The goal of this project is to improve the indoor air quality and thermal comfort of at-risk urban communities. Indoor air quality is the leading housing health concern of both renters and homeowners with more than one in three renters and one in four homeowners expressing concerns over, for example, dust, mold, dampness, and lack of sufficient ventilation. The Environmental Protection Agency ranks indoor air pollutants amongst the top five environmental risks to the public as they can be up to 100 times higher than outdoor pollutant levels. However, current limitations in sensor spatial and temporal resolution have restricted the ability to accurately forecast indoor air quality. This planning grant will support the development of a research plan for a sensing, modeling, communication and visualization platform for forecasting indoor air quality incorporate input from a set of stakeholders—including, residents, activists, local government policy makers and regulators. The project will be based in New York City and the preliminary research will be conducted in two communities: one in the South Bronx and another in Harlem.
The long-term aim is to establish a technological framework to combat socioeconomic inequities in exposure to air pollution that could be scaled up and applied across different cities. The planned experiments will help to identify the primary indoor polluatnts that impact the communities partnering on this project and will help to partition the impacts of outdoor and indoor pollutants on indoor air quality. The work will also identify the role played by urban morphological and human behavioral characteristics on indoor livability and will allow for testing of various sensing and communication platforms. Last, it will involve piloting a data visualization tool that will inform communities and public health officials about unsafe indoor air quality and temperature conditions and suggest appropriate actions.
Abstract
Prathap Ramamurthy
Prathap Ramamurthy joined CCNY in 2015 where he is an Assistant Professor at the Department of Mechanical Engineering and Earth System Science & Environmental Engineering. His research examines the relationship between climate and human activity in urban areas. His work combines scaleable field experiments with numerical models to characterize turbulent transport of mass, momentum and energy in the urban boundary layer. His current projects include understanding the mechanisms that exacerbate urban heat island intensity in large cities and their synergistic interaction with heat waves, and developing mitigation strategies to moderate the urban climate. He is also working with the NOAA-CREST center to operationalize remote sesning tools to study urban climate. Another area of active reseach is to understand the dynamics of coastal urban boundary layer dynamics and their impact on convective cloud and thunderstoms.
Prathap Ramamurthy is a Member of American Metorological Society's Urban Climate Board. He is also an Associate Editor of ASME's Solar Engineering Journal.
Performance Period: 10/01/2020 - 09/30/2021
Institution: CUNY City College
Award Number: 1951875
Core Areas:
Health and Wellbeing
Project Material
Presentations