Grantee Research Project Results
2019 Progress Report: Optimal Energy Portfolios to Sustain Economic Advantage, Achieve GHG Targets, and Minimize PM2.5.
EPA Grant Number: R835879Title: Optimal Energy Portfolios to Sustain Economic Advantage, Achieve GHG Targets, and Minimize PM2.5.
Investigators: Kleeman, Michael J. , Chen, Shu-Hua , Yeh, Sonia , Ogden, Joan , Muller, Nicholas
Institution: University of California - Davis , Middlebury College
Current Institution: University of California - Davis , Carnegie Mellon University
EPA Project Officer: Keating, Terry
Project Period: April 1, 2016 through March 31, 2019 (Extended to March 31, 2021)
Project Period Covered by this Report: April 1, 2019 through March 31,2020
Project Amount: $790,000
RFA: Particulate Matter and Related Pollutants in a Changing World (2014) RFA Text | Recipients Lists
Research Category: Air , Climate Change
Objective:
This research will identify major sources and composition of PM2.5 and related pollutants in the year 2050 resulting from different energy portfolios that optimize economic outcomes under different assumptions about available technology and climate change. The key hypothesis to be tested in the proposed research is that future PM2.5 sources, composition, chemical reactions and spatial distributions will drastically change as a function of future energy portfolio and technology adoption. An ensemble of PM2.5 and ozone exposure scenarios will be produced using results from ongoing research combined with multiple models for energy portfolio optimization, criteria pollutant emissions, air quality downscaling, and health effects analysis. Two state-of-the-science energy models will serve as the foundation of this analysis, along with coupled meteorological & air quality models applied at scales ranging from statewide (100’s km) to neighborhood (250m). Interactions between smart growth and population exposure will also be considered in rapidly growing areas. The outcomes from the proposed research include economically optimized energy portfolios for California that meet the goal of an 80% reduction in GHG emissions by the year 2050, the PM2.5 and ozone outcomes associated with those portfolios, and the air pollution health costs associated with those energy portfolios for different socio-economic segments of society.
Progress Summary:
Criteria pollutant emissions inventories were created for six energy scenarios that achieve GHG reductions through different approaches. Air quality simulations were performed for each scenario under four different meteorological conditions at 24km and 4km spatial resolution across California. The BenMAP model was used to process the results in order to predict health savings for different population segments. High-resolution air pollution models (1km resolution and 250m resolution) were tested over Los Angeles to determine the optimal resolution for environmental justice analysis. Rigorous ozone source apportionment techniques for the SAPRC11 chemical mechanism were further refined. The climate impact of reduced air pollution in California under a future GHG reduction strategy was analysis. Multiple manuscripts are in preparation describing all aspects of the project results.
Future Activities:
High resolution simulations will be conducted over dense urban areas across California. Health savings for different GHG mitigation scenarios will be calculated. Further manuscripts will be written summarizing the project results.
Journal Articles on this Report : 2 Displayed | Download in RIS Format
Other project views: | All 11 publications | 5 publications in selected types | All 5 journal articles |
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Type | Citation | ||
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Zapata CB, Yang C, Yeh S, Ogden J, Kleeman MJ. Estimating criteria pollutants using the California Regional Multisector Air Quality Emissions (CA-REMARQUE) model v1.0. Geoscientific Model Development 2018;11(4):1293-1320. |
R835879 (2017) R835879 (2018) R835879 (2019) R835879 (Final) |
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Zapata CB, Yang C, Yeh S, Ogden J, Kleeman MJ. Low carbon energy generates public health savings in California. Atmospheric Chemistry and Physics 2018;18(7):4817-4830. |
R835879 (2017) R835879 (2018) R835879 (2019) R835879 (Final) |
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Supplemental Keywords:
Source-oriented external mixture, air quality, epidemiology.Relevant Websites:
Progress and Final Reports:
Original AbstractThe perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.