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 Glass Industry. 2017..
"Energy conservation and CO2 mitigation potentials in the Chinese pulp and paper industry." Resource, Conservation and Recycling 117.Part A (2017) 74-84. LBNL-1006723..
"Energy Efficiency in the Mexican Iron and Steel Industry from an International Perspective." Journal of Cleaner Production 158 (2017)..
"Reinventing Fire: China – the Role of Energy Efficiency in China’s Roadmap to 2050." ECEEE Summer Study 2017. Presqu'ile Giens, Hyeres, France , 2017..
A Bottom-up Energy Efficiency Improvement Roadmap for China’s Iron and Steel Industry up to 2050. 2016. LBNL-1006356..
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..
Emerging Energy Efficiency and Carbon Dioxide Emissions-Reduction Technologies for Industrial Production of Aluminum. 2016. LBNL-1005789..
Energy-Efficiency and Air-Pollutant Emissions-Reduction Opportunities for the Ammonia Industry in China. 2015. LBNL-183064..
Estudio Preparatorio para la Implementación en Chile de Estándares Mínimos de Eficiencia Energética en Motores Industriales. Berkeley: LBNL, 2015. LBNL-187346..
"Alternative Emerging Ironmaking Technologies for Energy-efficiency and Carbon Dioxide Emissions Reduction: A Technical Review." Renewable and Sustainable Energy Reviews 33 (2014) 645–658..
"Assessment of energy efficiency improvement and CO2 emission reduction potentials in India's cement and iron and steel industries." Journal of Cleaner Production 65 (2014) 131 - 141..
"Climate Change 2014 Mitigation of Climate Change." IPCC 5th Assessment Report. The Intergovernmental Panel on Climate Change, 2014..
"Emerging Technologies for an Energy-Efficient, Water- Efficient, and Low- Pollution Textile Industry: A Technical Review." International Conference on Clean Energy 2014..
"Energy Efficiency Improvements Potential in the U.S. Petroleum Refining Industry." 2014 ECEEE Summer Study on Energy Efficiency in Industry 2014. LBNL-6292E..
"Including the Co-benefits of Energy-Efficiency Programs and Projects in Cost-Benefit Analysis - A Case Study for the Cement Industry." International Conference on Clean Energy 2014..
"Why the Energy Use of Chinese Steel Industry May Peak As Early As 2015?." 2014 ECEEE Summer Study on Energy Efficiency in Industry 2014..
Alternative and Emerging Technologies for an Energy-Efficient, Water-Efficient, and Low-Pollution Textile Industry. Berkeley: Lawrence Berkeley National Laboratory, 2013. LBNL-6510E..
Analysis of Energy-Efficiency Opportunities for the Pulp and Paper Industry in China. Lawrence Berkeley National Laboratory, 2013..
Analysis of the Past and Future Trends of Energy Use in Key Medium- and Large-Sized Chinese Steel Enterprises, 2000-2030. Lawrence Berkeley National Laboratory, 2013. LBNL-6380E..
Assessment of Energy Efficiency Improvement in the United States Petroleum Refining Industry. Berkeley: Lawrence Berkeley National Laboratory, 2013. LBNL-6292E..
China Energy and Emissions Path to 2030. . 2013. LBNL-4866E..