基本信息
??张力小,男,教授,博士生导师,环境学院副院长。主要从事于生态经济系统的生态核算与模拟研究,重点围绕产业生态系统、可再生能源系统以及城市能源系统等研究对象开展工作。目前已发表学术论文130余篇,其中SCI收录80余篇,已出版专著、译著2本,参编著作7本。
联系方式
??联系地址:北京市海淀区新街口外大街19号
邮政编码:100875
电话:
Email: zhanglixiao@bnu.edu.cn
研究方向
食物-能源-水关联关系
生态系统核算与管理
城市物质能量代谢
可再生能源系统分析
基本信息
??张力小,男,教授,博士生导师,环境学院副院长。主要从事于生态经济系统的生态核算与模拟研究,重点围绕产业生态系统、可再生能源系统以及城市能源系统等研究对象开展工作。目前已发表学术论文130余篇,其中SCI收录80余篇,已出版专著、译著2本,参编著作7本。
教育经历
1999.09-2004.07 北京大学环境学院环境科学系获理学博士学位
1995.09-1999.07 青岛大学环境科学系获理学学士学位
工作经历
??2016.07- 至今 北京师范大学环境学院,教授,博士生导师
2011.07-2016.07 北京师范大学环境学院,副教授,博士生导师
2007.06-2011.07 北京师范大学环境学院,讲师
2005.07-2007.06 北京师范大学环境学院,博士后
2004.09-2005.05 Institute of Botany, Universit?t für Bodenkultur Wien,访问
教学信息
??生态模拟(Ecological Modelling):硕士研究生学位基础课
环境变化与生态文明:本科生全校公选课
景观生态学:本科生专业选修课(与刘世梁教授共建)
科研项目
2035年生态系统保护路线图及协同机制研究(深圳市生态环境局委托项目)
政策环境影响评价案例研究-新能源汽车生命周期评价(生态环境部环境与经济政策研究中心委托项目)
典型环境经济政策专题调研(生态环境部政研中心委托项目)
上海合作组织国家城市生态环境建设研究(中国-东盟环境保护合作中心)
面向可持续发展的城市食物-能源-水关联关系模拟研究(自然基金委国际合作与交流项目)
城市资源代谢结构及其变化机理研究(国家自然基金)
全国生态环境变化(2010-2015)调查评估(中国科学院科技服务网络计划项目)
西藏自治区环境功能区划与生态红线(自治区委托项目)
国家重点生态功能区自然资源资产评估与管理体系研究(亚行技术援助项目)
城市与区域能流-物流-信息流传输过程与耦合机制(国家重点研发计划)
??区域循环经济技术及其发展模式的风险评估及决策支持研究(国家科技支撑项目)
我国典型生物质能的可再生性与碳减排潜力研究(国家自然基金)
城市热环境调控技术集成及示范(国家科技支撑项目)
城市资源代谢结构及其变化机理研究(国家自然基金)
珠海市富山工业园规划环境影响评价
北京市环境与生态发展战略规划(北京市环保局委托项目)
重大环境污染事件风险源识别与监控技术(863项目);
城市规划实施的生态安全评估与调控关键技术及应用示范(国家科技支撑计划);
现代城市“病”的系统识别理论与生态调控机理(国家973项目);
中国环境宏观战略研究-生态保护战略研究(亚行项目);
中国典型城市包头市生态城市建设规划(世行项目);
中国典型城市武夷山市生态城市建设规划(世行项目);
北京通州区区域战略环境影响评价(北京市环保局委托项目);
通州新城生态建设与环境保护规划(通州区环保局委托项目)
广州南沙区环境保护规划(广州市环境保护局委托项目)
德化县推进县域循环经济发展规划(德化县政府委托项目)
中国城市生态环境问题研究(中国工程院咨询项目)
广州生态城市规划咨询项目(广州市政府委托项目)
淮河流域可持续发展战略研究(水利部淮委、中日据点大学合作项目)
科尔沁沙地人地系统演变与调控(中科院沙漠所开放基金)
腾格里沙漠东南缘人地系统演变与调控(中科院沙漠所开放基金)
浑善达克沙地沙漠化过程的人地关系(中国科学院重大创新项目)
河南省浚县旅游规划(浚县政府委托项目)
河南省西峡县旅游规划(西峡县政府委托项目)
河南省西峡县生态示范县规划(西峡县政府委托项目)
科教成果
目前已发表学术论文130余篇,其中SCI收录80余篇,已出版专著、译著2本,参编著作7本。
著作:
[1]张力小著.城市能量过程及其结构解析.科学出版社,2018
[2]张力小译 (Alexey Voinov著).生态经济学中的系统分析与模拟.高等教育出版社,2014
[3]徐新良,乔治,田光进,张力小.城市热环境:格局·机理·模拟.科学出版社,2015
[4]参编多尺度突发环境污染事故风险区划(曾维华等编著).北京:科学出版社,2013
[5]参编生态系统的理论和实践(蔡晓明,蔡博峰编著).北京:化学工业出版社,2012
[6]参编中国环境宏观战略研究环境要素保护战略卷(中国工程院、环境保护部编).北京:中国环境科学出版社2010.6
[7]宋豫秦,张力小等.淮河流域可持续发展战略初论(专著).北京:化学工业出版社环境科学与工程出版中心,2003
[8]参编中国的沙漠与沙漠化(王涛主编).石家庄:河北科技出版社出版,2004
[9]参编面向21 世纪的环境科学与可持续发展:北京大学百年校庆国际研讨会论文集 (唐孝炎主编).北京:科学出版社,2000
英文文章:
[1]Zhang, P. P.,Zhang, L.X.*,Hao,Y., Liang, S., Liu, G.Y., Xiong, X., Yang, M., Tang, W.Z.2019. Understandingthetele-coupling mechanism of urban food-energy-water nexus: Criticalsources,nodes, and supply chains. Journal of Cleaner Production 235, 297-307
[2]Chang, Y., Lei, S.H., Teng, J.J.,Zhang, J.X.,Zhang, L.X., Xu,X..2019. The energy use and environmentalemissions of high-speed railtransportation in China: A bottom-up modeling. Energy.
[3]Liu, J., Liu, R.Z., Zhang, Z.J., Cai,Y.P.,Zhang, L.X.2019. ABayesian Network-based risk dynamic simulationmodel for accidental waterpollution discharge of mine tailings ponds atwatershed-scale. Journal ofEnvironmental Management. 246, 821-831
[4]Wang, C.B.,Zhang, L.X.,Zhou, P., Chang, Y., Zhou, D.Q., Pang, M.Y., Yin,H.2019. Assessing theenvironmental externalities for biomass- and coal-firedelectricity generationin China: A supply chain perspective. Journal ofEnvironmental Management, 246,758-767
[5]Wu, X.L.,Zhang, L.X.,Zhao, C.F., Gegen, T., Zheng, C.W., Shi, X.Q.,Geng, J. Letu, H.2019.Satellite‐Based Assessment of LocalEnvironment Change by Wind Farms in China.Earth and Space Science, https://doi.org/10.1029/2019EA000628
[6]Cai, B.F., Yang, W.S.,Zhang,L.X.*,Feng, Y.Y. 2019. China CO2 emissions performance analysis atsub-province level.Environmental Engineering and Management Journal.18, 203-212
[7]Li, D., Zhao, L.M., Ma, S., Shao, S.,Zhang, L.X.2019.What influences an individual’s pro-environmentalbehavior? A literature review. Resources,Conservation and Recycling. 146, 28-34
[8]Su, M.R., Xie, H., Yue, W.C.,Zhang,L.X.,Yang, Z.F., Chen, S.H. 2019.Urban ecosystem health evaluation fortypicalChinese cities along the Belt and Road. Ecological Indicators 101, 572–582
[9]Pang, M.Y., Yang, S.Y.,Zhang,L.X.*,Li, Y., Kong, F.L., Wang, C.B.2019.Understanding the linkagesbetween productionactivities and ecosystem degradation in China: An ecologicalinput-output modelof 2012. Journal of Cleaner Production 218,975-984
[10]Zhang, P.P.,Zhang, L.X.*,Chang,Y., Xu, M., Hao, Y., Liang, S., Liu, G.Y., Yang, Z.F., Wang, C.2019.Food-energy-water (FEW) nexus for urban sustainability: A comprehensivereview.Resources, Conservation & Recycling 142, 215–224
[11]Zhang, C., Shan, B.Q., Tang, W.Z., Wang,C.,Zhang, L.X.2019.Identifyingsediment-associated toxicity in riversaffected by multiple pollutants from thecontaminant bioavailability. Ecotoxicologyand Environmental Safety, 171, 84–91
[12]Han, J., Chen, W.Q.,Zhang,L.X.,Liu, G.2018.Uncovering the Spatiotemporal Dynamics of UrbanInfrastructure Development:A High Spatial Resolution Material Stock and Flow Analysis.Environ. Sci.Technol., 52, 12122?12132
[13]Chang, Y., Li, X.D., Masanet, E.,Zhang, L.X.,Huang, Z.Y.,,Riese, R.2018.Unlocking the greenopportunity for prefabricated buildings andconstruction in China. Resources,Conservation & Recycling 139, 259–261
[14]Rutebuka, E.,Zhang, L.X.*,Asamoah,E.F., Pang M.Y., Rukundo, E.2018. Resource Dynamism of the RwandanEconomy: AnEmergy Approach. Sustainability 10, 1791, 1-19
[15]Wang, C.B., Chang, Y.,Zhang,L.X.*,Chen, Y.S., Pang, M.Y.2018.Quantifying uncertainties in greenhousegasaccounting of biomass power generation in China: System boundary andparameters.Energy 158,121-127
[16]Liu, S.Y., Wang, C., Shi, L., Cai, W.J.,Zhang, L.X. 2018.Waterconservation implications for decarbonizingnon-electric energy supply: A hybridlife-cycle analysis. Journal ofEnvironmental Management 219, 208-217
[17]Rutebuka, E.,Zhang, L.X.*,Asamoah, E.F., Rukundo,E., William, A.2018.Evaluating the Conservation Effortsof Multi-Projects UsingRemote Sensing.urbanOpen Journal of Forestry 8, 68-86
[18]Zhang, P.P.,Zhang, L.X.*,Tian, X., Hao, Y., Wang,C.B., 2018.Urban energy transition in China: Insightsfrom trends, socioeconomicdrivers, and environmental impacts of Beijing.Energy Policy117, 173–183
[19]Zhang, J.X., Chang, Y.,Zhang, L.X., Li, D.2018.Dotechnological innovations promote urban greendevelopment? -A spatialeconometric analysis of 105 cities in China. Journal ofCleaner Production 182,395-403
[20]Pang, M.Y.,Zhang, L.X.*,Bahaj,A.S., Xu, K.P, Wang, C.B. 2018.Small hydropower development in Tibet:Insightsfrom a survey in Nagqu Prefecture. Renewable and Sustainable EnergyReviews. 81,3032-3040
[21]Song, B., Zhang, Y.,Zhang,L.X.*,Zhang, F. 2018. A top-down framework for cross-regional payments forecosystemservices. Journal of Cleaner Production 182, 238-245
[22]Zhang, L.X.*, Tang, S.J., Pang,M.Y. 2018.Integrated emergy and economicevaluation of a case tidal power plantin China. Journal of Cleaner Production182, 38-45
[23]Yang, J.H., Chang, Y.,Zhang,L.X.*,Hao, Y., Yan, Q., Wang, C.B. 2018.The life-cycle energy andenvironmentalemissions of a typical offshore wind farm in China. Journal ofCleanerProduction 180, 316-324
[24]Asamoah, E.F.,Zhang, L.X.*,Liang, S., Pang, M.Y., Tang, S.J. 2017.Emergy Perspectives on theEnvironmentalPerformance and Sustainability of Small-Scale Gold ProductionSystems in Ghana.Sustainability 9, 2034
[25]Asamoah, E.F.,Zhang, L.X.*,Liu,G.Y., Owusu-Prempeh, N., Rukundo,E.2017.Estimating the “Forgone” ESVs forSmall-Scale Gold Mining UsingHistorical Image Data Sustainability 9,1976
[26]Xu, L., Pang,M.Y.,Zhang, L.X.*,Poganietz,W.R., Marathe,S.D..2018. Life cycle assessment of onshore wind power systems inChina. Resources, Conservation and Recycling 132, 361-368
[27]Yao, Y., Chang, Y., Huang,R.ZE.,Zhang,L.X.,Masanet, E. 2018.Environmental implications of the methanoleconomy in China: well-to-wheelcomparison of energy and environmental emissionsfor different methanol fuelproduction pathways. Journal of Cleaner Production.172, 484-492
[28]Zhang, J.X., Chang, Y., Wang,C.B.,Zhang, L.X. 2018. The greenefficiency of industrial sectors inChina: A comparative analysis based onsectoral and supply-chainquantifications. Resources, Conservation andRecycling 132, 269-277
[29]Zhang, B., Meng, Z.,Zhang, L.X.,Sun,X.D., Hayat, T.,Alsaedi, A., Ahmad, B.2018.Exergy-based systems account ofnational resourceutilization: China 2012. Resources, Conservation and Recycling132, 324-338
[30]Liu, G.Y., Casazza, M., Tian, X.,Zhang,Y., Hao, Y.,Zhang, L.X.,Liang, S., Giannetti, B. F.2017.Tracing theinter-regional coal flows andenvironmental impacts in Jing-Jin-Ji region. EcologicalModelling 364,98–112.
[31]Chang ,Y., Gu, Y.R.,Zhang,L.X., Wu, C.Y., Liang, L.2017.Energyand environmental implications of usinggeothermal heat pumps in buildings: Anexample from north China. Journal ofCleaner Production. 167, 484-492
[32]Zhang, J.X., Liu, Y.M., Chang,Y.,Zhang,L.X.2017. Industrialeco-efficiency in China: A provincial quantificationusing three-stage dataenvelopment analysis. Journal of Cleaner Production 143,238-249
[33]Pang, M.Y.,Zhang, L.X.*,Liang, S., Liu, G.Y.,Wang, C.B., Hao, Y., Wang, Y.F., Xu, M.2017.Trade-offbetween carbon reductionbenefits and ecological costs of biomass-based powerplants with carbon captureand storage (CCS) in China. Journal of CleanerProduction 144, 279-286
[34]Wang, C.B., Chang, Y.,Zhang,L.X..*, Pang M.Y., Hao, Y., 2017.A life-cycle comparison of the energy,environmental and economic impacts ofcoal versus wood pellets for generatingheat in China. Energy 120, 374-384
[35]Zhang, L.X., Hao, Y., Chang, Y.,Pang,M.Y., Tang, S.J.2017. Emergy based resource intensities of industrysectors inChina. Journal of Cleaner Production. 142,829-836
[36]Zhang, L.X.,Yang, Z.F.,Voinov, A.,Gao, S.L.2016. Nature-inspired stormwater management practice: Theecologicalwisdom underlying the Tuanchen drainage system in Beijing, China anditscontemporary relevance. Landscape and Urban Planning.155,11-20.(SCI)
[37]Hao, Y.,Zhang, L.X., Cai,Y.P., Su, M.R., Yang, Z.F. 2016. High-ResolutionMapping of Carbon Flows inUrban Systems: A Case Study in Guanyuan, anEarthquake-Affected Mountainous Cityof China. Journal of EnvironmentalInformatics 27, 106-115(SCI)
[38]Zhang, L.X., Pang, M.Y., Wang,C.B.,Ulgiati, S.2016. Environmental sustainability of small hydropower schemesinTibet: an emergy-based comparative analysis, Journal of Cleaner Production135,97–104
[39]Cai, B.F., Bo, X.,Zhang, L.X.*,Boyce, J.K., Zhang, Y.S.,Lei, Y.2016.Gearing carbon trading towardsenvironmental co-benefits in China:Measurement model and policy implications.Global Environmental Change 39,275-284
[40]Wang, C.B., Zhang, Y.Q.,Zhang,L.X.*, Pang, M.Y.2016.Alternativepolicies to subsidize rural householdbiogas digesters. Energy Policy 93,187–195(SCI, EI)
[41]Hao, Y., Cai, Y.P.,Zhang, L.X.,Su, M.R., Yang, Z.F.2016.Identificationof low-carbon strategies forpost-earthquake development in the city ofGuangyuan based on an inexact twostage stochastic programming approach. HabitatInternational 53, 413-429(SCI)
[42]Chang, Y., Li, G.J., Yao, Y.,Zhang,L.X., Yu, C.2016.Quantifying theWater-Energy-Food Nexus: Current Status andTrends.Energies2016,9(2), 65(SCI, EI)
[43]Cai, B.F., Wang, J.N., Long, Y.,Li, W.X., Liu, J.G., Ni, Z., Bo, X., Li,D., Wang, J.H., Chen, X.J., Gao, Q.X.,Zhang,L.X. 2015.Evaluating theimpact of odors from the 1955 landfills in Chinausing a bottom-up approach. Journalof Environmental Management.64,206-214(SCI)
[44]Wang, C.B.,Zhang, L.X.*,Chang, Y., Pang, M.Y.2015.Biomass direct-fired power generation system inChina: An integratedenergy, GHG emissions, and economic evaluation for Salix.Energy Policy. 84,155–165(SCI, EI)
[45]Pang, M.Y.,Zhang, L.X.*,Ulgiati, S., Wang, C.B.2015.Ecological impacts of small hydropower in China:Insights from an emergyanalysis of a case plant. Energy Policy. 76,112-122(SCI, EI)
[46]Pang, M.Y., Zhang, L.X.*,Wang,C.B., Liu, G.Y.2015.Environmental life cycle assessment of a small hydropowerplant in China.Int J Life Cycle Assess. 20, 796–806(SCI,EI)
[47] Zhang, L.X., Feng, Y.Y.,Zhao, B.H.2015.Disaggregation of energy-saving targets for China's provinces:modeling resultsand real choices. Journal of Cleaner Production.103,837-846(SCI,EI)
[48]Cai, B.F., Yang, W.S.,Zhang,L.X.*, Feng, Y.Y. 2014. China CO2emissions performance analysis atsub-province level. Environmental Engineeringand ManagementJournal.online
[49]Hao, Y., Su, M.R.,Zhang,L.X., Cai, Y.P., Yang, Z.F.2015. Integrated accounting of urban carboncycle in Guangyuan, a mountainouscity of China: the impacts of earthquake andreconstruction. Journal of CleanerProduction. 103, 231-240(SCI,EI)
[50]Zhu, J., Wang, X.,Zhang,L.X., Cheng, H.G., Yang, Z.F.2015. System dynamics modeling of theinfluence of the TN/TP concentrations insocioeconomic water on NDVI in shallowlakes. Ecological Engineering.76, 27-35(SCI,EI)
[51]Liu, G.Y., Yang, Z.F., Chen, B., Zhang,L.X., Zhang, Y., Su, M.R.2015. An Ecological Network Perspective in ImprovingReserve Design and Connectivity:A Case Study of Wuyishan Nature Reserve inChina. Ecological Modelling. 306,185-194(SCI,EI)
[52]Wang, J.N., Cai, B.F.,Zhang,L.X., Cao, D., Liu, L.C., Zhou,Y., Zhang, Z.S. and Xue, W.B. 2014.Highresolution carbon dioxide emission griddeddata for China derived from pointsources. Environ. Sci. Technol. 48, 7085?7093(SCI,EI)
[53]Qiao Z., Tian, G.J.,Zhang,L.X., Xu, X.L.2014.Influences ofUrban Expansion on Urban Heat Island inBeijing during 1989–2010.Advances inMeteorology.1-11(SCI)
[54] Zhang, L.X., Hu, Q.H., Zhang,F.2014.Input-outputmodeling for urban energy consumption in Beijing: Dynamicsand Comparison. Plosone 9(3):1-11(SCI)
[55]Zhang, L.X., Wang,C.B.2014.Energyand GHG Analysis of Rural Household Biogas Systems in China.Energies, 7,767-784(SCI, EI)
[56] Zhang, L.X., Wang, C.B., Bahaj,A.S. 2014.Carbon emissions by rural energy in China. Renewable Energy. 66,641-649(SSCI, EI)
[57]Cai B.F.,Zhang, L.X.*2014.UrbanCO2 emissions in China:Spatial boundary and performance comparison. EnergyPolicy. 66, 557-567(SCI, EI)
[58] Zhang, L.X.,Pang, M.Y.,Wang, C.B.,2014.Emergy analysis of a small hydropower plant in southwesternChina.Ecological Indicators. 38, 81–88(SCI, EI)
[59]Shi W.F., Zeng W.H.,Zhang,L.X.2013. Modeling the vulnerability of an industrial system: Anidealsystem of a simplified reactor vessel. Safety Science. 59, 193-199(SCI,EI)
[60]Liu G.Y., Yang Z.F., Chen B., Zhang, Y., Zhang, L.X.2013. Modelling a thermodynamic-basedcomparativeframework for urban sustainability: Incorporating economic andecologicallosses into emergy analysis. Ecological Modelling, 252, 280-287(SCI,EI)
[61]Liu G.Y., Yang Z.F., Chen B., Zhang, Y., Su, M.R.,Zhang, L.X.2013.Emergy Evaluation oftheUrban Solid Waste Handling in Liaoning Province, China. Energies 2013,6(10),5486-5506(SCI, EI)
[62]Su M.R., Yang Z.F., Chen B., Liu G.Y., Zhang Y.,Zhang, L.X.,Xu L.Y., Zhao Y.W.UrbanEcosystem Health Assessment and its Application in Management: AMulti-ScalePerspective. Entropy, 2013, 15(1): 1-9. (SCI)
[63]Su M.R., Zhang Y., Liu G.Y., Xu, L.Y.,Zhang, L.X., Yang, Z.F., 2013.Urban Ecosystem HealthAssessment:Perspectives and Chinese Practice. International Journal ofEnvironment Researchand Public Health 10, 5874-5885 (SCI)
[64]Wang C.B.,Zhang, L.X.*,Liu J. 2013. Cost of non-renewable energy in production of wood pelletsinChina. Frontiers of Earth Science. 7(2):199-205(SCI)
[65]Feng, Y.Y., Chen, S.Q.,Zhang,L.X. *2013. System dynamics modeling for urban energy consumption andCO2emissions: A case study of Beijing, China. Ecological Modelling 252,44–52(SCI,EI)
[66] Zhang, L.X.*,Wang,C.B., Song, B.2013.Carbon emission reduction potential of a typical householdbiogas system inrural China. Journal of Cleaner Production 47, 415–421 (SCI,EI)
[67]Zhang, L.X., Hu, Q.H., Wang,C.B., 2013. Emergy evaluation ofenvironmental sustainability of poultry farmingthat produces products withorganic claims on the outskirts of mega-cities inChina. EcologicalEngineering, 54,128– 135(SCI, EI)
[68]Pang M.Y.,Zhang L.X.*,WangC.B., Liu, G.Y. 2013.Emergy Analysis of a Biomass Direct-fired Power PlantinInner Mongolia of China. Journal of Environmental Accounting andManagement.Journal of Environmental Accounting and Management 1(4) (2013)321-331
[69]Wang C.B.,Zhang L.X.*.2012.A Hybrid Life-Cycle Assessment of Nonrenewable Energy andGreenhouse-GasEmissions of a Village-Level Biomass Gasification Project inChina. Energies5(8), 2708-2723(SCI, EI)
[70]Zhang, L.X., Song, B., Chen, B.2012.Emergy-based analysis of four farming systems: insight into agriculturaldiversificationin rural China. Journal of Cleaner Production, 28, 33–44(SCI,EI)
[71]Zhang, L.X., Feng, Y.Y.,Chen,B.2011. Alternative scenarios for the development of a Low-carbon city: acase studyof Beijing, China. Energies, 4, 2295-2310(SCI, EI)
[72]Zhang, L.X., Yang, Z.F., Liang,J.,Cai, Y.P. 2011.Spatial variation and distribution of urban energyconsumptionsfrom cities in China. Energies, 4, 26-38(SCI, EI)
[73]Zhang, L.X., Ulgiati, S., Chen,B.2011. Emergy evaluation and economic analysis of three wetland fishfarmingsystems in Nansi Lake area, China, Journal of Environmental Management92,683-694 (SCI)
[74]Liu G.Y., Yang, Z.F., Chen, B.,Zhang,L.X., 2011. Analysis of Resource and Emission Impacts: AnEmergy-BasedMultiple Spatial Scale Framework for Urban Ecological and EconomicEvaluation.Entropy 13, 720-743 (SCI)
[75]Liu G.Y., Yang, Z.F., Chen, B., Su, M.R., Zhang, Y.,Zhang, L.X., Jiang, M.M., 2011.Extendedexergy analysis of urban socioeconomic system: a case study ofBeijing,1996-2006. International Journal of Exergy. 168-191.
[76]Zhang,L.X.,Yang, Z.F.,Chen, B., Chen, G.Q.. 2009.Rural energy inChina: Pattern and policy. RenewableEnergy 34, 2813–2823(SSCI, SCI,EI)
[77]Zhang,L.X., Yang, Z.F., Chen, B.et al. 2009.Temporal and spatialvariations of energy consumption in ruralChina. Commun Nonlinear Sci NumerSimulat 14, 4022-4031(SCI, EI)
[78]Zhang,L.X.,Chen, B., Yang,Z.F. et al. 2009.Comparison of typical mega cities in China usingemergysynthesis. Commun Nonlinear Sci Numer Simulat14, 2827-2836(SCI, EI)
[79]Zhang,L.X., Yang, Z.F., Chen,G.Q,, 2007. Emergy analysis ofcropping-grazing system in Inner MongoliaAutonomous Region, China. EnergyPolicy 35, 3843–3855.(SCI, SSCI,EI)
[80]Cai, Z.F.,Zhang, L.X*.,Zhang, B., Chen, Z.M. 2009.Emergy-based analysis ofBeijing–Tianjin–Tangshanregion in China. CommunNonlinear Sci Numer Simulat 14 (2009) 4319–4331(SCI, EI)
[81]Jiang, M.M., Zhou, J.B. Chen, B., Yang,Z.F., Ji, X.,Zhang,L.X., Chen, G.Q.2009.Ecological evaluationofBeijing ecosystem based on emergy indices, Communications in NonlinearScienceand Numerical Simulation14, 2482-2494 (SCI, EI)
[82]Liu, G.Y., Yang, Z.F., Chen, B., Zhang, Y.,Zhang L.X., et al.2009. Emergy-basedurban ecosystem healthassessment: A case study of Baotou, China. Commun NonlinearSci Numer Simul., 14(3) 972-981(SCI,EI)
中文论文:
[1]赵元浩,张力小,梁赛,郝岩,庞明月,王长波.生命周期视角下废弃餐饮油脂炼制生物柴油的环境效益分析.环境科学学报.2019,XX(XX):1-8.
[2]曹明兰,李亚东,张力小.浙南海岸带红树林建设情景设计与模拟.中国人口·资源与环境.2018 28(12):42-45
[3]熊欣,张力小*,张鹏鹏,郝岩,常远,王灿.城市食物代谢的动态过程及其水-碳足迹响应—以北京市为例.自然资源学报.2018, 33(11): 1886-1896
[4]张江雪,张力小,李.绿色技术创新:制度障碍与政策体系.中国行政管理.2018,392(2):153-155
[5]唐守娟,张力小,庞明月,郝岩.基于能值分析的中国潮汐能发电可持续性研究——以浙江省江厦潮汐试验电站为例.生态学杂志,2017 ,36 (4):1060-1066
[6]葛荣凤,许开鹏,迟妍妍,王晶晶,张力小,张箫,张丽苹.京津冀地区矿产资源开发的生态环境影响研究.中国环境管理.2017.3,47-51
[7]王长波,陈永生,张力小,常远,庞明月.秸秆压块与燃煤供热系统生命周期环境排放对比研究.环境科学学报. 2017.
[8]杨举华,张力小*,王长波,蔡宴朋.郝岩.基于混合生命周期分析的我国海上风电场能耗及温室气体排放研究.环境科学学报.2017, 37(2):786-792
[9]葛荣凤,王京丽,张力小*,田光进,冯悦怡.北京市城市化进程中热环境响应.生态学报,2016,36(19):
[10]葛荣凤,张力小*,王京丽,田光进,冯悦怡.城市热岛效应的多尺度变化特征及其周期分析—以北京市为例.2016.52(2):210-215
[11]曹明兰,张力小*,王强.无人机遥感影像中行道树信息快速提取[J].中南林业科技大学学报,2016, 36(10):89-93
[12]王长波,张力小*,庞明月.生命周期评价方法研究综述——兼论混合生命周期评价的发展与应用.自然资源学报.2015,30(7):1232-1242
[13]庞明月,张力小*,王长波.基于能值分析的我国小水电生态影响研究.生态学报,生态学报,2015,35(8):2741-2749.
[14]蔡博峰,张力小.上海城市二氧化碳排放空间特征.气候变化研究进展.2014.10(6):417-426
[15]冯悦怡,胡潭高,张力小*.城市公园景观空间结构对其热环境效应的影响研究.生态学报,2014,34( 12): 3179-3187.
[16]冯悦怡,李恩敬,张力小.校园绿地夏季小气候效应分析.北京大学学报(自然科学版)2014, 50(9):812-818
[17]庞明月,张力小?,王长波.基于生态能量视角的我国小水电可持续性分析.生态学报,2014,3: 537-545
[18]张力小,马奇菊.投入产出技术在城市环境总体规划中的应用研究.环境科学与管理.2013.38(12):117-121
[19]张力小,冯悦怡,胡秋红.城市能源系统的体现能过程解析——以北京市为例.能源科学发展,2013,1(3):22-30
[20]冯悦怡,张力小.城市节能与碳减排政策情景分析——以北京市为例.资源科学,2012,34(3):541-550
[21]张力小,胡秋红.城市物质能量代谢相关研究述评-兼论资源代谢的内涵与研究方法.自然资源学报.2011, 26(10):1801-1810
[22]王长波,张力小.中国农村能源消费的碳排放核算.农业工程学报.2011,27(supp1), 6-11(EI).
[23]张力小,胡秋红,王长波.中国农村能源消费的时空分布特征及其政策演变.农业工程学报.2011.27(1),1-9(EI)
[24]胡秋红,张力小,王长波.两种典型养鸡模式的能值分析.生态学报.2011,31(23):7227-7234
[25]张力小.关于重大生态建设工程系统整合的思考.中国人口﹒资源与环境. 2011,21(12):73-77
[26]梁竞,张力小.基于Theil指数的城市能源消费空间差异测度分析.中国人口资源与环境.2010,20(3):85-88
[27]张力小,梁竞.区域资源禀赋对资源利用效率影响研究.自然资源学报.2010,25(7):1-11
[28]梁竞,张力小.中国省会城市能源消费的空间分布特征分析.资源科学.2009,31(12):2086-2092
[29]张力小,刘杰.2009.北方沙漠化地区生态移民的关键问题.生态学杂志,28(7):1394-1398
[30]张力小,杨志峰,陈彬等.2008.基于生物物理视角的城市生态竞争力.生态学报,28(9):4344-4351
[31]张力小,杨志峰,张妍.生态边缘正负效应的理论分析.中国人口资源与环境.2007,17(5):1-4
[32]张力小.中国北方农牧交错带农牧业选择适宜性分析——以科尔沁沙地为例.水土保持研究.2007, 14(5):44-47
[33]张力小.人地作用关系中生态陷阱现象解析.生态学报.2006,26(7):216-2173
[34]宋波;张力小.应用牧草生长—消费模型分析牧民的放牧行为——作为对政府管理行为的建议. 草业学报.2005,14(3):11-15
[35]张力小,宋豫秦.三种生产理论在北方荒漠化地区人地系统分析中的应用.中国人口、资源与环境.2003,13(6):101-104
[36]张力小,宋豫秦.三北防护林体系工程政策有效性分析.北京大学学报(自然科学版).2003,39(4):594-600
[37]张力小,何英.西部大开发退耕还林(草)的政策有效性评析.林业科学,2002,38(1):130-13
[38]张力小,宋豫秦.青藏高原的隆起对中国沙漠与沙漠化时空格局的影响. 中国人口、资源与环境.2001,11(4):98-101
[39]宋豫秦,张力小等.淮河流域人地系统的自组织分析.中国人口、资源与环境.2002,12(4):85-88
[40]前川孝昭,宋豫秦,程必定,张力小.淮河流域可持续发展研究的重点问题. 中国人口、资源与环境.2002,12(4):77-80
[41]曹淑艳,宋豫秦,程必定,张振亚,张力小.淮河流域可持续发展状态评价. 中国人口、资源与环境.2002,12(4):81-84
[42]宋豫秦,张力小.历史时期我国沙尘暴东渐原因分析.中国沙漠.2002,22(6):632-635
[43]蔡博峰,张力小等.我国北方农牧交错带人地系统脆弱性刍议.环境保护2002,11:22-27
[44]宋豫秦,前川孝昭,张振亚,魏斌,张力小.《淮河流域可持续发展战略研究》撷要.长江流域资源与环境.2002,11(4):349-351
[45]宋豫秦,张力小等.耗散结构理论在我国北方农牧交错带人地系统分析中的应用, 中国沙漠,2000,20(supp):15-21
[46]宋豫秦,张力小等.科尔沁沙地衬膜水稻与滩涂水稻主要营养元素分析.中国沙漠2000,20(supp): 77-80
[47]宋豫秦,曹淑艳,张力小.试论中国北方农牧交错带人地系统的主要特征及其度量指标——以科尔沁沙地为例,中国沙漠2000,20(supp): 53-57
[48]宋豫秦,曹淑艳,张力小.试论景观格局在荒漠化研究中的应用.中国沙漠2000,20(supp): 73-76
社会任职
Journal of Environmental Management副主编
Resource, Conservation & Recycling编委
Development of Energy Science编委
International Journal of EnergyandEnvironmental Science编委
Frontiers in Sustainable Cities编委
《中国环境管理》编委
中国环境科学学会环境地学分会秘书长
中国生态学会产业生态专业委员会副主任
北京能源协会青年专家委员会副主任
中国“双法”研究会能源经济与管理研究分会常务理事
中国自然资源学会资源流动与管理研究专业委员会副主任委员
环境规划专业委员会委员 委员
国际产业生态学会 会员
国际生态模拟学会 会员
国际能值协会 会员
国际环境信息学会 会员
中国生态学会 会员
中国自然资源学会 会员
其他信息
荣誉奖励:
2016年高等学校科学研究优秀成果奖(科学技术)二等奖
2010年高等学校科学研究优秀成果奖(科学技术)一等奖
2012年国家科技进步二等奖
研究方向
食物-能源-水关联关系
生态系统核算与管理
城市物质能量代谢
可再生能源系统分析
联系方式
??联系地址:北京市海淀区新街口外大街19号
邮政编码:100875
电话:
Email: zhanglixiao@bnu.edu.cn
ENGLISH
Lixiao Zhang, Ph.D.
E-mail: zhanglixiao@bnu.edu.cn
Mailing Address: School of Environment, Beijing Normal University, 19 Xinjiekouwai st., Beijing, 100875
Background Summary
Research interests cover ecological accounting, urban metabolism, life cycle analysis
Produced over 130 papers, of which more than 80 papers have been included in SCI database.
Involved in over 30 research projects
Delivered over 20 oral presentations at conferences, workshops, symposiums, or seminars
Education
Ph.D. ,2001-2004.College of Environmental Sciences, Peking University, major in Environmental Sciences.
M.Sc., 1999-2001.College of Environmental Sciences, Peking University, major in Environmental Sciences.
B.Sc. 1995-1999. Department of Environmental Sciences, Qingdao University., major in Environmental Planning and Management.
Research and Work Experience
Professor, Associated dean, School of Environment, Beijing Normal University, China, 2016 - present
Associated Professor, School of Environment, Beijing Normal University, China, 2011–2016
Lecturer, School of Environment, Beijing Normal University, China, 2005 –2011
Research assistant, Institute of Botany in Boku University of Austria, 2004-2005
Publications
[1]Zhang, P. P.,Zhang, L.X.*,Hao,Y., Liang, S., Liu, G.Y., Xiong, X., Yang, M., Tang, W.Z.2019. Understandingthetele-coupling mechanism of urban food-energy-water nexus: Criticalsources,nodes, and supply chains. Journal of Cleaner Production 235, 297-307
[2]Chang, Y., Lei, S.H., Teng, J.J.,Zhang, J.X.,Zhang, L.X., Xu,X..2019. The energy use and environmentalemissions of high-speed railtransportation in China: A bottom-up modeling. Energy.
[3]Liu, J., Liu, R.Z., Zhang, Z.J., Cai,Y.P.,Zhang, L.X.2019. ABayesian Network-based risk dynamic simulationmodel for accidental waterpollution discharge of mine tailings ponds atwatershed-scale. Journal ofEnvironmental Management. 246, 821-831
[4]Wang, C.B.,Zhang, L.X.,Zhou, P., Chang, Y., Zhou, D.Q., Pang, M.Y., Yin,H.2019. Assessing theenvironmental externalities for biomass- and coal-firedelectricity generationin China: A supply chain perspective. Journal ofEnvironmental Management, 246,758-767
[5]Wu, X.L.,Zhang, L.X.,Zhao, C.F., Gegen, T., Zheng, C.W., Shi, X.Q.,Geng, J. Letu, H.2019.Satellite‐Based Assessment of LocalEnvironment Change by Wind Farms in China.Earth and Space Science, https://doi.org/10.1029/2019EA000628
[6]Cai, B.F., Yang, W.S.,Zhang,L.X.*,Feng, Y.Y. 2019. China CO2 emissions performance analysis atsub-province level.Environmental Engineering and Management Journal.18, 203-212
[7]Li, D., Zhao, L.M., Ma, S., Shao, S.,Zhang, L.X.2019.What influences an individual’s pro-environmentalbehavior? A literature review. Resources,Conservation and Recycling. 146, 28-34
[8]Su, M.R., Xie, H., Yue, W.C.,Zhang,L.X.,Yang, Z.F., Chen, S.H. 2019.Urban ecosystem health evaluation fortypicalChinese cities along the Belt and Road. Ecological Indicators 101, 572–582
[9]Pang, M.Y., Yang, S.Y.,Zhang,L.X.*,Li, Y., Kong, F.L., Wang, C.B.2019.Understanding the linkagesbetween productionactivities and ecosystem degradation in China: An ecologicalinput-output modelof 2012. Journal of Cleaner Production 218,975-984
[10]Zhang, P.P.,Zhang, L.X.*,Chang,Y., Xu, M., Hao, Y., Liang, S., Liu, G.Y., Yang, Z.F., Wang, C.2019.Food-energy-water (FEW) nexus for urban sustainability: A comprehensivereview.Resources, Conservation & Recycling 142, 215–224
[11]Zhang, C., Shan, B.Q., Tang, W.Z., Wang,C.,Zhang, L.X.2019.Identifyingsediment-associated toxicity in riversaffected by multiple pollutants from thecontaminant bioavailability. Ecotoxicologyand Environmental Safety, 171, 84–91
[12]Han, J., Chen, W.Q.,Zhang,L.X.,Liu, G.2018.Uncovering the Spatiotemporal Dynamics of UrbanInfrastructure Development:A High Spatial Resolution Material Stock and Flow Analysis.Environ. Sci.Technol., 52, 12122?12132
[13]Chang, Y., Li, X.D., Masanet, E.,Zhang, L.X.,Huang, Z.Y.,,Riese, R.2018.Unlocking the greenopportunity for prefabricated buildings andconstruction in China. Resources,Conservation & Recycling 139, 259–261
[14]Rutebuka, E.,Zhang, L.X.*,Asamoah,E.F., Pang M.Y., Rukundo, E.2018. Resource Dynamism of the RwandanEconomy: AnEmergy Approach. Sustainability 10, 1791, 1-19
[15]Wang, C.B., Chang, Y.,Zhang,L.X.*,Chen, Y.S., Pang, M.Y.2018.Quantifying uncertainties in greenhousegasaccounting of biomass power generation in China: System boundary andparameters.Energy 158,121-127
[16]Liu, S.Y., Wang, C., Shi, L., Cai, W.J.,Zhang, L.X. 2018.Waterconservation implications for decarbonizingnon-electric energy supply: A hybridlife-cycle analysis. Journal ofEnvironmental Management 219, 208-217
[17]Rutebuka, E.,Zhang, L.X.*,Asamoah, E.F., Rukundo,E., William, A.2018.Evaluating the Conservation Effortsof Multi-Projects UsingRemote Sensing.urbanOpen Journal of Forestry 8, 68-86
[18]Zhang, P.P.,Zhang, L.X.*,Tian, X., Hao, Y., Wang,C.B., 2018.Urban energy transition in China: Insightsfrom trends, socioeconomicdrivers, and environmental impacts of Beijing.Energy Policy117, 173–183
[19]Zhang, J.X.,Chang, Y.,Zhang, L.X., Li, D.2018.Dotechnological innovations promote urban greendevelopment? -A spatialeconometric analysis of 105 cities in China. Journal ofCleaner Production 182,395-403
[20]Pang, M.Y.,Zhang, L.X.*,Bahaj,A.S., Xu, K.P, Wang, C.B. 2018.Small hydropower development in Tibet:Insightsfrom a survey in Nagqu Prefecture. Renewable and Sustainable EnergyReviews. 81,3032-3040
[21]Song, B., Zhang, Y.,Zhang,L.X.*,Zhang, F. 2018. A top-down framework for cross-regional payments forecosystemservices. Journal of Cleaner Production 182, 238-245
[22]Zhang, L.X.*, Tang, S.J., Pang,M.Y. 2018.Integrated emergy and economicevaluation of a case tidal power plantin China. Journal of Cleaner Production182, 38-45
[23]Yang, J.H., Chang, Y.,Zhang,L.X.*,Hao, Y., Yan, Q., Wang, C.B. 2018.The life-cycle energy andenvironmentalemissions of a typical offshore wind farm in China. Journal ofCleanerProduction 180, 316-324
[24]Asamoah, E.F.,Zhang, L.X.*,Liang, S., Pang, M.Y., Tang, S.J. 2017.Emergy Perspectives on theEnvironmentalPerformance and Sustainability of Small-Scale Gold ProductionSystems in Ghana.Sustainability 9, 2034
[25]Asamoah, E.F.,Zhang, L.X.*,Liu,G.Y., Owusu-Prempeh, N., Rukundo,E.2017.Estimating the “Forgone” ESVs forSmall-Scale Gold Mining UsingHistorical Image Data Sustainability 9,1976
[26]Xu, L., Pang,M.Y.,Zhang, L.X.*,Poganietz,W.R., Marathe,S.D..2018. Life cycle assessment of onshore wind power systems inChina. Resources, Conservation and Recycling 132, 361-368
[27]Yao, Y., Chang, Y., Huang,R.ZE.,Zhang,L.X.,Masanet, E. 2018.Environmental implications of the methanoleconomy in China: well-to-wheelcomparison of energy and environmental emissionsfor different methanol fuelproduction pathways. Journal of Cleaner Production.172, 484-492
[28]Zhang, J.X., Chang, Y., Wang,C.B.,Zhang, L.X. 2018. The greenefficiency of industrial sectors inChina: A comparative analysis based onsectoral and supply-chainquantifications. Resources, Conservation andRecycling 132, 269-277
[29]Zhang, B., Meng, Z.,Zhang, L.X.,Sun,X.D., Hayat, T.,Alsaedi, A., Ahmad, B.2018.Exergy-based systems account ofnational resourceutilization: China 2012. Resources, Conservation and Recycling132, 324-338
[30]Liu, G.Y., Casazza, M., Tian, X.,Zhang,Y., Hao, Y.,Zhang, L.X.,Liang, S., Giannetti, B. F.2017.Tracing theinter-regional coal flows andenvironmental impacts in Jing-Jin-Ji region. EcologicalModelling 364,98–112.
[31]Chang ,Y., Gu, Y.R.,Zhang,L.X., Wu, C.Y., Liang, L.2017.Energyand environmental implications of usinggeothermal heat pumps in buildings: Anexample from north China. Journal ofCleaner Production. 167, 484-492
[32]Zhang, J.X., Liu, Y.M., Chang,Y.,Zhang,L.X.2017. Industrialeco-efficiency in China: A provincial quantificationusing three-stage dataenvelopment analysis. Journal of Cleaner Production 143,238-249
[33]Pang, M.Y.,Zhang, L.X.*,Liang, S., Liu, G.Y.,Wang, C.B., Hao, Y., Wang, Y.F., Xu, M.2017.Trade-offbetween carbon reductionbenefits and ecological costs of biomass-based powerplants with carbon captureand storage (CCS) in China. Journal of CleanerProduction 144, 279-286
[34]Wang, C.B., Chang, Y.,Zhang,L.X..*, Pang M.Y., Hao, Y., 2017.A life-cycle comparison of the energy,environmental and economic impacts ofcoal versus wood pellets for generatingheat in China. Energy 120, 374-384
[35]Zhang, L.X., Hao, Y., Chang, Y.,Pang,M.Y., Tang, S.J.2017. Emergy based resource intensities of industrysectors inChina. Journal of Cleaner Production. 142,829-836
[36]Zhang, L.X.,Yang, Z.F.,Voinov, A.,Gao, S.L.2016. Nature-inspired stormwater management practice: Theecologicalwisdom underlying the Tuanchen drainage system in Beijing, China anditscontemporary relevance. Landscape and Urban Planning.155,11-20.(SCI)
[37]Hao, Y.,Zhang, L.X., Cai,Y.P., Su, M.R., Yang, Z.F. 2016. High-ResolutionMapping of Carbon Flows inUrban Systems: A Case Study in Guanyuan, anEarthquake-Affected Mountainous Cityof China. Journal of EnvironmentalInformatics 27, 106-115(SCI)
[38]Zhang, L.X., Pang, M.Y., Wang,C.B.,Ulgiati, S.2016. Environmental sustainability of small hydropower schemesinTibet: an emergy-based comparative analysis, Journal of Cleaner Production135,97–104
[39]Cai, B.F., Bo, X.,Zhang, L.X.*,Boyce, J.K., Zhang, Y.S.,Lei, Y.2016.Gearing carbon trading towardsenvironmental co-benefits in China:Measurement model and policy implications.Global Environmental Change 39,275-284
[40]Wang, C.B., Zhang, Y.Q.,Zhang,L.X.*, Pang, M.Y.2016.Alternativepolicies to subsidize rural householdbiogas digesters. Energy Policy 93,187–195(SCI, EI)
[41]Hao, Y., Cai, Y.P.,Zhang, L.X.,Su, M.R., Yang, Z.F.2016.Identificationof low-carbon strategies forpost-earthquake development in the city ofGuangyuan based on an inexact twostage stochastic programming approach. HabitatInternational 53, 413-429(SCI)
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北京师范大学环境学院导师教师师资介绍简介-张力小
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