Publications
"Characteristics of low-carbon data centres." Nature Climate Change 3 (2013) 627-630.
. "Data center design and location: Consequences for electricity use and greenhouse-gas emissions." Building and Environment 46.5 (2010) 990–998.
. "Data center growth in the United States: decoupling the demand for services from electricity use." Environmental Research Letters 13.12 (2018) 124030.
. "Energy and Greenhouse Implications of Internet Video Streaming in the United States." Environmental Research Letters 9.5 (2014).
. "Feedstock loss from drought is a major economic risk for biofuel producers." Biomass and Bioenergy 69 (2014) 135 - 143.
. "Grand Challenges for Life-Cycle Assessment of Biofuels." Environmental Science & Technology 45.5 (2011) 1751 - 1756.
. "Life-Cycle Assessment of Electric Power Systems." Annual Review of Environment and Resources 38 (2013) 107-136.
. "Lifecycle greenhouse gas implications of US national scenarios for cellulosic ethanol production." Environmental Research Letters 7.1 (2012) 014011.
. "Long-Term Energy and Climate Implications of Carbon Capture and Storage Deployment Strategies in the US Coal-Fired Electricity Fleet." Environmental Science & Technology 46.17 (2012) 9768 - 9776.
. "Prospective life-cycle modeling of a carbon capture and storage system using metal–organic frameworks for CO2 capture." RSC Advances 3.15 (2013) 4964. Pending.
. "Recalibrating global data center energy-use estimates." Science 367.6481 (2020) 984 - 986.
. "Spatially-explicit water balance implications of carbon capture and sequestration." Environmental Modelling & Software 75 (2016) 153 - 162. LBNL-1003871.
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Estimating the Energy Use and Efficiency Potential of U.S. Data Centers. 2011. LBNL-5830E.
. Implausible projections overestimate near-term Bitcoin CO2 emissions. 2019. LBNL-2001235.
. Report to Congress on Server and Data Center Energy Efficiency: Public Law 109-431. Berkeley, CA, 2008. LBNL-363E.
. United States Data Center Energy Usage Report. 2016. LBNL-1005775.
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