Check-Testing of Manufacturer Self Reported Labeling Data & Compliance with MEPS. Lawrence Berkeley National Laboratory; China National Institute of Standardization; Collaborative Labeling and Appliance Standards Program, 2008.
CFL Labeling Harmonization in the United States, China, Brazil and ELI Member Countries: Specifications, Testing, and Mutual Recognition., 2005.
CERC-BEE Impact Model., 2016.
Business Case for Energy Efficiency in Support of Climate Change Mitigation, Economic and Societal Benefits in China., 2011.
Assessment of Energy Use and Energy Savings Potential in Selected Industrial Sectors in India. LBNL, 2005.
Assessment of China’s Energy-Saving and Emission-Reduction Accomplishments and Opportunities During the 11th Five Year Plan. Vol. 39. Lawrence Berkeley National Laboratory; Azure International - Beijing, 2010.
Analysis of Potential Energy Saving and CO2 Emission Reduction of Home Appliances and Commercial Equipments in China., 2011.
Achieving China’s Target for Energy Intensity Reduction in 2010: An exploration of recent trends and possible future scenarios. Lawrence Berkeley National Laboratory, 2006.
Understanding China's non-fossil energy targets." Science 350, no. 6264 (2015): 1034-1036."
A roadmap for China to peak carbon dioxide emissions and achieve a 20% share of non-fossil fuels in primary energy by 2030." Applied Energy 239 (2019): 793-819."
Quantifying the potential impacts of China's power-sector policies on coal input and CO2 emissions through 2050: A bottom-up perspective." Utilities Policy 41 (2016): 128-138."
Modeling India’s energy future using a bottom-up approach." Applied Energy 238 (2019)."
Intertwined Impacts of Water, Energy Development, and Carbon Emissions in China." Applied Energy 238 (2019): 78-91."
Has coal use peaked in China: Near-term trends in China's coal consumption." Energy Policy 123 (2018): 208-214."
Evaluation of China's local enforcement of energy efficiency standards and labeling programs for appliances and equipment." Energy Policy (2013)."
Energy and CO2 implications of decarbonization strategies for China beyond efficiency: Modeling 2050 maximum renewable resources and accelerated electrification impacts." Applied Energy 242 (2019): 12-26."
ELITE Cities: A Low-carbon Eco-city Evaluation Tool for China." Ecological Indicators 48 (2015): 448-456."
Development of a Low-Carbon Indicator System for China." Habitat International (2012)."
A Comparative Study of Energy Consumption and Efficiency of Japanese and Chinese Manufacturing Industry." Energy Policy 70 (2014): 45-56."
China's Pilot Low-carbon City Initiative: A Comparative Assessment of National Goals and Local Plans." Sustainable Cities and Society 12 (2014): 110-121."
China's Energy and Emissions Outlook to 2050: Perspectives from Bottom-Up Energy End-Use Model." Energy Policy 53 (2013): 51-62."
China’s Industrial Energy Consumption Trends and Impacts of the Top-1000 Enterprises Energy-Saving Program and the Ten Key Energy-Saving Projects." Energy Policy 50 (2012): 562-569."
Building stock dynamics and its impacts on materials and energy demand in China." Energy Policy 94 (2016): 47-55."
Assessment of China's Renewable Energy Contribution During the 12th Five Year Plan." Energy Policy 62 (2013): 1533-1543."