specific case studies have quantified water savings with intelligent irrigation, however, water savings have not yet been quantified for urban agriculture or compared across climates. Before urban agriculture im...
Recycling was one of the first steps many colleges and universities took to make their campuses greener. Schools began to realize the benefits of recycling including reduced costs for landfilling, saving raw materials, pollution prevention, and many others. Not all campus recycling programs operate under the same parameters and can differ significa...
An ex-ante life cycle inventory was developed for single walled carbon nanotube (SWCNT) PV cells, including a laboratory-made 1 % efficient device and an aspirational 28 % efficient four-cell tandem device. The environmental impact of unit energy generation from the mono-Si PV technology was used as a reference point. Compared to monocrystalline Si...
