YU Yadong  Associate Professor  |  Management Science and Engineering Tel. +86-21-64250013 | E-mail: artonry@gmail.com

SUMMARY

•  DISCIPLINE

    Management Science and Engineering

•  FACULTY QUALIFICATION

    Scholarly Academic (SA)

• COURSES TAUGHT

    Application of Matlab

•  EDUCATION

    Tsinghua University, Ph.D., 2013, China 

    Beijing University of Chemical Technology, Bachelor, 2008, China

•  WORK EXPERIENCE

    East China University of Science and Technology, since 2013, China

    International Institute for Applied Systems Analysis, Young Scientists Summer Program, 2012- 2012, Vienna, Austria

SELECTED INTELLECTUAL CONTRIBUTIONS (Completed within 5 years)

• JOURNAL ARTICLES

    Learning Rates and Cost Reduction Potential of Indirect Coal-to-liquid Technology Coupled with CO2 Capture, Energy, 2018, 165:21-32.

    System Optimization of Long-distance Energy Transportation in China Using Ultra-high-Voltage Power Transmission, Journal of Renewable and Sustainable Energy, 2018, 10(4):1-18.

    Assessing Air Pollution Abatement Co-benefits of Energy Efficiency Improvement in Cement Industry: A city level analysis, Journal of Cleaner Production, 2018, 185:761-771.

    A Two-Tiered Attribution Structural Decomposition Analysis to Reveal Drivers at both Sub-regional and Sectoral Levels: A Case Study of Energy Consumption in the Jing-Jin-Ji Region, Journal of Cleaner Production, 2018, 213:165-175.

    Advancing Factors Influencing Resource Productivity through the Use of the Material Utility Framework, Journal of Cleaner Production, 2017, 142(4):1892-1900.

    Decoupling Environmental Pressure from Economic Growth on City Level: The Case Study of Chongqing in China, Ecological Indicators, 2017, 75:27-35.

    Exergy and Economic Analyses of Indirect Coal-to-Liquid Technology Coupling Carbon Capture and Storage, Journal of Cleaner Production, 2017, 174:87-95.

    Contribution of Demand Shifts to Industrial SO2 Emissions in a Transition Economy: Evidence from China, Journal of Cleaner Production, 2017, (164):1455-1466.

    Evaluating the Evolution of the Heihe River Basin Using the Ecological Network Analysis: Efficiency, Resilience, and Implications for Water Resource Management Policy, Science of the Total Environment, 2016, 572(1):688-696.

    Scenario Analysis of CO2 Emissions from China’s Civil Aviation Industry through 2030, Applied Energy, 2016, 175:100-108.

    Dynamics of Material Productivity and Socioeconomic Factors Based on Auto-Regressive Distributed Lag Model in China, Journal of Cleaner Production, 2016, 137(20):752-761.

    Exploring Socioeconomic Drivers of Environmental Pressure on the City Level: The Case Study of Chongqing in China, Ecological Economics, 2015, (10):123-131.

    Examining the Resilience of National Energy Systems: Measurements of Diversity in Production-Based and Consumption-Based Electricity in the Globalization of Trade Networks, Energy Policy, 2015, 87:455-464.

    Urban Environmental Pressure and its Driving Forces Based on Substance Footprint, Journal of Environmental Economics, 2017, 1:18-30 (in Chinese).

    A New Eco-Compensation Mechanism for Iron Ore Extraction Based on Multi-Region Input-Output Analysis. ZHANG, China Environmental Science, 2016, (11):3449-3455 (in Chinese).

    Comparative Analysis of Application of Economy-wide Material Flow Analysis Based Indicators for Chinese and International Resource Efficiency Policies, Journal of Tsinghua University (Natural Science Edition), 2015, (4):378-382 (in Chinese).

• INDUSTRY/RESEARCH PROJECTS

    Research on the Account and Application of Regional Material Footprint in China: An Analysis of Multi-regional Input-output and Material Flow Based on Environmental Expansion, Sub-project of Key International Cooperation Projects of National Natural Science, Research grants: ¥415,000.00, 2016-2019.

     Material Flow Analysis Method for Improving the Output of Resources in Zhejiang Province, Zhejiang Provincial Development and Reform Commission, Research grants: ¥100,000.00, 2015-2016.

    Study on the Decoupling of Economic Growth and Environmental Pressure in the Yangtze River Economic Belt, China Postdoctoral Science Foundation, Research grants: ¥50,000.00, 2015-2018.

    Carbon Emission Peak Simulation and Decoupling Path in the Yangtze River Delta: Based on the Perspective of Structural Decomposition Analysis and Regression Analysis, Humanities and Social Science Foundation of Ministry of Education of China, Research grants: ¥40,000.00, 2015-2018.