New York City Housing Authority
At a Glance
Public Housing Authority
Clean and Renewable Energy, Climate Justice/Energy Equity
New York, NY
Aditya Mahadevan helped the New York City Housing Authority with a study to assess pairing solar with battery storage systems for resilience or peak load shaving at NYCHA developments.
As part of its Sustainability Agenda, NYCHA is interested in implementing solar plus storage projects at its developments, both for financial (demand response) purposes as well as resilience in the face of grid outages due to climate change. Understanding where and how to proceed with these projects will help NYCHA protect its residents, limit the Authority’s dependence on electricity generated from fossil fuels, and make progress towards achieving its ambitious GHG reduction targets.
First, Aditya developed criteria to help determine which NYCHA developments have the highest need and greatest suitability for battery storage projects. Second, Aditya researched battery technologies allowable under current regulations in New York City and identified which technologies would best serve NYCHA’s various needs. Third, Aditya investigated the existing risks that NYCHA residents face without access to backup power and created a modeling tool that NYCHA can use to calculate critical loads and battery sizing at any development. Finally, Aditya reviewed potential funding models, demand response revenue opportunities, and NYCHA’s current electricity costs and utility rates to develop cashflow and NPV projections for solar plus storage projects.
NYCHA will use the data and modeling tools compiled as part of this project to develop solar plus storage projects at their developments across the city. Where these projects are implemented, NYCHA developments would be supplied with backup power from energy generated by rooftop solar arrays and on-site battery storage in the event of a grid outage. This backup power can be used to power critical loads such as hallway lighting, elevators, and “resilience hub” community centers. When not providing backup power, the solar plus storage system would be able to generate economic value for NYCHA through peak load reduction and demand management.