Academic Qualification

Ph.D. in Science, Department of Mechanics and Engineering Science, Peking University

M.S. in Engineering, School of Energy and Power Engineering, Huazhong University of Science and Technology

B.S. in Engineering, School of Energy and Power Engineering, Huazhong University of Science and Technology

Research Area

Global Supply Chain and Regional Economy

Renewable Energy Resources

Energy Policy

Global Supply Chain and Regional Economy

Input-Output Analysis of Environmental Resources System

System Life Cycle Analysis

Thermodynamics and Economics in Ecology

Simulation of Ecological and Environmental Model

Environmental Fluid Mechanics

Computational Fluid Dynamics

Microbial Fluid Mechanics

Professional Services

Associate Editor, IET Communications, since 2021

Ecological Indicators, Elsevier, Editorial member Associate Editor, IEEE Transactions on Mobile Computing, since 2021

Frontiers of Earth Science, Springer, Associate editor, 2014-

Energy Policy, Elsevier, Advisory editorial member, 2006-

Communications in Nonlinear Science and Numerical Simulation, Elsevier, Editor-in-chief, 2003-2013

Journal of Hydrodynamics, Elsevier, Deputy Editor, 2000-2016

Working Experience

2013 ~ Present, Distinguished Guest Professor, Department of Environmental Science and Engineering Macau University of Science and Technology

2000 ~ Present, Professor, Department of Mechanics and Engineering Science, Peking University

1997 ~ 2006, Part-Time Professor, School of Environment, Beijing Normal University

1996 ~ 2000, Professor, China Center for Sustainable Development Research, Beijing University

1995 ~ 2000, Visiting Professor, Department of Civil Engineering, The University of Hong Kong

1993 ~ 1995, Visiting Professor, Mechanical Engineering, University of Pittsburgh

1991 ~ 1993, Associate Professor/Professor, School of Energy and Power Engineering, Beihang University

1989 ~ 1991, Assistant Researcher/Associate Researcher, Institute of Mechanics, Chinese Academy of Sciences

Academic Publication (selected)

•       Renewable & Sustainable Energy Reviews (Q1, IF:14.982, ranking 7/114 in ENERGY & FUELS)

•       Water Resources Research  (Q1, IF:5.240, 11/98 in WATER RESOURCES)

•       Nature Communications  (Q1, IF:14.919, 4/73 in MULTIDISCIPLINARY SCIENCES)

•       Applied Energy (Q1, IF:9.746, 6/143 in ENGINEERING, CHEMICAL)

•       Energy Policy (Q1, IF:6.142, 19/376 in ECONOMICS)

•       Communications in Nonlinear Science and Numerical Simulation (Q1, IF:4.260,  11/108 in MATHEMATICS, APPLIED)

•       Environmental Research Letters (Q1, IF:6.793, 33/247 in ENVIRONMENTAL SCIENCES)

•       Energy and Buildings (Q1, IF:5.879, 9/136 in ENGINEERING, CIVIL)

•       Renewable Energy (Q1, IF:8.001, 16/114 in ENERGY & FUELS)

•       Journal of Fluid Mechanics (Q1, IF: 3.627, 4/34 in PHYSICS, FLUIDS & PLASMAS)

•       Journal of Hydrology (Q1, IF: 5.722, 11/136 in ENGINEERING, CIVIL)

•       International Journal of Engineering Science (Q1, IF: 8.843, 1/170 in ENGINEERING, MULTIDISCIPLINARY)

•       Land Use Policy (Q1, IF:5.398, 23/125 in ENVIRONMENTAL STUDIES)

•       International Journal of Heat and Mass Transfer (Q1, IF:5.584, 10/133 in ENGINEERING, MECHANICS)

•       Journal of Cleaner Production (Q1, IF:7.246, 19/265 in ENVIRONMENTAL SCIENCES)

•       Science of the Total Environment (Q1, IF: 7.963, 25/274 in ENVIRONMENTAL SCIENCES)

•       Environmental Science & Technology (Q1, IF: 9.028, 20/274 in ENVIRONMENTAL SCIENCES)

•       Agriculture Ecosystems & Environment (Q1, IF: 5.567, 1/58 in AGRICULTURE, MULTIDISCIPLINARY)

•       Ecological Economics (Q1, IF:5.389, 28/376 in ECONOMICS)

•       Atmospheric Chemistry and Physics (Q1, IF: 6.133, 25/305 in ENVIRONMENTAL SCIENCES)

[1]          Wang BH, Jiang WQ, Chen GQ*. Gyrotactic trapping of micro-swimmers in simple shear flows: a study directly from the fundamental Smoluchowski equation. Journal of Fluid Mechanics. 2022; 939: A37.

[2]          Guo JL, Chen GQ*. Solute Dispersion From a Continuous Release Source in a Vegetated Flow: An Analytical Study. Water Resources Research. 2022; 58(4): e2021WR030255.

[3]          Wang BH, Jiang WQ, Chen GQ*. Cross-channel distribution and streamwise dispersion of micro-swimmers in a vertical channel flow: A study on the effects of shear, particle shape, and convective inertial torque. Physics of Fluids. 2022; 34(1):011904.

[4]          Guo JL, Jiang WQ, Chen GQ*, Li Z, Alharbi NS, Wakeel M. Solute dispersion in an open channel turbulent flow: Solution by a generalized model. Journal of Hydrology. 2022; 604:127239.

[5]          Long J, Wu XF, Yang Q*, Chen GQ, Liu ZH, Huang JL, Ba SS*. Tracing energy-water-greenhouse gas nexus in national supply chains: China 2017. Journal of Cleaner Production. 2022; 352:131586.

[6]          Debnath S*, Jiang WQ*, Guan MY, Chen GQ. Effect of ring-source release on dispersion process in Poiseuille flow with wall absorption. Physics of Fluids. 2022; 34(2):027106.

[7]          Wang BH, Jiang WQ, Chen GQ*. Vertical distribution and longitudinal dispersion of gyrotactic microorganisms in a horizontal plane Poiseuille flow. Physical Review Fluids. 2021; 6(5):054502.

[8]          Jiang WQ, Chen GQ*. Transient dispersion process of active particles.  Journal of Fluid Mechanics, 2021; 927: A11.

[9]          Ma R, Zhang  B, Guo  YX, Li  K, Zhao  XL, Lindner  S, Guan  CH,  Chen  GQ, Gan  YJ, Meng  J. Mitigation potential of global ammonia emissions and related health impacts in the trade network.  Nature Communications, 2021; 12, 6308.

[10]      Kan SY, Chen B., Han M., Hayat T, Alsulami, H, Chen GQ*. China’s forest land use change in the globalized world economy: Foreign trade and unequal household consumption.  Land Use Policy, 2021; 103, 105324.

[11]      Wu XD, Li CH, Guo, JL, Wu XF, Meng, J,  Chen, GQ*. Extended carbon footprint and emission transfer of world regions: With both primary and intermediate inputs into account.  Science of The Total Environment, 2021; 775, 145578.

[12]      Fan Y, Wu XD, Shao L, Han MY, Chen B, Meng J, Wang P*, Chen GQ*. Can constructed wetlands be more land efficient than centralized wastewater treatment systems? A case study based on direct and indirect land use.  Science of The Total Environment, 2021; 770, 144841.

[13]      Wu XD, Li CH, Shao L, Meng J, Zhang LX, Chen GQ*. Is solar power renewable and carbon-neutral: Evidence from a pilot solar tower plant in China under a systems view.  Renewable and Sustainable Energy Reviews, 2021; 138, 110655.

[14]      Li CH, Wu XD, Chen GQ*, Han MY, Chen K, Yangzong C, Dan L, Ahmed A, Hayat T. Pastureland use of China: Accounting variations from different input-output analyses. Land Use Policy, 2021; 109, 105597.

[15]      Mukisa N, Zamora R, Lie TT, Wu X, Chen G. Multi criteria analysis ranking of solar photovoltaic modules manufacturing countries by an importing country: A case of Uganda. Solar Energy. 2021 Jul 15; 223:326-45.

[16]      Liu SY, Wang ZY, Han MY, Wang GD, Hayat T, Chen GQ*. Energy-water nexus in seawater desalination project: A typical water production system in China.  Journal of Cleaner Production, 2021; 279, 123412.

[17]      Wu XD, Shao L, Chen GQ*, Han M, Chi Y., Yang Q., ... & Wakeel, M. Unveiling land footprint of solar power: A pilot solar tower project in China.  Journal of Environmental Management, 2021; 280, 111741.

[18]      Yang, Q., Zhou, H., Bartocci, P., Fantozzi, F., Mašek, O., Agblevor, F. A., ... Chen GQ, ... & McElroy， M.B. Prospective contributions of biomass pyrolysis to China's 2050 carbon reduction and renewable energy goals.  Nature communications, 2021; 12(1), 1-12.

[19]      Mukisa N, Zamora R, Lie TT, Wu XF, Chen GQ. Multi criteria analysis ranking of solar photovoltaic modules manufacturing countries by an importing country: A case of Uganda.  Solar Energy. 2021; 223:326-45.

[20]      Wu XD, Guo JL, Chen GQ*, Wu XF, Meng J, Alhodaly M, Wakeel M. Energy use flows in the supply chains of the world economy: A full account of both primary and intermediate inputs. Journal of Cleaner Production. 2021:128621.

[21]      Li YL, Chen B,  Chen GQ*, Wu XF. The global oil supply chain: The essential role of non-oil product as revealed by a comparison between physical and virtual oil trade patterns.  Resources, Conservation and Recycling. 2021; 175:105836.

[22]      Li YL, Chen B, Li CH, Li Z, Chen GQ*. Energy perspective of Sino-US trade imbalance in global supply chains.  Energy Economics, 2020; 92, 104959.

[23]      Wu XD, Guo JL, Li CH, Chen GQ*, Ji X*. Carbon emissions embodied in the global supply chain: Intermediate and final trade imbalances.  Science of the Total Environment, 2020; 707, 134670.

[24]      Li YL, Chen B, Chen GQ*, Meng J, Hayat T. An embodied energy perspective of urban economy: a three-scale analysis for Beijing 2002–2012 with headquarter effect. Science of The Total Environment. 2020; 732:139097.

[25]      Liu YT, Chen B, Chen GQ*, Li Z, Meng J, Tasawar H. Globalized energy-water nexus through international trade: The dominant role of non-energy commodities for worldwide energy-related water use.  Science of The Total Environment. 2020 Sep 20; 736:139582.

[26]      Liu YT, Chen B, Wei WD, Shao L, Li Z, Jiang WZ, Chen GQ*. Global water use associated with energy supply, demand and international trade of China.  Applied Energy. 2020; 257:113992.

[27]      Fan Y, Wu XD, Wu XF, Li CH, Yang Q, Hayat T, Alsaedi A, Wang P*, Chen GQ*. A unified ecological assessment of a solar concentrating plant based on an integrated approach joining cosmic exergy analysis with ecological indicators.  Renewable and Sustainable Energy Reviews. 2020 Sep 1; 129:109934.

[28]      Kan SY, Chen B, Meng J, Chen GQ*. An extended overview of natural gas use embodied in world economy and supply chains: Policy implications from a time series analysis.  Energy Policy. 2020; 137:111068.

[29]      Jiang WQ,  Chen GQ*. Dispersion of gyrotactic micro-organisms in pipe flows.  Journal of Fluid Mechanics, 2020; 889.

[30]      Li YL, Chen B, Chen GQ*. Carbon network embodied in international trade: global structural evolution and its policy implications.  Energy Policy. 2020; 139:111316.

[31]      Guo JL, Jiang WQ, Chen GQ*. Transient Solute Dispersion in Wetland Flows With Submerged Vegetation: An Analytical Study in Terms of Time‐Dependent Properties.  Water Resources Research, 2020; 56(2): e2019WR025586.

[32]      Guo JL, Jiang WQ, Zhang LZ, Li Z, Chen GQ*. Effect of bed absorption on contaminant transport in wetland channel with rectangular cross-section. Journal of Hydrology,  2019; 578:124078.

[33]      Liu, SY, Zhang JJ, Han MY, Yao YX,  Chen GQ*. Multi-scale water use balance for a typical coastal city in China.  Journal of Cleaner Production,  2019; 236: 117505.

[34]      Jiang WQ*,  Chen GQ*. Dispersion of active particles in confined unidirectional flows. Journal of Fluid Mechanics,  2019; 877: 1-34

[35]      Kan, SY, Chen B, Chen GQ*. Worldwide Energy Use across Global Supply Chains: Decoupled from Economic Growth?  Applied Energy,  2019; 250: 1235–45.

[36]      Wu XD, Ji X, Li CH, Xia XH, Chen GQ*. Water Footprint of Thermal Power in China: Implications from the High Amount of Industrial Water Use by Plant Infrastructure of Coal-Fired Generation System.  Energy Policy,  2019; 132: 452–61.

[37]      Chen GQ*, Wu XD, Guo  JL, Meng J, Li CH. Global Overview for Energy Use of the World Economy: Household-Consumption-Based Accounting Based on the World Input-Output Database (WIOD).  Energy Economics,  2019; 81: 835–47.

[38]      Wu XD, Guo JL, Li CH, Shao L, Han MY,  Chen GQ*. Global socio-hydrology: An overview of virtual water use by the world economy from source of exploitation to sink of final consumption. Journal of Hydrology,  2019; 573: 794-810.

[39]      Wu, XF*,  Chen GQ*. Global Overview of Crude Oil Use: From Source to Sink through Inter-Regional Trade.  Energy Policy,  2019; 128: 476–86.

[40]      Jiang WQ,  Chen GQ*. Solute transport in two-zone packed tube flow: Long-time asymptotic expansion. Physics of Fluids,  2019; 31:4.

[41]      Wu, XD, Guo JL, Meng J,  Chen GQ*. Energy Use by Globalized Economy: Total-Consumption-Based Perspective via Multi-Region Input-Output Accounting.  Science of Total Environment,  2019; 662: 65-76.

[42]      Han, MY, Chen GQ*,  Dunford M*. Land Use Balance for Urban Economy: A Multi-Scale and Multi-Type Perspective.  Land Use Policy,  2019; 83: 323-333.

[43]      Wu, XD, Guo JL, Ji X, Chen GQ*. Energy Use in World Economy from Household-Consumption-Based Perspective.  Energy Policy,  2019; 127: 287-298.

[44]      Li, YL, Han MY, Liu SY, Chen GQ*. Energy Consumption and Greenhouse Gas Emissions by Buildings: A Multi-Scale Perspective.  Building and Environment,  2019; 151:240-250.

[45]      Liu SY, Zhang GX, Han MY, Wu XD, Li YL, Chen K, Meng J, Shao L, Wei WD,  Chen GQ*. Freshwater costs of seawater desalination: Systems process analysis for the case plant in China. Journal of cleaner production,  2019; 212: 677-686.

[46]      Jiang, WQ, Chen GQ*. Environmental Dispersion in Layered Wetland: Moment Based Asymptotic Analysis.  Journal of Hydrology,  2019; 569: 252–64.

[47]      Kan, SY, Chen B, Wu XF, Chen ZM, Chen GQ*. Natural Gas Overview for World Economy: From Primary Supply to Final Demand via Global Supply Chains.  Energy Policy. 2019; 124: 215-225.

[48]      Jiang WQ, Chen GQ*. Solution of Gill’s generalized dispersion model: Solute transport in Poiseuille flow with wall absorption.  International Journal of Heat and Mass Transfer,  2018; 127: 34-43.

[49]      Guo JL, Jiang WQ*, Zeng L.,  Chen GQ*. Environmental transport in wetland channel with rectangular cross-section: Analytical solution by Chatwin’s asymptotic expansion.  Journal of Hydrology,  2018; 565: 224-236.

[50]      Wu XD, Guo JL, Han MY, Chen GQ*. An overview of arable land use for the world economy: From source to sink via the global supply chain.  Land Use Policy,  2018; 76: 201-214.

[51]      Li G., Jiang WQ, Wang P., Guo JL., Li Z.*,  Chen GQ*. Concentration moments based analytical study on Taylor dispersion: open channel flow driven by gravity and wind.  Journal of Hydrology. 2018; 562: 244-253.

[52]      Wu, X.D, Guo JL, Chen GQ*. The striking amount of carbon emissions by the construction stage of coal-fired power generation system in China.  Energy Policy. 2018; 117: 358-369.

[53]      Guo JL, Wu XD, Jiang WQ*,  Chen GQ*. Contaminant transport from point source on water surface in open channel flow with bed absorption.  Journal of Hydrology. 2018;  561: 295-303.

[54]      Han MY*,  Chen GQ*, Li YL. Global water transfers embodied in international trade: Tracking imbalanced and inefficient flows.  Journal of Cleaner Production. 2018; 184: 50-64.

[55]      Wu XF, Chen GQ*. Coal use embodied in globalized world economy: From source to sink through supply chain.  Renewable and Sustainable Energy Reviews. 2018; 81: 978-993.

[56]      Chen ZM, Ohshita S, Lenzen M, Wiedmann T, Jiborn M, Chen B, Lester L, Guan DB, Meng J, Xu S, Chen GQ. Consumption-based greenhouse gas emissions accounting with capital stock change highlights dynamics of fast-developing countries.  Nature communications. 2018; 9(1):1-9.

[57]      Han MY*,  Chen GQ*. Global arable land transfers embodied in Mainland China’s foreign trade.  Land Use Policy. 2018; 70: 521-534.

[58]      Wei, WD, Wu, XD, Li JS*, Jiang, X, Zhang, P, Zhou, SL, Zhu, H, Liu, H, Chen, H., Guo, JL, Chen GQ*. Ultra-high voltage network induced energy cost and carbon emissions.  Journal of Cleaner Production. 2018; 178: 276-292.

[59]      Chen B, Li JS*, Wu XF, Han MY, Zeng L, Li Z, Chen GQ*. Global energy flows embodied in international trade: A combination of environmentally extended input–output analysis and complex network analysis.  Applied Energy. 2018; 210: 98-107.

[60]      Chen B, Han MY, Peng K, Zhou SL, Shao L, Wu XF, Wei WD, Liu SY, Li Z, Li JS*, Chen GQ*. Global land-water nexus: Agricultural land and freshwater use embodied in worldwide supply chains.  Science of The Total Environment. 2018; 613: 931-943.

[61]      Wu XF, Chen GQ*. Global primary energy use associated with production, consumption and international trade. Energy Policy. 2017; 111: 85-94.

[62]      Wang P, Chen GQ*. Concentration distribution for pollutant dispersion in a reversal laminar flow.  Journal of Hydrology, 2017; 551: 151-161.

[63]      Li G., Wang P., Jiang WQ, Zeng L., Li Z.*,  Chen GQ*. Taylor dispersion in wind-driven current.  Journal of Hydrology. 2017; 555: 697-707.

[64]      Wu XF, Chen GQ*. Energy use by Chinese economy: A systems cross-scale input-output analysis.  Energy Policy. 2017; 108: 81-90.

[65]      Wang P*,  Chen GQ*. Contaminant transport in wetland flows with bulk degradation and bed absorption.  Journal of Hydrology. 2017; 552: 674-83.

[66]      Chen B, Yang Q, Zhou SL, Li JS*,  Chen GQ*. Urban economy's carbon flow through external trade: Spatial-temporal evolution for Macao.  Energy Policy, 2017; 110: 69-78.

[67]      Wang P*,  Chen GQ*. Basic characteristics of Taylor dispersion in a laminar tube flow with wall absorption: Exchange rate, advection velocity, dispersivity, skewness and kurtosis in their full time dependance.  International Journal of Heat and Mass Transfer. 2017; 109:844-52.

[68]      Jiang WQ, Wang P, Chen GQ*. Concentration distribution of environmental dispersion in a wetland flow: Extended solution. Journal of Hydrology. 2017; 549:340-50.

[69]      Chen B, Yang Q, Li JS*,  Chen GQ*. Decoupling analysis on energy consumption, embodied GHG emissions and economic growth — The case study of Macao. Renewable and Sustainable Energy Reviews. 2017; 67:662-72.

[70]      Shao L*, Guan D, Wu Z, Wang P,  Chen GQ*. Multi-scale input-output analysis of consumption-based water resources: Method and application. Journal of Cleaner Production. 2017; 164:338-46.

[71]      Han MY, Dunford M,  Chen GQ*, Liu WD, Li Y, Liu SY. Global water transfers embodied in Mainland China’s foreign trade: Production- and consumption-based perspectives.  Journal of Cleaner Production. 2017; 161:188-99.

[72]      Li JS, Chen GQ*, Chen B, Yang Q, Wei WD, Wang P, Dong KQ, Chen HP. The impact of trade on fuel-related mercury emissions in Beijing—evidence from three-scale input-output analysis. Renewable and Sustainable Energy Reviews. 2017; 75:742-52.

[73]      Chen GQ*, Wu XF*. Energy overview for globalized world economy: Source, supply chain and sink.  Renewable and Sustainable Energy Reviews. 2017; 69:735-49.

[74]      Wu XD, Chen GQ*. Energy and water nexus in power generation: The surprisingly high amount of industrial water use induced by solar power infrastructure in China.  Applied Energy. 2017; 195:125-36.

[75]      Wu XD, Xia XH, Chen GQ*, Wu XF, Chen B. Embodied energy analysis for coal-based power generation system-highlighting the role of indirect energy cost. Applied Energy. 2016; 184:936-50.

[76]      Wang P, Chen GQ*. Solute dispersion in open channel flow with bed absorption.  Journal of Hydrology, 2016; 543: 208-217.

[77]      Chen GQ*, Li JS*, Chen B, Wen C, Yang Q, Alsaedi A, Hayat T. An overview of mercury emissions by global fuel combustion: The impact of international trade. Renewable and Sustainable Energy Reviews. 2016; 65:345-55.

[78]      Han MY, Chen GQ*, Meng J, Wu XD, Alsaedi A, Ahmad B. Virtual water accounting for a building construction engineering project with nine sub-projects: a case in E-town, Beijing. Journal of Cleaner Production. 2016; 112:4691-700.

[79]      Jiang WQ, Li JS, Chen GQ*, Yang Q, Alsaedi A, Ahmad B, Hayat T. Mercury emissions embodied in Beijing economy. Journal of Cleaner Production. 2016; 129:134-42.

[80]      Shao L, Guan DB, Zhang N, Shan Y, & Chen GQ*. Carbon emissions from fossil fuel consumption of Beijing in 2012.  Environmental Research Letters, 2016; 11(11), 114028.

[81]      Li JS, Xia XH,  Chen GQ*, Alsaedi A, Hayat T. Optimal embodied energy abatement strategy for Beijing economy: Based on a three-scale input-output analysis.  Renewable and Sustainable Energy Reviews. 2016; 53:1602-10. (

[82]      Shao L*, Chen GQ*. Renewability assessment of a production system: Based on embodied energy as emergy.  Renewable and Sustainable Energy Reviews. 2016; 57:380-92.

[83]      Shao L*, Chen GQ*. Embodied water accounting and renewability assessment for ecological wastewater treatment.  Journal of Cleaner Production. 2016; 112:4628-35.

[84]      Wang P, Chen GQ*. Transverse concentration distribution in Taylor dispersion: Gill’s method of series expansion supported by concentration moments.  International Journal of Heat and Mass Transfer. 2016; 95:131-41.

[85]      Wang P, Chen GQ*. Solute dispersion in open channel flow with bed absorption.  Journal of Hydrology. 2016; 543:208-17.

[86]      Wang P, Chen GQ*. Hydraulic dispersion of diurnal reactive constituents in an open channel eutrophic flow.  Journal of Hydrology. 2016; 537:200-7.

[87]      Wu XD, Yang Q, Chen GQ*, Hayat T, Alsaedi A. Progress and prospect of CCS in China: Using learning curve to assess the cost-viability of a 2×600MW retrofitted oxyfuel power plant as a case study.  Renewable and Sustainable Energy Reviews. 2016; 60:1274-85.

[88]      Chen GQ*, Han MY*. Global supply chain of arable land use: Production-based and consumption-based trade imbalance.  Land Use Policy. 2015; 49:118-30.

[89]      Chen GQ*, Han MY*. Virtual land use change in China 2002–2010: Internal transition and trade imbalance.  Land Use Policy. 2015; 47:55-65.

[90]      Chen GQ*, Li JS*. Virtual water assessment for Macao, China: highlighting the role of external trade.  Journal of Cleaner Production. 2015; 93:308-17.

[91]      Li G, Chen GQ*, Wu Z, Li Z. The asymptotic time variation of Taylor dispersivity for scalar transport in a two-zone packed tube. International Journal of Heat and Mass Transfer. 2015; 83:416-27.

[92]      Li JS, Chen GQ*, Hayat T, Alsaedi A. Mercury emissions by Beijing׳s fossil energy consumption: Based on environmentally extended input–output analysis. Renewable and Sustainable Energy Reviews. 2015; 41:1167-75.

[93]      Shao L, Chen GQ*. Exergy based renewability assessment: Case study to ecological wastewater treatment.  Ecological Indicators. 2015; 58:392-401.

[94]      Wang P, Chen GQ*. Environmental dispersion in a tidal wetland with sorption by vegetation.  Communications in Nonlinear Science and Numerical Simulation. 2015; 22(1–3):348-66.

[95]      Wang P, Chen GQ*, Jiang CB, Alsaedi A, Wu Z, Zeng L. Transport in a three-zone wetland: Flow velocity profile and environmental dispersion. Communications in Nonlinear Science and Numerical Simulation. 2015; 20(1):136-53.

[96]      Wu XF, Chen GQ*, Wu XD, Yang Q, Alsaedi A, Hayat T, Ahmad B. Renewability and sustainability of biogas system: Cosmic exergy based assessment for a case in China. Renewable and Sustainable Energy Reviews. 2015; 51:1509-24.

[97]      Wu Z, Chen GQ*. Axial diffusion effect on concentration dispersion.  International Journal of Heat and Mass Transfer. 2015; 84(0):571-7.

[98]      Han MY, Shao L, Li JS, Guo S, Meng J, Ahmad B, Hayat T, Alsaadi F, Ji X, Alsaedi A, Chen GQ*. Emergy-based hybrid evaluation for commercial construction engineering: A case study in BDA.  Ecological Indicators. 2014; 47:179-88.

[99]      Hayat T, Yasmin H, Ahmad B, Chen GQ. Exact solution for peristaltic transport of a micropolar fluid in a channel with convective boundary conditions and heat source/sink.  Zeitschrift für Naturforschung  A. 2014; 69(8-9):425-32.

[100]  Abbasi FM, Hayat T, Ahmad B, Chen GQ. Peristaltic motion of a non-Newtonian nanofluid in an asymmetric channel.  Zeitschrift für Naturforschung A. 2014; 69(8-9):451-61.

[101]  Abbasi FM, Hayat T, Ahmad B, Chen GQ. Slip effects on mixed convective peristaltic transport of copper-water nanofluid in an inclined channel.  Plos one. 2014; 9(8):e105440.

[102]  Imtiaz M, Hayat T, Hussain M, Shehzad SA, Chen GQ, Ahmad B. Mixed convection flow of nanofluid with Newtonian heating. The European physical journal plus. 2014; 129(5):1-1.

[103]  Shao L, Chen ZM, Chen GQ*. Ecological accounting for a constructed wetland.  Developments in Environmental Modelling. 2014; 26:209-29.

[104]  Wu Z, Zeng L, Chen GQ*. Analytical modeling for environmental dispersion in wetland.  Developments in Environmental Modelling  2014 (Vol. 26, pp. 251-274). Elsevier.

[105]  Li JS, Alsaed A, Hayat T, Chen GQ*. Energy and carbon emission review for Macao's gaming industry.  Renewable and Sustainable Energy Reviews. 2014; 29:744-53.

[106]  Li JS, Chen GQ*. Water footprint assessment for service sector: A case study of gaming industry in water scarce Macao.  Ecological Indicators. 2014; 47(0):164-70.

[107]  Li JS, Chen GQ*, Wu XF, Hayat T, Alsaedi A, Ahmad B. Embodied energy assessment for Macao׳s external trade. Renewable and Sustainable Energy Reviews. 2014; 34:642-53.

[108]  Meng J, Chen GQ*, Shao L, Li JS, Tang HS, Hayat T, Alsaedi A, Alsaadi F. Virtual water accounting for building: case study for E-town, Beijing. Journal of Cleaner Production. 2014; 68:7-15.

[109]  P. Wang, Z. Li, J.S. Li, Hayat T, A. A, G.Q. Chen*. Indicators for environmental dispersion in a three-layer wetland: Extension of Taylor's classical analysis.  Ecological Indicators. 2014; 47:254-69.

[110]  Shao L, Chen GQ*, Chen ZM, Guo S, Han MY, Zhang B, Hayat T, Alsaedi A, Ahmad B. Systems accounting for energy consumption and carbon emission by building. Communications in Nonlinear Science and Numerical Simulation. 2014; 19(6):1859-73.

[111]  Shao L, Chen GQ*, Hayat T, Alsaedi A. Systems ecological accounting for wastewater treatment engineering: Method, indicator and application. Ecological Indicators. 2014; 47:32-42.

[112]  Wu Z, Chen GQ*. Analytical solution for scalar transport in open channel flow: Slow-decaying transient effect.  Journal of Hydrology. 2014; 519, Part B:1974-84.

[113]  Wu Z, Chen GQ*. Approach to transverse uniformity of concentration distribution of a solute in a solvent flowing along a straight pipe. Journal of Fluid Mechanics. 2014; 740:196-213.

[114]  Xia XH, Chen YB, Li JS, Tasawar H, Alsaedi A, Chen GQ*. Energy regulation in China: Objective selection, potential assessment and responsibility sharing by partial frontier analysis.  Energy Policy. 2014; 66:292-302.

[115]  Zhang B, Chen GQ*. Methane emissions in China 2007.  Renewable and Sustainable Energy Reviews. 2014; 30:886-902.

[116]  Zhang B, Chen GQ*. China's CH4 and CO2 emissions: Bottom-up estimation and comparative analysis.  Ecological Indicators. 2014; 47:112-22.

[117]  Zhang B., Chen GQ*, Li JS, Tao L. Methane emissions of energy activities in China 1980–2007. Renewable and Sustainable Energy Reviews. 2014; 29(0):11-21.

[118]  Chen GQ*, Guo S., Shao L., Li JS, Chen ZM. Three-scale input-output modeling for urban economy: Carbon emission by Beijing 2007.  Communications in Nonlinear Science and Numerical Simulation. 2013; 18(9):2493-506.

[119]  Chen ZM*, Chen GQ*. Demand-driven energy requirement of world economy 2007: A multi-region input–output network simulation.  Communications in Nonlinear Science and Numerical Simulation. 2013; 18(7):1757-74.

[120]  Chen ZM*, Chen GQ*. Virtual water accounting for the globalized world economy: National water footprint and international virtual water trade.  Ecological Indicators. 2013; 28:142-9.

[121]  Chen ZM*, Chen GQ*, Chen B. Embodied Carbon Dioxide Emission by the Globalized Economy: A Systems Ecological Input-Output Simulation. Journal of Environmental Informatics. 2013; 21(1):35-44.

[122]  Han MY, Chen GQ*, Shao L, Li JS, Alsaedi A, Ahmad B, Guo S, Jiang MM, Ji X. Embodied energy consumption of building construction engineering: Case study in E-town, Beijing. Energy and Buildings. 2013; 64:62-72.

[123]  Li JS, Chen GQ*. Energy and greenhouse gas emissions review for Macao.  Renewable and Sustainable Energy Reviews. 2013; 22:23-32.

[124]  Li JS, Chen GQ*, Lai TM, Ahmad B, Chen ZM, Shao L, Ji X. Embodied greenhouse gas emission by Macao. Energy Policy. 2013; 59:819-33.

[125]  Shao L, Chen GQ*. Water Footprint Assessment for Wastewater Treatment: Method, Indicator, and Application.  Environmental Science & Technology. 2013; 47(14):7787-94.

[126]  Wang P*, Wu Z, Chen GQ*, Cui BS. Environmental dispersion in a three-layer wetland flow with free-surface. Communications in Nonlinear Science and Numerical Simulation. 2013; 18(12):3382-406.

[127]  Yang Q*, Chen GQ*, Liao S, Zhao YH, Peng HW, Chen HP. Environmental sustainability of wind power: An emergy analysis of a Chinese wind farm.  Renewable and Sustainable Energy Reviews. 2013; 25:229-39.

[128]  Chen GQ*, Wu Z. Taylor dispersion in a two-zone packed tube. International Journal of Heat and Mass Transfer. 2012; 55(1-3):43-52.

[129]  Chen GQ*, Wu Z*, Zeng L. Environmental dispersion in a two-layer wetland: Analytical solution by method of concentration moments. International Journal of Engineering Science. 2012; 51:272-91.

[130]  Wu Z, Chen GQ*. Dispersion in a two-zone packed tube: An extended Taylor's analysis.  International Journal of Engineering Science. 2012; 50(1):113-23.

[131]  Wu Z, Zeng L, Chen GQ*, Li Z, Shao L, Wang P, Jiang Z. Environmental dispersion in a tidal flow through a depth-dominated wetland. Communications in Nonlinear Science and Numerical Simulation. 2012; 17(12):5007-25.

[132]  Xia XH, Chen GQ*. Energy abatement in Chinese industry: Cost evaluation of regulation strategies and allocation alternatives.  Energy Policy. 2012; 45:449-58.

[133]  Yang Q, Chen GQ*. Nonrenewable energy cost of corn-ethanol in China.  Energy Policy. 2012; 41:340-7.

[134]  Chen GQ*, Xue H, Feingold G, et al. Vertical transport of pollutants by shallow cumuli from large eddy simulations.  Atmospheric Chemistry and Physics, 2012; 12(23): 11319-11327.

[135]  Zeng L, Chen GQ*, Wu Z, Li Z, Wu YH, Ji P. Flow distribution and environmental dispersivity in a tidal wetland channel of rectangular cross-section. Communications in Nonlinear Science and Numerical Simulation. 2012; 17(11):4192-209.

[136]  Zhang B, Chen GQ*, Xia XH*, Li SC, Chen ZM, Ji X. Environmental emissions by Chinese industry: Exergy-based unifying assessment. Energy Policy. 2012; 45:490-501.

[137]  Chen GQ*, Chen H*, Chen ZM*, Zhang B, Shao L, Guo S, Zhou SY, Jiang MM. Low-carbon building assessment and multi-scale input-output analysis.  Communications in Nonlinear Science and Numerical Simulation. 2011; 16(1):583-95.

[138]  Chen GQ*, Yang Q*, Zhao YH. Renewability of wind power in China: A case study of nonrenewable energy cost and greenhouse gas emission by a plant in Guangxi.  Renewable and Sustainable Energy Reviews. 2011; 15(5):2322-9.

[139]  Chen GQ*, Yang Q*, Zhao YH, Wang ZF. Nonrenewable energy cost and greenhouse gas emissions of a 1.5 MW solar power tower plant in China. Renewable and Sustainable Energy Reviews. 2011; 15(4):1961-7.

[140]  Chen H, Chen GQ*. Energy cost of rapeseed-based biodiesel as alternative energy in China.  Renewable Energy. 2011; 36(5):1374-8.

[141]  Chen ZM, Chen GQ*. Embodied carbon dioxide emission at supra-national scale: A coalition analysis for G7, BRIC, and the rest of the world.  Energy Policy. 2011; 39(5):2899-909.

[142]  Chen ZM, Chen GQ*. An overview of energy consumption of the globalized world economy.  Energy Policy. 2011; 39(10):5920-8.

[143]  Zhang B, Chen GQ, Yang Q, Chen ZM, Chen B, Li Z. How to guide a sustainable industrial economy: emergy account for resources input of Chinese industry. Procedia Environmental Sciences. 2011; 5:51-9.

[144]  Yang Q, Chen GQ, Zhao YH, Chen B, Li Z, Zhang B, Chen ZM, Chen H. Energy cost and greenhouse gas emissions of a Chinese wind farm. Procedia Environmental Sciences. 2011; 5:25-8.

[145]  Yang Q, Chen GQ, Zhao YH, Chen B, Li Z, Wang ZF. Energy cost and greenhouse gas emissions of a Chinese solar tower power plant.  Procedia Environmental Sciences. 2011; 5:77-80.

[146]  Wu Z, Li Z, Chen GQ*. Multi-scale analysis for environmental dispersion in wetland flow. Communications in Nonlinear Science and Numerical Simulation. 2011; 16(8):3168-78.

[147]  Xia XH, Huang GT, Chen GQ*, Zhang B, Chen ZM, Yang Q. Energy security, efficiency and carbon emission of Chinese industry. Energy Policy. 2011; 39(6):3520-8.

[148]  Zeng L, Chen GQ*, Tang HS, Wu Z. Environmental dispersion in wetland flow. Communications in Nonlinear Science and Numerical Simulation. 2011; 16(1):206-15.

[149]  Chen GQ*, Chen ZM*. Carbon emissions and resources use by Chinese economy 2007: A 135-sector inventory and input-output embodiment.  Communications in Nonlinear Science and Numerical Simulation. 2010; 15(11):3647-732.

[150]  Chen GQ*, Zhang B. Greenhouse gas emissions in China 2007: Inventory and input-output analysis. Energy Policy. 2010; 38(10):6180-93.

[151]  Chen H, Chen GQ*, Ji X. Cosmic emergy based ecological systems modelling. Communications in Nonlinear Science and Numerical Simulation. 2010; 15(9):2672-700.

[152]  Chen ZM, Chen GQ*, Zhou JB, Jiang MM, Chen B. Ecological input-output modeling for embodied resources and emissions in Chinese economy 2005. Communications in Nonlinear Science and Numerical Simulation. 2010; 15(7):1942-65.

[153]  Ji X, Chen GQ*. Unified account of gas pollutants and greenhouse gas emissions: Chinese transportation 1978-2004.  Communications in Nonlinear Science and Numerical Simulation. 2010; 15(9):2710-22.

[154]  Jiang MM, Zhou JB, Chen GQ*. Unified process assessment for resources use and waste emissions by coal-fired power generation. Communications in Nonlinear Science and Numerical Simulation. 2010; 15(9):2723-33.

[155]  Yang ZF, Jiang MM*, Chen B, Zhou JB, Chen GQ*, Li SC. Solar emergy evaluation for Chinese economy.  Energy Policy. 2010; 38(2):875-86.

[156]  Zhang B, Chen GQ*. Methane emissions by Chinese economy: Inventory and embodiment analysis.  Energy Policy. 2010; 38(8):4304-16.

[157]  Zhang B, Chen GQ*. Physical sustainability assessment for the China society: Exergy-based systems account for resources use and environmental emissions.  Renewable and Sustainable Energy Reviews. 2010; 14(6):1527-45.

[158]  Cai ZF, Yang Q, Zhang B, Chen H, Chen B*, Chen GQ*. Water resources in unified accounting for natural resources. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(9-10):3693-704.

[159]  Chen B, Chen GQ*. Emergy-based energy and material metabolism of the Yellow River basin.  Communications in Nonlinear Science and Numerical Simulation. 2009; 14(3):923-34.

[160]  Chen B, Chen GQ*, Hao FH, Yang ZF. Exergy-based water resource allocation of the mainstream Yellow River. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(4):1721-8.

[161]  Chen B, Chen GQ*, Hao FH, Yang ZF. The water resources assessment based on resource exergy for the mainstream Yellow River. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(1):331-44.

[162]  Chen B, Chen ZM, Zhou Y, Zhou JB, Chen GQ*. Emergy as embodied energy based assessment for local sustainability of a constructed wetland in Beijing. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(2):622-35.

[163]  Chen GQ, Chen B*. Extended-exergy analysis of the Chinese society.  Energy. 2009; 34(9):1127-44.

[164]  Chen GQ*, Zeng L. Taylor dispersion in a packed tube. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(5):2215-21.

[165]  Chen ZM, Chen GQ*, Chen B, Zhou JB, Yang ZF, Zhou Y. Net ecosystem services value of wetland: Environmental economic account. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(6):2837-43.

[166]  Ji X, Chen GQ*, Chen B*, Jiang MM. Exergy-based assessment for waste gas emissions from Chinese transportation. Energy Policy. 2009; 37(6):2231-40.

[167]  Jiang MM, Zhou JB, Chen B, Yang ZF, Ji X, Zhang L, Chen GQ*. Ecological evaluation of Beijing economy based on emergy indices.  Communications in Nonlinear Science and Numerical Simulation. 2009; 14(5):2482-94.

[168]  Yang Q, Chen B, Ji X, He YF, Chen GQ*. Exergetic evaluation of corn-ethanol production in China.  Communications in Nonlinear Science and Numerical Simulation. 2009; 14(5):2450-61.

[169]  Zeng L, Chen GQ*. Notes on modelling of environmental transport in wetland.  Communications in Nonlinear Science and Numerical Simulation. 2009; 14(4):1334-45.

[170]  Zhou JB, Jiang MM, Chen B, Chen GQ*. Emergy evaluations for constructed wetland and conventional wastewater treatments. Communications in Nonlinear Science and Numerical Simulation. 2009; 14(4):1781-9.

[171]  Jiang MM, Zhou JB, Chen B, Chen GQ*. Emergy-based ecological account for the Chinese economy in 2004. Communications in Nonlinear Science and Numerical Simulation. 2008; 13(10):2337-56.

[172]  Chen B, Chen GQ*. Resource analysis of the Chinese society 1980-2002 based on exergy - Part 3: Agricultural products.  Energy Policy. 2007; 35(4):2065-78.

[173]  Chen B, Chen GQ*. Resource analysis of the Chinese society 1980-2002 based on exergy - Part 4: Fishery and rangeland.  Energy Policy. 2007; 35(4):2079-86.

[174]  Chen B, Chen GQ*. Resource analysis of the Chinese society 1980-2002 based on exergy - Part 2: Renewable energy sources and forest.  Energy Policy. 2007; 35(4):2051-64.

[175]  Chen B, Chen GQ*. Modified ecological footprint accounting and analysis based on embodied exergy - a case study of the Chinese society 1981-2001.  Ecological Economics. 2007; 61(2-3):355-76.

[176]  Chen B, Chen GQ*, Yang ZF, Jiangc MM. Ecological footprint accounting for energy and resource in China. Energy Policy. 2007; 35(3):1599-609.

[177]  Chen GQ*, Chen B*. Resource analysis of the Chinese society 1980-2002 based on exergy - Part 1: Fossil fuels and energy minerals.  Energy Policy. 2007; 35(4):2038-50.

[178]  Chen GQ*, Chen B*. Resource analysis of the Chinese society 1980-2002 based on energy - Part 5: Resource structure and intensity.  Energy Policy. 2007; 35(4):2087-95.

[179]  Huang LQ, Chen GQ*, Zhang Y, Chen B, Luan SJ. Exergy as a unified measure of water quality. Communications in Nonlinear Science and Numerical Simulation. 2007; 12(5):663-72.

[180]  Jiang MM, Chen B, Zhou JB, Tao FR, Li Z, Yang ZF, Chen GQ*. Emergy account for biomass resource exploitation by agriculture in China.  Energy Policy. 2007; 35(9):4704-19.

[181]  Zhang LX, Yang ZF, Chen GQ*. Emergy analysis of cropping-grazing system in Inner Mongolia Autonomous Region, China. Energy Policy. 2007; 35(7):3843-55.

[182]  Zhou JB, Jiang MM, Chen GQ*. Estimation of methane and nitrous oxide emission from livestock and poultry in China during 1949-2003.  Energy Policy. 2007; 35(7):3759-67.

[183]  Chen B, Chen GQ*. Exergy analysis for resource conversion of the Chinese Society 1993 under the material product system.  Energy. 2006; 31(8-9):1115-50.

[184]  Chen GQ*. Scarcity of exergy and ecological evaluation based on embodied exergy.  Communications in Nonlinear Science and Numerical Simulation. 2006; 11(4):531-52.

[185]  Chen GQ*, Jiang MM, Chen B, Yang ZF, Lin C. Emergy analysis of Chinese agriculture. Agriculture Ecosystems & Environment. 2006; 115(1-4):161-73.

[186]  Ji X, Chen GQ*. Exergy analysis of energy utilization in the transportation sector in China.  Energy Policy. 2006; 34(14):1709-19.

Professional Certification and Awards

Elsevier Most Cited Chinese Researcher (Mechanics, Environment and Geography), 2016-2021

ISI Highly Cited Researcher (Mathematics, Ecology, and Interdisciplinary Studies), 2002-2012, 2013, 2014, 2019

Elsevier Atlas Award, 2018

Thomson Reuters Highly Cited Researchers Award (2002-2014), 2014

Thomson Reuters China Citation Laureates (2002-2014), 2014

National Award for Science and Technology Progress, 2nd Prize, 2/11, 2012

Elsevier Award for Most-Cited Mainland China Economics Journal Paper 2009

Keynote Speech

•       Keynote Speech, An overview of the carbon-neutrality and renewability of concentrating solar power technology in context of China’s carbon peak by 2030, 2021 International Joint Conference on Energy and Environmental Engineering, Oslo, Norway, June 26-28, 2021.

•       Keynote Speech, Regional trade imbalance in terms of energy, 2018 International Workshop on Earth and Environmental Sciences, Hangzhou, China, June 15-17, 2018.

•       Invited Speech, Energy review for the globalized world economy: Sources, supply chain and sinks, Environment, Climate Change and Global Warming, Oxford Round Table, University of Oxford, Oxford, U.K., July 22-25, 2015.

•       Keynote Speech, Energy consumption of nations: A SEIOS for the globalized economy, 2011 International Conference on Information Technology and Energy Engineering, Beijing, China, January 23, 2011.

Keynote Speech, Energy induced carbon dioxide emissions by the world economy: A systems ecological input-output simulation of the global trading network, 2010 International Conference on Advances in Energy Engineering, Beijing, China, June 19-20, 2010.