John P. Weyant
Affiliations: | Stanford University, Palo Alto, CA |
Area:
Management Business Administration, Industrial Engineering, FinanceWebsite:
https://profiles.stanford.edu/john-weyantGoogle:
""John Peter Weyant Stanford""Bio:
https://books.google.com/books?id=nIdQAQAAMAAJ
https://books.google.com/books?id=jhw0DwAAQBAJ&lpg=PP1&pg=PT10#v=onepage&q&f=false
Parents
Sign in to add mentorRichard Crooks Grinold | grad student | 1976 | UC Berkeley (Management Tree) | |
(A dynamic model of the United States energy system: a tool for energy R & D planning) |
Children
Sign in to add traineeAntje Kann | grad student | 2001 | Stanford |
Wenlong Weng | grad student | 2001 | Stanford |
Michele S. Freed | grad student | 2002 | Stanford |
Jochen Kleinknecht | grad student | 2002 | Stanford |
Kazuhiro Ninomiya | grad student | 2003 | Stanford |
Tao Yao | grad student | 2005 | Stanford |
Oytun Eskiyenenturk | grad student | 2006 | Stanford |
Albert Whangbo | grad student | 2006 | Stanford |
Leslie Hummel | grad student | 2007 | Stanford |
Katherine Calvin | grad student | 2008 | Stanford |
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Publications
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Browning M, McFarland J, Bistline J, et al. (2023) Net-Zero CO by 2050 Scenarios for the United States in the Energy Modeling Forum 37 Study. Energy and Climate Change. 4: 1-13 |
Peng W, Iyer G, Bosetti V, et al. (2021) Climate policy models need to get real about people - here's how. Nature. 594: 174-176 |
Schweizer VJ, Ebi KL, van Vuuren DP, et al. (2020) Integrated Climate-Change Assessment Scenarios and Carbon Dioxide Removal. One Earth (Cambridge, Mass.). 3: 166-172 |
Wald GV, Mastrandrea MD, Cullenward D, et al. (2020) Analyzing California’s framework for estimating greenhouse gas emissions associated with retail electricity sales The Electricity Journal. 33: 106818 |
Huntington HG, Bhargava A, Daniels D, et al. (2020) Key findings from the core North American scenarios in the EMF34 intermodel comparison Energy Policy. 144: 111599 |
Muratori M, Bauer N, Rose SK, et al. (2020) EMF-33 insights on bioenergy with carbon capture and storage (BECCS) Climatic Change. 1-17 |
Levi PJ, Kurland SD, Carbajales-Dale M, et al. (2019) Macro-Energy Systems: Toward a New Discipline Joule. 3: 2282-2286 |
Koomey J, Schmidt Z, Hummel H, et al. (2019) Inside the Black Box: Understanding key drivers of global emission scenarios Environmental Modelling and Software. 111: 268-281 |
Merrick JH, Weyant JP. (2019) On choosing the resolution of normative models European Journal of Operational Research. 279: 511-523 |
Fawcett AA, McFarland JR, Morris AC, et al. (2018) INTRODUCTION TO THE EMF 32 STUDY ON U.S. CARBON TAX SCENARIOS. Climate Change Economics. 9 |