Energy efficiency improvement and cost saving opportunities for the Corn Wet Milling Industry: An ENERGY STAR Guide for Energy and Plant Managers. 2003. LBNL-52307..
Guidebook for Using the Tool BEST Cement: Benchmarking and Energy Savings Tool for the Cement Industry. Lawrence Berkeley National Laboratory; Energy Research Institute, 2008..
Energy Efficiency Improvement and Cost Saving Opportunities for Breweries: An ENERGY STAR(R) Guide for Energy and Plant Managers. 2003. LBNL-50934..
"Opportunities for Improving Energy Efficiency, Reducing Pollution and Increasing Economic Output in Chinese Cement Kilns." ACEEE 2007 Summer Study on Energy Efficiency in Industry. ACEEE, 2007..
Energy Efficiency Improvement and Cost Saving Opportunities for the Pharmaceutical Industry. LBNL, 2008. LBNL-57260R..
"Thermal performance and energy savings of white and sedum-tray garden roof: A case study in a Chongqing office building." Energy and Buildings 156 (2017) 343 - 359..
"Cool Roofs in China: Policy Review, Building Simulations, and Proof-Of-Concept Experiments." Energy Policy 74 (2014) 190-214..
Accelerating Energy Efficiency in China's Existing Commercial Buildings, Part 1: Barrier Analysis. 2017. LBNL-2001078..
Accelerating energy efficiency in China’s existing commercial buildings Part 2: Solutions and policy recommendations . 2017..
"A simulation-based efficiency comparison of AC and DC power distribution networks in commercial buildings." Second International Conference on DC Microgrids. 2017..
"A simulation-based efficiency comparison of AC and DC power distribution networks in commercial buildings." Applied Energy 210 (2018) 1167-1187. LBNL-2001160..
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..
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..
Quantifying the Co-benefits of Energy-Efficiency Programs: A Case Study of the Cement Industry in Shandong Province, China. Lawrence Berkeley National Laboratory, 2012..
Alternative and Emerging Technologies for an Energy-Efficient, Water-Efficient, and Low-Pollution Textile Industry. Berkeley: Lawrence Berkeley National Laboratory, 2013. LBNL-6510E..
Assessment of Energy Efficiency Improvement and CO2 Emission Reduction Potentials in the Iron and Steel Industry in China. Berkeley: Lawrence Berkeley National Laboratory, 2012. LBNL-5535E..
Air Pollutant Emissions Projection for the Cement and Steel Industry in China and the Impact of Emissions Control Technologies. 2017. LBNL-1007268..
Emerging Energy-efficiency and Carbon Dioxide Emissions-reduction Technologies for the Iron and Steel Industry. Berkeley: Lawrence Berkeley National Laboratory, 2013..
"Barriers to energy efficiency improvement and decision-making behavior in Thai industry." Energy Efficiency 3.1 (2010) 33-52..
"Why the Energy Use of Chinese Steel Industry May Peak As Early As 2015?." 2014 ECEEE Summer Study on Energy Efficiency in Industry 2014..
Energy-Efficiency Improvement Opportunities for the Textile Industry. Lawrence Berkeley National Laboratory, 2010..
"Energy-Efficiency Technologies and Benchmarking the Energy Intensity for the Textile Industry." 2011 ACEEE Summer Study on Energy Efficiency in Industry 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..
The State–of-the-Art Clean Technologies (SOACT) for Steelmaking Handbook (2nd Edition). Asia Pacific Partnership for Clean Development and Climate, 2010..