What China can learn from international policy experiences to improve industrial energy efficiency and reduce CO2 emissions?. 2016. LBNL-1006470..
The State–of-the-Art Clean Technologies (SOACT) for Steelmaking Handbook (2nd Edition). Asia Pacific Partnership for Clean Development and Climate, 2010..
Retrospective and Prospective Decomposition Analysis of Chinese Manufacturing Energy Use, 1995-2020. Berkeley: Lawrence Berkeley National Laboratory, 2013. LBNL-6028E..
Quantifying the Co-benefits of Energy-Efficiency Programs: A Case Study of the Cement Industry in Shandong Province, China. Lawrence Berkeley National Laboratory, 2012..
Public Interest Energy Research (PIER) Program FINAL PROJECT REPORT California Energy Balance Update and Decomposition Analysis for the Industry and Building Sectors. 2010. LBNL-5918E..
National Level Co-Control Study of the Targets for Energy Intensity and Sulfur Dioxide in China. . Lawrence Berkerley National Laboratory, 2011. LBNL-5253E..
Motor Systems Efficiency Supply Curves. Vienna, Austria : the United Nations Industrial Development Organization, 2010..
Methodology for Estimating Purchased Prices of Energy-efficient Motors Internationally and Results for Selected Countries. 2015. LBNL-182927..
International Experience with Quantifying the Co-Benefits of Energy Efficiency and Greenhouse Gas Mitigation Programs and Policies. Lawrence Berkeley National Laboratory, 2012..
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..
Industrial Energy Audit Guidebook: Guidelines for Conducting an Energy Audit in Industrial Facilities. Lawrence Berkeley National Laboratory, 2010. LBNL-3991E..
Increasing Energy Efficiency and Reducing Emissions from China’s Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China. Lawrence Berkeley National Laboratory; E3M, Inc.; China Building Materials Academy, 2011..
Estudio Preparatorio para la Implementación en Chile de Estándares Mínimos de Eficiencia Energética en Motores Industriales. Berkeley: LBNL, 2015. LBNL-187346..
Energy-Efficiency Improvement Opportunities for the Textile Industry. Lawrence Berkeley National Laboratory, 2010..
Energy-Efficiency and Air-Pollutant Emissions-Reduction Opportunities for the Ammonia Industry in China. 2015. LBNL-183064..
Emerging Energy-Efficiency and Greenhouse Gas Mitigation Technologies for the Pulp and Paper Industry. Lawrence Berkeley National Laboratory, 2012..
Emerging Energy-efficiency and Carbon Dioxide Emissions-reduction Technologies for the Iron and Steel Industry. Berkeley: Lawrence Berkeley National Laboratory, 2013..
Emerging Energy Efficiency and Carbon Dioxide Emissions-Reduction Technologies for the Glass Industry. 2017..
Emerging Energy Efficiency and Carbon Dioxide Emissions-Reduction Technologies for Industrial Production of Aluminum. 2016. LBNL-1005789..
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 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..
China Energy and Emissions Paths to 2030 (2nd Edition). . Lawrence Berkeley National Laboratory, 2012..
China Energy and Emissions Path to 2030. . 2013. LBNL-4866E..
California Energy Balance Update and Decomposition Analysis for the Industry and Building Sectors. California Energy Commission, 2010..