Running the Eco-Numbers
Students in the course Math Modeling and Sustainability analyze problems of environmental sustainability.
A Praxis course, Donnay鈥檚 class found students working in teams to assist a community partner in examining a sustainability problem.
Team Comcast
The Partner: Comcast鈥檚 Sustainability Division, headed by BMC Trustee Susan Jin Davis 鈥86, is constantly looking for ways to reduce the company鈥檚 impact on the environment while improving the communities it serves.
Team Members: Ingrid Bethuel 鈥18, Madeline Cherniack 鈥19, Adele Hu 鈥18, and Sohini Maniar 鈥18 with Allie Wiegel 鈥16 from Comcast鈥檚 Sustainability Division.
The Challenge: The Comcast fleet鈥攐ne of the country鈥檚 largest鈥攑roduces large quantities of greenhouse gas. What will happen if the company moves to a fully electric fleet?
The Project: The team analyzed whether making the switch to electric would produce fewer harmful emissions and make financial sense. They also asked whether the electric vehicles should be garaged at technicians鈥 homes or at a central garage.
The Findings: A key finding was that operating an electric vehicle is much less expensive ($672 per year) than a gas-powered vehicle ($3,247 per year).
Team EQUAT
The Partner: Earth Quaker Action Team (EQUAT) is a grassroots social justice organization fighting for a just and sustainable economy.
Team Members: Hee-Eun Kim 鈥19, Charlotte Lin 鈥19, Maia Rabinowitz 鈥20, and Nithya Sivakumar 鈥19 working with EQUAT members (and Bi-Co alums) Ryan Leitner 鈥16 and Ben Safran (HC 鈥13).
The Challenge: How can EQUAT persuade PECO, an energy company, to increase the amount of energy it generates from renewable sources from its current rate of 4 percent to 20 percent by 2025?
The Project: Students calculated the 鈥渟ocial cost鈥 of PECO鈥檚 energy portfolio, where social cost is a measure of the negative impact that CO2 emissions have on society (estimated by the EPA to be roughly $40 per metric ton of CO2 emissions).
The Findings: If PECO does not change its energy mix (currently 31 percent coal, 31 percent natural gas, 4 percent renewables plus nuclear), the social cost in the decade 2025鈥35 would reach $6.5 billion. If PECO increases renewables to 20 percent and decreases its coal use by a corresponding amount, the social cost to society over that decade drops to $2.9 billion.
Team Freight Farm
The Partner: Mary Cuigini 鈥20.
The Team Members: Leah Baker 鈥19, Jill Li 鈥18, Natalie Meacham 鈥19, and Bisma Naqvi 鈥18.
The Challenge: What is the cost-benefit to 今日吃瓜 of having an on-campus freight farm system (an up-cycled shipping container repurposed to grow produce hydroponically)?
The Project: The team studied the cost and benefits of using the system to grow produce for 今日吃瓜鈥檚 dining halls, thereby reducing the College鈥檚 purchasing costs as well as reducing its carbon footprint, because produce would not have to be trucked from far away.
The Findings: Although the initial cost of the freight farm system would be high ($85,000), the team argued that savings over time, combined with the less quantifiable benefits (educational opportunities for students who would use the farm as a living laboratory and raising the College鈥檚 sustainability profile), would make the freight farm a positive investment.
Team Solar
The Partner: Philadelphia鈥檚 Office of Sustainability. As part of its GreenWorks sustainability master plan, Philadelphia is committed to reducing its carbon footprint and is eager to develop more renewable energy.
Team Members: Shannon Fischer 鈥20, Hezel Gadzikwa 鈥18, Henry Nye (HC 鈥20), and Kaitlin Reese (HC 鈥20), working with Mardi Dietze and Paul Clee from Philadelphia鈥檚 Office of Sustainability.
The Challenge: Which City-owned buildings would be most suitable to be equipped with solar panels?
The Project: Students analyzed data about solar intensities on the rooftops of City buildings.
The Findings: The students found that the majority of the buildings in their top 10 list are correctional facilities. Their projection for the #1 building, the Philadelphia Detention Center, showed that solar panels could produce a savings of $170,000 per year in electricity costs.
Team Storm Water
The Partner: Township of Havertown, PA.
Team Members: Namrata Basu 鈥19, Amelia McCarthy 鈥19, Maria Minaya 鈥19, and Emily Shinault 鈥18, working with local environmental engineer Derron LaBrake.
The Challenge: How can the Township of Havertown mitigate flooding in its Chatham Glen neighborhood?
The Project: The team examined whether the installation of rain gardens in peoples鈥 yards, uphill from the flood-prone region, would significantly reduce the flooding.
The Findings: Rain gardens alone, even if placed in every yard, would not divert enough water to prevent flooding. However, rain gardens combined with mitigation efforts on Township-owned land would significantly reduce the risk of flooding.
Over the summer, Donnay continued building on relationships with Philadelphia鈥檚 Office of Sustainability. He worked with math major Meagan Murray-Bruce 鈥20, who analyzed Streets Department data to carry out a cost-benefit analysis of converting street lights in Philadelphia to LED bulbs.
Published on: 11/15/2018