Assessment of Energy Efficiency Improvement and CO2 Emission Reduction Potentials in the Cement Industry in China., 2012.
Assessment of Energy Efficiency Improvement and CO2 Emission Reduction Potentials in the Iron and Steel Industry in China. Berkeley: Lawrence Berkeley National Laboratory, 2012.
Energy-Efficiency Technologies and Benchmarking the Energy Intensity for the Textile Industry In 2011 ACEEE Summer Study on Energy Efficiency in Industry. Niagara Falls, New York, U.S.A: American Council for an Energy-Efficient Economy , 2011.
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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.
International Best Practices for Pre- Processing and Co-Processing Municipal Solid Waste and Sewage Sludge in the Cement Industry. Berkeley, CA: Lawrence Berkeley National Laboratory, 2012.
Emerging Technologies for an Energy-Efficient, Water- Efficient, and Low- Pollution Textile Industry: A Technical Review In International Conference on Clean Energy. Istanbul, Turkey, 2014.
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Retrospective and Prospective Decomposition Analysis of Chinese Manufacturing Energy Use, 1995-2020. Berkeley: Lawrence Berkeley National Laboratory, 2013.
The State–of-the-Art Clean Technologies (SOACT) for Steelmaking Handbook (2nd Edition). Asia Pacific Partnership for Clean Development and Climate, 2010.
Rapid cost decrease of renewable energy and storage offers an opportunity to accelerate the decarbonization of China’s power system., 2020.
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ELITE Cities: A low-carbon Eco-city Evaluation Tool for China In ECEEE 2013 Summer Study. European Council for Energy Efficient Economy, 2013.
Enabling a Rapid and Just Transition away from Coal in China." One Earth 3, no. 2 (2020): 187-194."
Is Your City Really Sustainable? A Tale of Jinan City Using Quantitative Low- Carbon Eco-city Tools In 2014 ACEEE Summer Study on Energy Efficiency in Building. Pacific Grove, CA: The American Council for an Energy-Efficient Economy, 2014.
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Estudio Preparatorio para la Implementación en Chile de Estándares Mínimos de Eficiencia Energética en Motores Industriales. Berkeley: LBNL, 2015.
Development of China's Energy-Efficiency Design Standard for Residential Buildings in the "Hot-Summer/Cold-Winter" Zone. City of Seattle;Natural Resources Defense Council; Lawrence Berkeley National Laboratory; China Academy of Building Research; Chongqing Architecture (Jianzu) University, 2001.
Building stock dynamics and its impacts on materials and energy demand in China." Energy Policy 94 (2016): 47-55."
Modeling China's Building Floor-Area Growth and the Implications for Building Materials and Energy Demand." In 2014 ACEEE Summer Study on Energy Efficiency in Buildings. Pacific Grove, CA: The American Council for an Energy-Efficient Economy, 2014."
Updates to the China Design Standard for Energy Efficiency in Public Buildings." Energy Policy 87 (2015): 187-198."
Assessment of China's Renewable Energy Contribution During the 12th Five Year Plan." Energy Policy 62 (2013): 1533-1543."
An Ontology to Represent Energy-Related Occupant Behavior in Buildings. Part II: Implementation of the DNAS framework using an XML schema." Building and Environment 94, no. 1 (2015): 196-205."
An Ontology to Represent Energy-related Occupant Behavior in Buildings Part I: Introduction to the DNAs Framework." Building and Environment 92 (2015): 764-777."