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Atmospheric Science & Global Change

Staff information

Pralit Patel

Human-Earth Sys Sci: Modeling
Computational Scientist

PNNL Publications

2021

  • Khan Z., G.C. Iyer, P.L. Patel, S.H. Kim, M.I. Hejazi, C.D. Burleyson, and M.A. Wise. 2021. "Impacts of long-term temperature change and variability on electricity investments." Nature Communications 12, no. 1:Article No. 1643. PNNL-SA-150975. doi:10.1038/s41467-021-21785-1
  • Kyle P., M.I. Hejazi, S.H. Kim, P.L. Patel, N.T. Graham, and Y. Liu. 2021. "Assessing the future of global energy-for-water." Environmental Research Letters 16, no. 2:024031. PNNL-SA-139311. doi:10.1088/1748-9326/abd8a9

2020

  • Calvin K.V., B. Mignone, H. Kheshgi, A.C. Snyder, P.L. Patel, M.A. Wise, and L.E. Clarke, et al. 2020. "Global market and economic welfare implications of changes in agricultural yields due to climate change." Climate Change Economics 11, no. 1:Article No. 2050005. PNNL-ACT-SA-10398. doi:10.1142/S2010007820500050
  • Edmonds J.A., C. Nichols, M. Adamantiades, J. Bistline, J.E. Huster, G.C. Iyer, and N. Johnson, et al. 2020. "Could congressionally mandated incentives lead to deployment of large-scale CO2 capture, facilities for enhanced oil recovery CO2 markets and geologic CO2 storage?." Energy Policy 146. PNNL-SA-154457. doi:10.1016/j.enpol.2020.111775
  • Fuhrman J., H.C. McJeon, P.L. Patel, S. Doney, W. Shobe, and A.F. Clarens. 2020. "Food–energy–water implications of negative emissions technologies in a+ 1.5° C future." Nature Climate Change 10, no. 10:920–927. PNNL-ACT-SA-10482. doi:10.1038/s41558-020-0876-z
  • Graham N.T., M.I. Hejazi, M. Chen, E. Davies, J.A. Edmonds, S.H. Kim, and S. Turner, et al. 2020. "Humans drive future water scarcity changes across all Shared Socioeconomic Pathways." Environmental Research Letters 15, no. 1:Article No. 014007. PNNL-SA-151297. doi:10.1088/1748-9326/ab639b
  • Snyder A.C., K.V. Calvin, L.E. Clarke, J.A. Edmonds, P. Kyle, K. Narayan, and A. Di Vittorio, et al. 2020. "The domestic and international implications of future climate for U.S. agriculture in GCAM." PLOS ONE 15, no. 8:e0237918. PNNL-SA-134943. doi:10.1371/journal.pone.0237918

2019

  • Cui R., N. Hultman, M.R. Edwards, L. He, A. Sen, K. Surana, and H.C. McJeon, et al. 2019. "Quantifying operational lifetimes for coal power plants under the Paris goals." Nature Communications 10. PNNL-ACT-SA-10417. doi:10.1038/s41467-019-12618-3
  • Iyer G.C., M. Brown, S. Cohen, J. Macknick, P.L. Patel, M.A. Wise, and M.T. Binsted, et al. 2019. "Improving consistency among models of overlapping scope in multi-sector studies: The case of electricity capacity expansion scenarios." Renewable & Sustainable Energy Reviews 116. PNNL-SA-134710. doi:10.1016/j.rser.2019.109416
  • Wise M.A., P.L. Patel, Z. Khan, S.H. Kim, M.I. Hejazi, and G.C. Iyer. 2019. "Representing power sector detail and flexibility in a multi-sector model." Energy Strategy Reviews 26. PNNL-SA-138629. doi:10.1016/j.esr.2019.100411
  • Yu S., J.D. Horing, Q. Liu, R.T. Dahowski, C.L. Davidson, J.A. Edmonds, and B. Liu, et al. 2019. "CCUS in China’s Mitigation Strategy: Insights from Integrated Assessment Modeling." International Journal of Greenhouse Gas Control 84. PNNL-SA-128974. doi:10.1016/j.ijggc.2019.03.004

2018

  • Feijoo F., G.C. Iyer, C. Avraam, S.A. Siddiqui, L.E. Clarke, S. Sankaranarayanan, and M.T. Binsted, et al. 2018. "The future of natural gas infrastructure development in the United states." Applied Energy 228. PNNL-SA-132268. doi:10.1016/j.apenergy.2018.06.037
  • Vernon C.R., J.S. Rice, N. Zuljevic, T.E. Seiple, M. Kintner-Meyer, C. Jin, and J. Olson, et al. 2018. "CERF – A Geospatial Model for Assessing Future Energy Production Technology Expansion Feasibility." Journal of Open Research Software. PNNL-SA-125186. doi:10.5334/jors.227
  • Vernon C.R., N. Zuljevic, J.S. Rice, T.E. Seiple, M. Kintner-Meyer, N. Voisin, and I.P. Kraucunas, et al. 2018. "CERF - A Geospatial Model for Assessing Future Energy Production Technology Expansion Feasibility." Journal of Open Research Software 6, no. 1:20. PNNL-SA-133523. doi:10.5334/jors.227

2017

  • Güneralp B., Y. Zhou, D. Ürge-Vorsatz, M. Gupta, S. Yu, P.L. Patel, and M. Fragkias, et al. 2017. "Global scenarios of urban density and its impacts on building energy use through 2050." Proceedings of the National Academy of Sciences of the United States of America 114, no. 34:8945–8950. PNNL-SA-120304. doi:10.1073/pnas.1606035114
  • Muratori M., C.M. Ledna, H.C. McJeon, P. Kyle, P.L. Patel, S.H. Kim, and M.A. Wise, et al. 2017. "Cost of Power or Power of Cost: a U.S. Modeling Perspective." Renewable & Sustainable Energy Reviews 77. PNNL-ACT-SA-10131. doi:10.1016/j.rser.2017.04.055

2016

  • Hartin C.A., B. Bond-Lamberty, P.L. Patel, and A. Mundra. 2016. "Ocean acidification over the next three centuries using a simple global climate carbon-cycle model: projections and sensitivities." Biogeosciences 13, no. 15:4329-4342. PNNL-SA-115266. doi:10.5194/bg-13-4329-2016
  • Wang L., P.L. Patel, S. Yu, B. Liu, J.D. Mcleod, L.E. Clarke, and W. Chen. 2016. "Win-Win strategies to promote air pollutant control policies and non-fossil energy target regulation in China." Applied Energy 163. PNNL-SA-112613. doi:10.1016/j.apenergy.2015.10.189

2015

  • Hartin C.A., P.L. Patel, A. Schwarber, R.P. Link, and B. Bond-Lamberty. 2015. "A simple object-oriented and open source model for scientific and policy analyses of the global climate system–Hector v1.0." Geoscientific Model Development 8, no. 4:939-955. PNNL-SA-104722. doi:10.5194/gmd-8-939-2015
  • Hejazi M.I., N. Voisin, L. Liu, L.M. Bramer, D.C. Fortin, J.E. Hathaway, and M. Huang, et al. 2015. "21st Century United States Emissions Mitigation Could Increase Water Stress more than the Climate Change it is Mitigating." Proceedings of the National Academy of Sciences of the United States of America 112, no. 34:10635-10640. PNNL-SA-105956. doi:10.1073/pnas.1421675112
  • Iyer G.C., J.A. Edmonds, A.A. Fawcett, N. Hultman, J. Alsalam, G.R. Asrar, and K.V. Calvin, et al. 2015. "The contribution of Paris to limit global warming to 2 °C." Environmental Research Letters 10, no. 12:Article No. 125002. PNNL-SA-111720. doi:10.1088/1748-9326/10/12/125002
  • Iyer G.C., N. Hultman, J. Eom, H.C. McJeon, P.L. Patel, and L.E. Clarke. 2015. "Diffusion of low-carbon technologies and the feasibility of long-term climate targets." Technological Forecasting and Social Change 90, no. Part A:103-118. PNNL-SA-93434. doi:10.1016/j.techfore.2013.08.025
  • Scott M.J., D.S. Daly, J.E. Hathaway, C.S. Lansing, Y. Liu, H.C. McJeon, and R.H. Moss, et al. 2015. "Calculating Impacts of Energy Standards on Energy Demand in U.S. Buildings with Uncertainty in an Integrated Assessment Model." Energy 90, no. Part 2:1682-1694. PNNL-SA-102017. doi:10.1016/j.energy.2015.06.127

2014

  • Bond-Lamberty B., K.V. Calvin, A.D. Jones, J. Mao, P.L. Patel, X. Shi, and A.M. Thomson, et al. 2014. "On linking an Earth system model to the equilibrium carbon representation of an economically optimizing land use model." Geoscientific Model Development 7, no. 6:2545-2555. PNNL-SA-100308. doi:10.5194/gmd-7-2545-2014
  • Scott M.J., D.S. Daly, J.E. Hathaway, C.S. Lansing, Y. Liu, H.C. McJeon, and R.H. Moss, et al. 2014. Calculating Impacts of Energy Standards on Energy Demand in U.S. Buildings under Uncertainty with an Integrated Assessment Model: Technical Background Data. PNNL-23918. Richland, WA: Pacific Northwest National Laboratory. Calculating Impacts of Energy Standards on Energy Demand in U.S. Buildings under Uncertainty with an Integrated Assessment Model: Technical Background Data

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