"A Comparative Study of Energy Consumption and Efficiency of Japanese and Chinese Manufacturing Industry." Energy Policy 70 (2014) 45-56..
"A Comparative Study on the Status of GSHP Applications in the United States and China." Renewable and Sustainable Energy Reviews 48 (2015) 558 - 570..
Comparison of Building Energy Modeling Programs: Building Loads. 2012. LBNL-6034E..
"Comparison of Building Energy Use Data Between the United States and China." Energy and Buildings 78 (2014) 165-175. LBNL-6669E..
Comparison of Energy-Related Carbon Dioxide Emissions Intensity of the International Iron and Steel Industry: Case Studies from China, Germany, Mexico, and the United States. 2016. LBNL-1004069..
"Comparison of HVAC System Modeling in EnergyPlus, DeST and DOE-2.1E." Building Simulation 7.1 (2014) 21 - 33..
"A Comparison of Iron and Steel Production Energy Intensity in China and the U.S." ACEEE Industrial Summer Study 2012. LBNL-5746E..
A Comparison of Iron and Steel Production Energy Use and Energy Intensity in China and the U.S. Lawrence Berkeley National Laboratory; Iron & Steel Research Institute, 2011. LBNL-4836E..
Comparison of Test Procedures and Energy Efficiency Criteria in Selected International Standards &Labeling Programs for Clothes Washers, Water Dispensers, Vending Machines and CFLs. . Lawrence Berkeley National Laboratory, 2010..
Comparison of Test Procedures and Energy Efficiency Criteria in Selected International Standards & Labeling Programs for Copy Machines, External Power Supplies, LED Displays, Residential Gas Cooktops and Televisions. . Lawrence Berkeley National Laboratory, 2012..
Compliance and Verification of Standards and Labeling Programs in China: Lessons Learned. Collaborative Labeling and Appliance Standards Program; Lawrence Berkeley National Laboratory; Centro de Ensayos Innovacion y Servicios (CEIS), 2010. LBNL-4599E..
Constraining Energy Consumption of China’s Largest Industrial Enterprises Through the Top-1000 Energy-Consuming Enterprise Program. Lawrence Berkeley National Laboratory; Peking University, 2007..
"Consumption-based greenhouse gas emissions accounting with capital stock change highlights dynamics of fast-developing countries." Nature Communications 9.1 (2018)..
"Cool Roofs in China: Policy Review, Building Simulations, and Proof-Of-Concept Experiments." Energy Policy 74 (2014) 190-214..
"Cool Roofs in Guangzhou, China: Outdoor Air Temperature Reductions during Heat Waves and Typical Summer Conditions." Environmental Science & Technology 49.24 (2015) 14672 - 14679..
"Cooling load forecasting-based predictive optimisation for chiller plants." Energy and Buildings 198 (2019) 261 - 274..
"A cooperative game-based mechanism for allocating ancillary service costs associated with wind power integration in China." Utilities Policy 58 (2019) 120 - 127..
"Cost-effective Options for Transforming China's Buildings Sector." 2014 ACEEE Summer Study on Energy Efficiency in Buildings. Pacific Grove, CA: The American Council for an Energy-Efficient Economy, 2014..
"The CO2 Abatement Cost Curve for the Thailand's Cement Industry." Journal of Cleaner Production 18.15 (2010) 1509-1518..
Curbing Air Pollution and Greenhouse Gas Emissions from Industrial Boilers in China. 2015. LBNL-1003860..
Current Status and Future Scenarios of Residential Building Energy Consumption in China. Lawrence Berkeley National Laboratory;Kyushu Sangyo University; The University of Kitakyushu, 2008..
"Curtailment of renewable energy in Northwest China and market-based solutions." Energy Policy 123 (2018) 494 - 502..