Jeffery Greenblatt has been involved with modeling pathways for California's low-carbon energy future since 2009, publishing a number of studies including a recently-published analysis of California greenhouse gas policies in Energy Policy, an electricity-focused analysis in Environmental Research Letters, and the prominent California's Energy Future study sponsored California Council on Science and Technology. He also works on the life-cycle assessment of emerging technologies including artificial photosynthesis (sponsored by DOE's Joint Center for Artificial Photosynthesis) and autonomous vehicles, and is involved with both DOE's Quadrennial Technology Review and Quadrennial Energy Review efforts. From 2009-2013, he oversaw refrigerator economic modeling for the DOE efficiency standards program. He has almost 15 years of experience in climate change and low-carbon energy technology assessment and modeling. Prior to joining LBNL in 2009, Dr. Greenblatt worked at Google on the RE Twitter handle: @energygeek
Jeff Greenblatt
Publications
2020
"Flexible grid-based electrolysis hydrogen production for fuel cell vehicles reduces costs and greenhouse gas emissions." Applied Energy 278 (2020) 115651. .
2019
"Electrifying urban ridesourcing fleets at no added cost through efficient use of charging infrastructure." Transportation Research Part C: Emerging Technologies 105 (2019) 385 - 404. .
"Electrifying urban ridesourcing fleets at no added cost through efficient use of charging infrastructure." Transportation Research Part C: Emerging Technologies 105 (2019). .
"Joint Optimization Scheme for the Planning and Operations of Shared Autonomous Electric Vehicle Fleets Serving Mobility on Demand." Transportation Research Record: Journal of the Transportation Research Board (2019) 036119811983827. .
2018
Connected and Automated Vehicle Concept Dimensions and Examples. 2018. LBNL-2001086. .
"Cost, Energy, and Environmental Impact of Automated Electric Taxi Fleets in Manhattan." Environmental Science & Technology (2018). .
2017
The Future of Low-Carbon Electricity. 2017. LBNL-1007260. .
2016
"Assessment of the climate commitments and additional mitigation policies of the United States." Nature Climate Change (2016). LBNL-1006368. .
"Opportunities to improve the net energy performance of photoelectrochemical water-splitting technology." Energy & Environmental Science (2016). LBNL-1006311. .
"Spatially-explicit water balance implications of carbon capture and sequestration." Environmental Modelling & Software 75 (2016) 153 - 162. LBNL-1003871. .
2015
"On-Demand Mobility, Autonomous Vehicles and Environmental Impacts." Current Sustainable/Renewable Energy Reports 2.3 (2015) 74 - 81. LBNL-1006312. .
"Comparison of Low-Carbon Pathways for California." Climatic Change 131.4 (2015) 545-557. .
"Autonomous taxis could greatly reduce greenhouse-gas emissions of US light-duty vehicles." Nature Climate Change 5.9 (2015) 860 - 863. LBNL-1006310. .
"United States energy and CO2 savings potential from deployment of near-infrared electrochromic window glazings." Building and Environment 89 (2015) 107 - 117. .
"Assessment of household appliance surveys collected with Amazon Mechanical Turk." Energy Efficiency (2015). LBNL-180004. .
"Modeling California policy impacts on greenhouse gas emissions." Energy Policy 78 (2015) 158 - 172. LBNL-7008E. .
Ice-Making in the U.S.: Results from an Amazon Mechanical Turk Survey. 2015. lbnl-183899. .
2014
"A wedge-based approach to estimating health co-benefits of climate change mitigation activities in the United States." Climatic Change 127.2 (2014) 199 - 210. .
"Video game console usage and US national energy consumption: Results from a field-metering study." Energy Efficiency (2014). LBNL-6251E. .
"Key Factors Influencing Autonomous Vehicles’ Energy and Environmental Outcome." Road Vehicle Automation. 2014. 127-135. .
"Life-cycle net energy assessment of large-scale hydrogen production via photoelectrochemical water splitting." Energy Environ. Sci. 7.10 (2014) 3264 - 3278. .
Refrigerated Beverage Vending Machine Outdoor Location and Elevated (90°F) Outdoor Temperature Analysis. Berkeley: Lawrence Berkeley National Laboratory, 2014. 6744E. .