煤炭绿色物流系统构建与优化研究
|
摘要
煤炭物流作为煤炭产业中的一个重要环节,是连接煤炭生产与消费的桥梁与纽带,是国民经济与社会发展的支柱,但现有的煤炭物流系统各个环节都在不同程度上对环境产生了负面影响,并且这种影响随着煤炭物流的发展而加剧。为了抑制煤炭物流活动对环境的影响和加强资源的循环利用,实现煤炭物流可持续发展,必须从环境角度对现行煤炭物流系统加以改进,建立一种生态环境共生型的煤炭绿色物流系统。因此,本文以传统煤炭物流为起点,以煤炭物流绿色化为目标,研究煤炭绿色物流系统的构建,并对其进一步优化,为政府制定煤炭绿色物流产业政策,引导推动煤炭企业实施绿色物流提供理论依据和决策参考。
首先,本文在对现行煤炭物流系统中“非绿色”因素分析的基础上,将“绿色”理念引入煤炭物流中,界定了煤炭绿色物流概念,并提出了煤炭发展绿色物流的必要性。在此基础上,系统分析了煤炭发展绿色物流内外影响因素及其作用机理,构建了煤炭绿色物流影响因素作用机理理论模型,并运用结构方程模型对煤炭绿色物流影响因素作用进行测度分析,实证检验表明,内部动因、外部条件支撑、相关主体影响三个因素则是通过驱动绿色物流效益间接对绿色物流实施意愿产生正向影响,内部障碍则是通过绿色物流效益间接对绿色物流实施意愿产生负向影响,政策制度对绿色物流实施意愿具有直接正向影响,绿色物流效益对绿色物流实施意愿产生正向影响。
然后,构建煤炭绿色物流系统。基于系统的视角,以实现煤炭绿色物流系统经济效益、社会效益和环境效益的统一为目标,构建了一个综合立体的煤炭绿色物流系统结构模型,从煤炭绿色物流基础设施平台、煤炭绿色物流信息平台、煤炭绿色物流应用平台、政策法规和技术标准等方面对其进行结构和特征描述,分析了基于供应链的煤炭企业绿色物流系统构成,并重点阐明了煤炭绿色物流系统的功能。在此基础上提出了煤炭绿色物流系统的运行模式。
接着,优化煤炭绿色物流系统。一是针对我国煤炭运输物流现状和特点,基于绿色物流思想,引入运输外部成本,建立煤炭绿色物流运输调配优化模型,通过算例优化了我国煤炭资源调配线路,确定了我国不同供给地与需求地的最优运输调配量,并对运输外部成本进行估算分析。研究结果对于节约全社会煤炭运输成本,尽可能减少运输能源资源消耗和对环境的影响程度具有重要的理论与现实意义;二是建立煤炭绿色废弃物物流系统动力学仿真模型,选取了三种具有代表性的废弃物物流模式进行灵敏度拟合分析。模拟结果表明,与传统废弃物物流模式及浅绿色废弃物物流模式相比,绿色废弃物物流模式下废弃物得到了有效综合的利用,由此带来产值增加最为明显,能够实现经济效益与生态效益的协调优化。
最后,系统地设计了煤炭绿色物流系统运行的机制。在分析煤炭发展绿色物流动力不足的原因及表现形式的基础上,设计了煤炭绿色物流利益驱动机制、政府激励机制、政府约束机制、技术推动机制、社会需求拉动机制。针对煤炭物流外部性的政府必须有合理的制度安排,重点设计了信息不对称条件下,政府如何监督煤炭企业实施绿色物流的激励约束机制,详细分析了政府固定补贴、激励强度、检查概率、监督成本、惩罚力度等对煤炭绿色物流行为的影响,由此提出了政府的政策制度是推动煤炭绿色物流发展的关键。
该论文有图72幅,表26个,参考文献258篇。
As a key part of coal industry, coal logistics is the bridge of coal production andcoal consumption and plays an important role in the national economy and socialdevelopment. However, the different parts of the current coal logistics system havehad a negative impact on the environment to some degree, and the impact has beenintensifying with the development of coal logistics system. The current coal logisticssystem should be improved with the consideration of environment by constructing aCoal Green Logistics System (abbr. CGLS) which is harmonious with the ecologyand environment to decrease the coal logistics system’s impact on the environmentand improve the recycling of resources for the final aim of achieving the sustainabledevelopment of coal logistics. Based on the traditional coal logistics system, thisthesis, with the greening of coal logistics as the aim, studies the construction of CGLSand further optimizes it hoping to provide theoretical basis and reference for thegovernment in making coal green logistics industrial policy, leading and promotingcoal enterprises to carry out green logistics.
Based on the analysis of the non-green factors in the existing coal logisticssystem, this dissertation introduces the idea of greening into coal logistics, defines theconcept of coal green logistics and then explores the need for developing coal greenlogistics. After the proposing of coal green logistics, it systematically analyzes theinternal and external influential factors in coal green logistics development and itsactive mechanism, constructs a theoretical active mechanism model of influentialfactors in coal green logistics and then measure analysis is conducted on the abovefactors by using structural equation model. Empirical tests show that the internalmotivation, external condition support and the stakeholder affection indirectly have apositive impact on the implementation will of green logistics by driving greenlogistics returns, and the internal barrier indirectly has a negative impact on theimplementation will of green logistics through green logistics returns; by contrast,policy system directly have a positive effect on the implementation will of greenlogistics, and green logistics returns have a positive effect on the implementation willof green logistics.
Then, CGLS is constructed. An integrative structural model of CGLS isconstructed from the perspective of system science to realize the unification ofeconomic returns, social effect and environment effect in CGLS, and its structure andcharacters are represented in terms of infrastructure platform, information platform, application platform, policies and technical standards of coal green logistics. Detailedanalysis is made on the construction of CGLS with basis on supply chain, and stress islaid on the clarity of the fuction of CGLS. Based on the above, an operation model ofCGLS is established.
Later on, CGLS is optimized. On the one hand, for the current situation andcharacteristics of China's coal transport logistics, a transport and deploymentoptimization model of CGLS is established by introducing the external costs of coaltransportation based on the thoughts of green logistics; then the deployment routes ofChina’s coal resources is optimized through the computational example to find out theoptimal amount of transport and deployment of coals in various coal producing areasand demanding areas, and finally the external costs of transportation is estimated. Theresults are of important theoretical and practical significance in saving coaltransportation costs, reducing the energy consumption in the process of transportationas well as the impact on the environment as far as possible. On the other hand, thedynamics simulation model of coal green wastes logistics system is established. Threekinds of typical waste logistics model are obtained for sensitivity analysis. Simulationresults show that wastes in green logistics model is comprehensively utilized, bringingthe most significant addition of outcome value and able to achieve the coordinationand optimization of economic benefits and environmental benefits, compared withthat in light-green waste logistics model, and the traditional waste logistics model.
Finally, the operation mechanism of CGLS is systematically designed. Based onthe analysis about the reasons for the insufficient impetus and their manifestations inthe development of CGLS, the benefit-driven mechanism, government incentivesmechanism, government restraint mechanism, technology promotion mechanism andsocial-demand-driven mechanism for CGLS are designed respectively. Concernedwith the fact that government as the external characteristics of coal logistics shouldhave a reasonable policy arrangements, a government incentives and restraintmechanism is designed to supervise and urge coal enterprises to carry out greenlogistics under the situation of asymmetric information and detailed analysis is madeabout the effect of government fixed allowance, incentives strength, inspectionprobability, supervising costs and penalties on the implementation of coal greenlogistics behavior. It comes to conclusion that the government policies to administrateand supervise the implementers of coal green logistics are absolutely necessary.
There are72figures,26tables and258bibliographies in this dissertation.
首先,本文在对现行煤炭物流系统中“非绿色”因素分析的基础上,将“绿色”理念引入煤炭物流中,界定了煤炭绿色物流概念,并提出了煤炭发展绿色物流的必要性。在此基础上,系统分析了煤炭发展绿色物流内外影响因素及其作用机理,构建了煤炭绿色物流影响因素作用机理理论模型,并运用结构方程模型对煤炭绿色物流影响因素作用进行测度分析,实证检验表明,内部动因、外部条件支撑、相关主体影响三个因素则是通过驱动绿色物流效益间接对绿色物流实施意愿产生正向影响,内部障碍则是通过绿色物流效益间接对绿色物流实施意愿产生负向影响,政策制度对绿色物流实施意愿具有直接正向影响,绿色物流效益对绿色物流实施意愿产生正向影响。
然后,构建煤炭绿色物流系统。基于系统的视角,以实现煤炭绿色物流系统经济效益、社会效益和环境效益的统一为目标,构建了一个综合立体的煤炭绿色物流系统结构模型,从煤炭绿色物流基础设施平台、煤炭绿色物流信息平台、煤炭绿色物流应用平台、政策法规和技术标准等方面对其进行结构和特征描述,分析了基于供应链的煤炭企业绿色物流系统构成,并重点阐明了煤炭绿色物流系统的功能。在此基础上提出了煤炭绿色物流系统的运行模式。
接着,优化煤炭绿色物流系统。一是针对我国煤炭运输物流现状和特点,基于绿色物流思想,引入运输外部成本,建立煤炭绿色物流运输调配优化模型,通过算例优化了我国煤炭资源调配线路,确定了我国不同供给地与需求地的最优运输调配量,并对运输外部成本进行估算分析。研究结果对于节约全社会煤炭运输成本,尽可能减少运输能源资源消耗和对环境的影响程度具有重要的理论与现实意义;二是建立煤炭绿色废弃物物流系统动力学仿真模型,选取了三种具有代表性的废弃物物流模式进行灵敏度拟合分析。模拟结果表明,与传统废弃物物流模式及浅绿色废弃物物流模式相比,绿色废弃物物流模式下废弃物得到了有效综合的利用,由此带来产值增加最为明显,能够实现经济效益与生态效益的协调优化。
最后,系统地设计了煤炭绿色物流系统运行的机制。在分析煤炭发展绿色物流动力不足的原因及表现形式的基础上,设计了煤炭绿色物流利益驱动机制、政府激励机制、政府约束机制、技术推动机制、社会需求拉动机制。针对煤炭物流外部性的政府必须有合理的制度安排,重点设计了信息不对称条件下,政府如何监督煤炭企业实施绿色物流的激励约束机制,详细分析了政府固定补贴、激励强度、检查概率、监督成本、惩罚力度等对煤炭绿色物流行为的影响,由此提出了政府的政策制度是推动煤炭绿色物流发展的关键。
该论文有图72幅,表26个,参考文献258篇。
As a key part of coal industry, coal logistics is the bridge of coal production andcoal consumption and plays an important role in the national economy and socialdevelopment. However, the different parts of the current coal logistics system havehad a negative impact on the environment to some degree, and the impact has beenintensifying with the development of coal logistics system. The current coal logisticssystem should be improved with the consideration of environment by constructing aCoal Green Logistics System (abbr. CGLS) which is harmonious with the ecologyand environment to decrease the coal logistics system’s impact on the environmentand improve the recycling of resources for the final aim of achieving the sustainabledevelopment of coal logistics. Based on the traditional coal logistics system, thisthesis, with the greening of coal logistics as the aim, studies the construction of CGLSand further optimizes it hoping to provide theoretical basis and reference for thegovernment in making coal green logistics industrial policy, leading and promotingcoal enterprises to carry out green logistics.
Based on the analysis of the non-green factors in the existing coal logisticssystem, this dissertation introduces the idea of greening into coal logistics, defines theconcept of coal green logistics and then explores the need for developing coal greenlogistics. After the proposing of coal green logistics, it systematically analyzes theinternal and external influential factors in coal green logistics development and itsactive mechanism, constructs a theoretical active mechanism model of influentialfactors in coal green logistics and then measure analysis is conducted on the abovefactors by using structural equation model. Empirical tests show that the internalmotivation, external condition support and the stakeholder affection indirectly have apositive impact on the implementation will of green logistics by driving greenlogistics returns, and the internal barrier indirectly has a negative impact on theimplementation will of green logistics through green logistics returns; by contrast,policy system directly have a positive effect on the implementation will of greenlogistics, and green logistics returns have a positive effect on the implementation willof green logistics.
Then, CGLS is constructed. An integrative structural model of CGLS isconstructed from the perspective of system science to realize the unification ofeconomic returns, social effect and environment effect in CGLS, and its structure andcharacters are represented in terms of infrastructure platform, information platform, application platform, policies and technical standards of coal green logistics. Detailedanalysis is made on the construction of CGLS with basis on supply chain, and stress islaid on the clarity of the fuction of CGLS. Based on the above, an operation model ofCGLS is established.
Later on, CGLS is optimized. On the one hand, for the current situation andcharacteristics of China's coal transport logistics, a transport and deploymentoptimization model of CGLS is established by introducing the external costs of coaltransportation based on the thoughts of green logistics; then the deployment routes ofChina’s coal resources is optimized through the computational example to find out theoptimal amount of transport and deployment of coals in various coal producing areasand demanding areas, and finally the external costs of transportation is estimated. Theresults are of important theoretical and practical significance in saving coaltransportation costs, reducing the energy consumption in the process of transportationas well as the impact on the environment as far as possible. On the other hand, thedynamics simulation model of coal green wastes logistics system is established. Threekinds of typical waste logistics model are obtained for sensitivity analysis. Simulationresults show that wastes in green logistics model is comprehensively utilized, bringingthe most significant addition of outcome value and able to achieve the coordinationand optimization of economic benefits and environmental benefits, compared withthat in light-green waste logistics model, and the traditional waste logistics model.
Finally, the operation mechanism of CGLS is systematically designed. Based onthe analysis about the reasons for the insufficient impetus and their manifestations inthe development of CGLS, the benefit-driven mechanism, government incentivesmechanism, government restraint mechanism, technology promotion mechanism andsocial-demand-driven mechanism for CGLS are designed respectively. Concernedwith the fact that government as the external characteristics of coal logistics shouldhave a reasonable policy arrangements, a government incentives and restraintmechanism is designed to supervise and urge coal enterprises to carry out greenlogistics under the situation of asymmetric information and detailed analysis is madeabout the effect of government fixed allowance, incentives strength, inspectionprobability, supervising costs and penalties on the implementation of coal greenlogistics behavior. It comes to conclusion that the government policies to administrateand supervise the implementers of coal green logistics are absolutely necessary.
There are72figures,26tables and258bibliographies in this dissertation.
引文
[1]中国煤炭工业发展研究报告[M].徐州:中国矿业大学出版社,2008:3-4.
[2]王之泰.煤炭物流研究与探讨[J].物流科技,2009(1):1-3.
[3]李金.煤炭物流需从“黑色”转变成“绿色”[J].市场周刊,2009(16):14-15.
[4]王长琼.绿色物流[M].北京:化学工业出版社,2004:1-110,230-246.
[5]钱鸣高,许家林,缪协兴.煤矿绿色开采技术[J].中国矿业大学学报,2003(3):343-348.
[6]何明珂.物流系统论[M].北京:高等教育出版社,2005:45.
[7]于成学.工业企业绿色物流一体化管理研究[D].大连:大连理工大学,2006.
[8] H.J. Wu and S. Dunn. Environmentally Responsible Logistics Systems[J]. InternationalJournal of Physical Distribution and Logistics Management,1995,25(2):20.
[9] Jean-Paul Rodrigue,Brian Slack,Claude Comtois. Green Logistics. Published in A.M.Brewer,K.J. Button and D.A. Hensher(eds)(2001)“The Handbook of Logistics andSupply-Chain Management”. London: Pergamon/Elsevier.2001.
[10] Petersen B N,Petersen P.Green logistics[M].2006.
[11] http://www.rlec.org.
[12]刘志学.现代物流手册[M].北京:中国物资出版社,2001:35.
[13]陈达.绿色物流管理浅议[J].中国物资流通,2001(5):9-10.
[14]李益强等.面向产品全生命周期的企业绿色物流研究[J].西安电子科技大学学报,2001,11(4):38-41.
[15]冯耕中.现代物流与供应链[M].西安:西安交通大学出版社,2003:356.
[16]曾国平,谢庆红.绿色物流:未来中国物流业的发展主流[J].商贸经济,2001(11):49-50.
[17]刘春宇.从环境角度谈绿色物流体系的构建[J].经济体制改革,2005(2):12-14.
[18]夏春玉,李健生.绿色物流[M].北京:中国物资出版社,2005:76-77.
[19]张京敏,杨浩雄.北京绿色物流研究[M].北京:中国知识产权出版社:2008:15-16.
[20]段向云.物流低碳化发展的影响机理与运营机制研究[D].天津:天津财经大学,2011.
[21] J.R.Stock. Reverse Logistics. Council of Logistics Management,0ak Brook, IL,1992:27-34.
[22] Rogers D S. Going Backwards Reverse Logistics Trends and Practices[M].NevadarenoReverse Executive Council of Logistics Management,1999:34-35.
[23]宋耀华.循环物流系统的结构和优化策略[N].光明日报理论版,2003.8.26.
[24]汝宜红.循环物流系统概念辨析[J].综合运输,2007(7):43-44.
[25] Poist R F. Evolution of conceptual approaches to designing business logisticssystems[J].Transportation Journal,1986,26:55-64.
[26] Poist R F.Evolution of conceptual approaches to the design of logistics systems: asequel[J].Transportation Journal,1989,29:35-39.
[27] Swait J.Technology of production and potential for energy conservation in short-haul freighttransportation in Brazil[J].Logistics and Transportation Review,1991,27:137-158.
[28] Rao K,Grenoble W,Young R.Traffic congestion and JIT[J].Journal of Business Logistics,1991,12(1):105-122.
[29] Toh R S.Experimental measures to curb road congestion in Singapore:pricing andquotas[J].Logistics and Transportation Review,1992,28:289-317.
[30] McKinnon, A. Editorial. International Journal of Physical Distribution&LogisticsManagement,1995,25(2):34.
[31] Murphy, P., Poist, R. and Braunschweig, C. Role and relevance of logistics to corporateenvironmentalism: an empirical assessment[J]. International Journal of PhysicalDistribution&Logistics Management,1995,25(2):5-19.
[32] Carter C R,Ellram L M.Reverse logistics:a review of the literature and framework for futureinvestigation[J].Journal of Business Logistics,1998,19(1):85-102.
[33] Tage Skjoett-Larsen. European logistics beyond2000International Journal of PhysicalDistribution&Logistics Management[J].2000,30(5):377
[34] Szymankiewicz, Jan. The logistics dilemma[J].Logistics Inforination Management,1993,16(3):36-44.
[35] Hoek R.. From reversed logistics to green supply chains[J].Supply ChainManagement,1999,4(3):129-135.
[36] Paul R. Murphy,Richard F. Poist and Charles D. Braunschweig. Green logistics:comparativeviews of environmental progressives,moderates,and conservatives[J].Journal of BusinessLogistics,1996,17(1):191-212.
[37] Paul R. Murphy,Richard F. Poist. Green logistics strategies:An analysis of usagepatterns[J].Transportation Journal,Winter2000,40(2):5-16.
[38] Paul R. Murphy,Richard F. Poist. Green perspectives and practices: A "Comparativelogistics" study[J].Supply Chain Management,2003,8(2):122-131.
[39] Freeman, R.E.. Strategic management:A stakeholder approach[J]. PitmaBallinger:Boston,1984.
[40] Freeman, R.E. and Liedtka, J.. Corporate social responsibility:a critical approach[J]. Bus.Horizons,1991(34):92-96.
[41] Carter, C.R. and Jennings, M.M., The role of purchasing in corporate social resposibility: Astructural equation analysis[J]. J. Bus. Log.,2004,25,145-186.
[42] Womack J P, Jones D T, Roos D. The machine that changed theworld::the story of leanproduction[M]. New York:Harper Perennial,1990:15-33.
[43] Green logistics[J].Supply Chain&Logistics,2008(8):15-18.
[44]于成学,武春友,李作学.绿色物流管理与企业核心竞争力的提高[J].大连理工大学学报(社会科学版),2004,25(4):63-67.
[45]赵媛,徐风光.绿色物流的经济性分析与发展策略研究[J].世界海运,2004,27(6):30-32.
[46]赵临风.企业发展绿色物流的动因与策略[J].特区经济,2006(10):306-308.
[47]赵伟滨,卜伟.企业绿色物流的外部性内部化[J].经济物流,2006(5):43-47.
[48]李洪伟.绿色产品开发的关键因素分析[J].绿色经济,2007(3):78-81.
[49]周启蕾,胡伟,黄亚军.绿色物流的外部性及其主体间的博弈分析[J].深圳大学学报(人文社会科学版),2007,24(2):49-53.
[50]李羽飞.论绿色物流的动力机制[J].探求,2007(5):50-53.
[51]李剑,王成亮.企业发展绿色物流的驱动因素和策略分析[J].潍坊学院学报,2008(5):83-87.
[52]杨浩雄,黎毅.基于博弈论的企业实施绿色物流的动因研究[J].物流技术,2009(6):25-25.
[53]肖丁丁,张文峰.基于DEMATEL方法的绿色物流发展关键因素分析[J].工业工程,2010,13(1):52-57.
[54]朱庆华,耿勇.中国制造企业绿色供应链管理因素研究[J].中国管理科学,2004(3):81-85.
[55]于成学.基于和谐社会的企业绿色物流管理实证研究[J].中国软科学,2008(3):122-127.
[56]唐学玉等.绿色物流意识及个体差异研究[J].大连理工大学学报(社会科学版),2010(1):21-26.
[57] James Cooper,Michael Browne and Melvyn Peters. European Logistics[M]. Oxford,UK: Blackwell Business,1991.
[58] Patrick M. Byre and Alison Deeb. Logistics must meet the green challenge[J].TransportationDistribution T&D, Feb,1993,34(2):33-37.
[59] Jodi E. Melbin. A green Aproach to logistics distribution[J].Transportation Distribution T&D,June,1996,95(7):6.
[60] W.T. Tsai, Y.H. Chou. Government policies for encouraging industrial waste reuse and pollutionprevention in Taiwan [J]. Journal of Cleaner Production,2004(12):725-736.
[61] Harris D.Government pledges for research into green logistics[J].Commercial Motor,2006,204(5199):7.
[62]杨小钢,郭大海.全球化背景下国际物流的发展现状及趋势[J].中国流通经济,2007,21(11):17-20.
[63]李连成.绿色物流:现代企业持续发展的必然选择[J].商贸经济,2002,11(5):32-35.
[64]汪应络,王能民,孙林岩.绿色供应链管理的基本原理[J].中国工程学报,2003,5(11):82-87.
[65]王长琼.绿色物流的内涵、特征及其战略价值[J].中国流通经济,2004(3):12-14
[66]王长琼.物流业可持续发展评价指标体系初探[J].经济管理,2005(1):38-40.
[67]赵倩钰.资源型企业绿色物流管理研究[J].物流技术,2009(6):122-125.
[68]杨国川.我国绿色物流发展中的制约因素及对策[J].商业经济与管理,2010(2):18-23.
[69]谢泗薪,王文峰.绿色物流路径:物流绿色化改造的战略[J].中国流通经济,2010(5):15-18.
[70]于成学,杨雪婷.企业绿色物流一体化管理模型构建[J].大连民族学院学报,2008(6):518-522.
[71]李本辉.绿色壁垒下国内企业绿色物流管理方案研究[J].改革与战略,2009(7):58-61.
[72]郑国诜,廖福霖,祁新华.基于绿色物流的工业生态化发展模式研究[J].中国林业经济,2010(1):1-4.
[73]吴勤学,王晓芳.绿色物流的现代经济学分析[J].北京财贸管理干部学院学报,2007(4):8-11.
[74]何衡.绿色物流实施类型及其效果研究[J].物流技术,2009(2):11-13.
[75]赵奕凌.我国绿色物流发展滞后性的经济学分析及对策[J].物流工程与管理,2010(1):15-17.
[76]刘冬林.绿色物流的制度研究[D].武汉:武汉理工大学,2010.
[77] Malin Song, Shuhong Wang, Zhanhao Jiang, Jie Yang, Yumei Wang. Will environmentallogistics be promoted by changing industrial structure? A quantitative analysis from1978to2007in China[J].Supply Chain Management: An International Journal,2012,17(1):5-14
[78] Carter C.R., Ellram LM. Reverse logistics: a review of the literature and framework for futureinvestigation[J]. Journal of Business Logistics,1998,19(1):85-102.
[79] Mosquera J. The WEEE directive and its impact on reverse logistics[J/OL]. http://www.Lcp-ashlyns.Com,2003-11-12.
[80] Thierry M, Salomon M, van Nunen JA, et al. Strategic issues in product recoverymanagement[J].California Management Review,1995,37(2):114-135.
[81] Fleischmann M, Blocmhof-Ruwaard Jacqueline M, Dekker Rommer, et al. Quantitative modelsfor reverse logistics: a review[J]. European Journal of Operational Research,1997,103(1):1-17.
[82] Shih Li-Hsing Reverse logistics system planning for recycling electrical appliances and computersin Taiwan[J]. Resources Conservation and Recycling,2001,32(1):55-72.
[83] Hu Tung-Lai, Sheu Jiuh-Biing Huang Kuan-Hsiung A reverse logistics cost minimization modelfor the treatment of hazardous wastes[J]. Transportation Research Part B Logistics andTransportation Review,2002,38(1):457-473.
[84] Hokey M., Hyun J., Chang S.. A genetic algorithm approach to developing the multi-echelonreverse logistics network for product returns[J].Omega,2006,34:56-69.
[85] Fleischmann M,Krikke H R,Dekker R, et al. A characterisation of logistics networks for productrecovery [J]. Omega,2000,28(6):653-666.
[86] Jayaraman V., Guide Jr. VDR, Srivastava R. A Closed-loop logistics model forremanufacturing[J].Journal of the Operational Research Society,1999(50):497-508.
[87] Richter K. The Extended EOQ repair and waste disposal model[J]. International Journal ofProduction Economics.1996(45):443-448.
[88] Kleber R, Minner S, Kiesmuller G. A Continuous Time inventory model for a productrecovery system with multiple options[J]. International Journal of Production Economics,2002(79):121-141.
[89] Dobos I. Optimal Production-inventory Strategies for a HMMS-type reverse logisticssystem[J]. International Journal of Production Economics,2003,81-82:351-360.
[90] Fleischmann M, Kuik R, Dekker R. Controlling inventories with stochastic item returns: abasic model[J]. European Journal of Operational Research,2002,138:63-75.
[91] P. Georgiadis and D.Vlachos.Analysis of the dynamic impact of environmental policies onreverse logistics Operational Research[J].2003,3(2):13-19.
[92] Patroklos Georgiadis,Dimitrios Vlachos. The effect of environmental parameters on productrecovery[J].European Journal of Operational Research,2004,4(30):449-464.
[93]向盛斌.逆向物流与环境保护[J].物流技术,2001(1):44-45.
[94]柳键.供应链的逆向物流[J].商业经济与管理,2002(6):10-13.
[95]朱道立,崔益明,陈妹妮.逆向物流系统和技术[J].复旦大学学报:自然科学版,2003,42(5):673-679.
[96]达庆利,黄祖庆,张钦.逆向物流系统结构研究的现状及展望[J].中国管理科学,2004,12(5):131-138.
[97]孙林岩,王蓓.逆向物流的研究现状和发展趋势[J].中国机械工程,2005,16(10):928-932.
[98]刘永清等.绿色逆向物流管理有效途径研究[J].科技进步与对策,2005(12):13-15.
[99]王蓓,孙林岩.基于ANP方法的逆向物流决策模型和算法[J].软科学,2007,21(2):20-24.
[100]叶飞等.绿色环保压力与企业逆向物流绩效关系研究[J].管理科学,2008(5):55-63.
[101]秦纂.基于绿色物流理念的企业物流流程再造分析[J].改革与战略2009(5):173-175.
[102]王文娟.企业绿色逆向物流决策方法研究[D].大连:大连理工大学,2009.
[103]马祖军,代颖.产品回收逆向物流网络优化设计模型[J].管理工程学报,2005,19(4):114-117.
[104]周根贵,曹振宁.遗传算法在逆向物流网络选址问题中的应用研究[J].中国管理科学2005,13(1):42-47.
[105]代颖等.基于混合整数线性规划建立一种再制造闭环型物流网络优化设计模型[J].中国机械工程,2006(8):809-814.
[106]代颖等.基于二阶段随机规划的制造/再制造集成物流网络优化设计[J].系统工程,2006(3):8-14.
[107]何波,杨超,张华.废弃物回收的多层逆向物流网络优化设计问题研究[J].中国管理科学,2007,15(3):61-67.
[108]谢家平.产品回收处理策略优化的0-1目标规划模型[J].系统工程理论与实践,2004,24(6):52-57.
[109]赵宜,蒲云,尹传忠.回收物流库存控制研究[J].中国管理科学,2005,13(5):49-53.
[110]董立.静脉物流及其博弈分析[J].中国资源综合利用,2002(2):36-40.
[111]汪传旭.逆向物流动态博弈分析模型[J].中国航海,2003(4):78-81.
[112]贾小玫,冉净斐.逆向物流的博弈分析[J].商业经济与管理,2005(2):9-12.
[113]洪志生,张春霞,苏时鹏.逆向物流系统的运行机理[J].物流技术,2006(3):62-64.
[114]张保银,汪波,吴煜.基于循环经济模式的政府激励与监督问题[J].中国管理科学,2006(14):136-141.
[115]李金勇,刘威,程国平.政府与企业实施逆向物流的博弈分析[J].西北农林科技大学学报(社会科学版),2007,7(3):54-56.
[116]张颖菁,刘娟娟.基于博弈模型的绿色物流税收策略[J].上海海事大学学报,2010(3):52-55.
[117]王西兵等.循环经济模式下发展静脉物流的系统思考[J].工业技术经济,2005,24(9):88-91.
[118]蓝万炼.试论循环经济发展中的现代物流管理[J].长沙理工大学学报,2005,20(3):8-11.
[119]包菊芳.物流在发展循环经济中的地位与对策[J].北京交通大学学报(社会科学版),2010,9(3):88-91.
[120]高凤莲.绿色物流在发展循环经济中的地位与对策[J].中国流通经济,2008(8):16-19.
[121]潘文军.基于循环经济理论的区域绿色物流发展评价体系分析[J].北京交通大学学报(社会科学版),2010,9(3):42-46.
[122]朱煜等.循环物流系统的概念分析[J].北京交通大学学报,2006,4(5):29-32.
[123]彭晓莉.基于循环经济的绿色物流研究[D].武汉:武汉理工大学,2006.
[124] Abdelkader Sbihi, Richard W. Eglese. Combinatorial optimization and Green Logistics,Springer-Verlag,2007:99-115.
[125] S. Ubeda, F. J.,Arcelusc, J. Faulin. Green logistics at Eroski:A case study[J/OL],International Journal of Production Economics (2010). http://www.elsevier.com/locate/ijpe.
[126]王兰.安徽省冶金业绿色物流效益模型系统研究[D].合肥:合肥工业大学,2007.
[127]于成学.绿色物流一体化管理模型研究[J].大连民族学院学报,2008(6):517-521.
[128]上官绪明.绿色物流系统优化模式[J].创新科技,2010(5):22-23.
[129]李宁.基于绿色思想的物流运输配送研究[D].大连:大连海事大学,2004.
[130]田沐野.基于GIS的农产品物流配送车辆路线优化可视化研究[D].长春:吉林大学,2006.
[131]邱忠权.绿色农产品封闭供应链物流网络优化研究[D].成都:西南交通大学,2010.
[132] Robert D. Miles, Kumares C. Sinha. Aregional railroad network optimization model for coaltransportation[J]. Transportation Research Part B,1981,15(4):227-238.
[133] OsleebJP, RatiekSJ, KubyMJ. COAL LOGISTICS SYSTEM[M].1990:6-13.
[134] LiuHency, NobleJames, WuJianPing. Economic social for transportation coal[J].Transportation Research Part A:Policy and practice,1998(32):377-39.
[135] BaharY, Kara,VedatVerter. Designing a Road Network for Hazardous MaterialsTransportation[J]. TransPortation Science,2004(5):188-196.
[136]汤希峰,余静.煤炭物流系统体系结构的研究[J].物流技术,2004(10):16-18.
[137]石付恒.煤炭物流系统的研究[D].徐州:中国矿业大学,2004.
[138]贺超.煤矿逆向物流系统研究[D].徐州:中国矿业大学,2005.
[139]王金凤.煤炭生产物流系统研究[D].天津:天津大学,2005.
[140]刘茂华,吕永波,任锦鸾.煤炭企业供应物流系统分析及效率优化研究[J].物流技术,2007(3):21-24.
[141]曲绵友.基于WITNESS的煤炭生产物流系统仿真[D].山东科技大学,2009.
[142]彭晨,岳东.基于Petri网的流程供应链过程建模分析[J].计算机工程与应用,2003(10):199-201.
[143]陈建生,王立杰.论煤炭企业物流供应链联盟[J].管理世界,2004(11):148-149.
[144]张驎,段玉玲,郭瑞平.论基于供应链思想的煤炭企业物流管理[J].中国矿业,2005,14(8):26-28.
[145]苏丽琴,于宝栋.煤炭供应链的构建[J].中国煤炭,2006(5):19-21.
[146]姚伟坤,周梅华等.基于均衡供给的煤炭供应链特征研究[J].中国矿业大学学报(社会科学版),2007(3):41-45.
[147]吕涛.煤炭供应链的系统结构与协调机制[J].中国矿业大学学报(社会科学版),2009(1):74-79.
[148]刘满芝,周梅华等.大型煤炭企业供给系统供应链解构及优化[J].煤炭学报,2009(1):139-142.
[149]赵媛,于鹏.我国煤炭资源空间流动的基本格局与流通通道[J].经济地理,2007,27(2):196-200.
[150]赵文竹.我国煤炭运输格局分析[J].综合运输,2005(4):73-76.
[151]于良,金凤君,张兵.中国煤炭运输的现状、发展趋势与对策研究[J].铁道经济研究,2006,(5):38-41.
[152]刘敬青.我国煤炭产消运空间格局分析[J].综合运输,2009(12):61-65.
[153]张伟,刘毅,金凤君.我国煤炭省际调运的空间格局演变及其影响[J].辽宁工程技术大学学报,2007,26(3):334-336.
[154]成升魁,徐增让,沈镭.中国省际煤炭资源流动的时空演变及驱动力[J].地理学报,2008,63(6):603-612.
[155]王成金,莫辉辉,王姣娥.中国煤炭资源的流动格局及流场规律研究[J].自然资源学报,2009,24(8):1402-1442.
[156]荣朝和.煤炭物流对我国铁路运输的影响与挑战[J].中国铁路,2007(12):31-35.
[157]马驹.全国主要煤炭基地煤炭运输铁路水路分工研究[J].铁道工程学报,2008(6):20-24.
[158]刘敬青.铁路省际煤炭调运的分析与评价[J].中国能源,2010,32(10):20-24.
[159]刘敬青.我国大陆煤炭中长距离运输经济性分析[J].综合运输,2010(10):66-74.
[160]杨利军,洪志.基于SNA的中国省际煤炭交流网络分析[J].现代情报,2011,31(5):25-32.
[161]李智.基于蚁群算法的煤炭运输优化方法[J].中国铁道科学,2004,25(3):126-129.
[162]王满银,汪应宏.我国当前煤炭资源的运输调配及优化问题研究[J].煤炭经济研究,2004,(2):15-17.
[163]于丽颖等.铁路煤炭调运问题的遗传算法[J].铁道运输与经济,2007,29(7):79-81.
[164]赵国智,王喜富,张仲义.煤炭物流网络的复杂性分析及优化方法研究[J].物流技术,2008(8):117-119.
[165] Zhang Yanzhi,Lv Tao,Feng Ying. An Empirical Study on China's Inter-provincial CoalDistribution by Railway[A]. Proceedings of2010The3rdInternational Conference onComputational Intelligence and Industrial Application[C],2010.
[166]许红莲.绿色物流金融运营研究[D].长沙:中南大学,2010.
[167]汤希峰,余静.煤炭黑色物流的绿色化转变[J].矿业研究与开发,2005,25(1):82-84.
[168]胡晓辛等.煤炭物流中的“非绿色因素”分析[J].煤炭经济研究,2007(8):20-22.
[169]张医才.山西煤炭绿色物流评价与发展对策研究[D].天津:天津大学,2008.
[170]王莹莹,胡天军.我国煤炭物流绿色化发展及对策研究[J].物流技术,2011,30(6):29-31.
[171]龙如银,董洁.煤炭企业实施绿色开采的博弈分析及政策建议[J].中国矿业,2005(2):17-20.
[172]林积泉等.煤炭工业企业循环经济产业链设计与环境效益研究[J].环境保护,2005(4):55-58.
[173]席旭东.煤炭矿区工业共生模式研究[J].山东工商学院学报,2007(6):42-48.
[174]张驎,何媛.应用循环经济理论构建煤炭生态工业园[J].中国矿业,2006(12):14-17.
[175]于励民.我国煤炭产业发展循环经济的运行机制研究[D].武汉:华中科技大学,2008.
[176]曹代功.煤炭生态工业园的构建及作用分析[J].煤炭经济研究,2009(7):20-21.
[177]许笑平.企业物流绿色化发展障碍机理与推进策略研究[D].北京:北京交通大学,2010.
[178]武云亮,黄少鹏.我国煤炭物流网络体系优化及其政策建议[J].中国煤炭,2008(10):27-30.
[179]王帅.煤炭物流网络运作模式研究[D].西安:长安大学,2009.
[180]李宏.中国煤炭运输[M].北京:中国市场出版社,2008:173.
[181]赵倩钰.资源型企业绿色物流管理研究[J].物流技术,2009(6):122-125.
[182]钱明高,许家林,缪协兴.煤矿绿色开采技术[J].中国矿业大学学报,2003,32(4):344-350.
[183]张琳琳.绿色物流系统构建问题研究—以大连市为例[D].大连:大连交通大学,2008.
[184]朱煜.城市循环物流系统构建研究[D].北京:北京交通大学,2010.
[185]周启蕾.物流学概论[M].北京:清华大学出版社,2005:56-73.
[186]高本河,魏际刚.绿色物流在国外的发展及我国的差距[J].中国物流与采购网,2003.
[187]保罗·A·萨缪尔森.经济学(第17版)[M].北京:地质出版社,2005:174.
[188]王安佑等.资源环境经济学[M].北京:地质出版社,2005:174
[189]胡伟.企业社会责任理论下的绿色物流推进与政府管制[J].消费导刊,2008(10):24-25.
[190]李文静.政府在绿色物流中的作用[J].北方经贸,2006(1):38-44.
[191]翁翼飞,何媛,张驎.国有大型煤炭企业循环经济典型模式解析[J].中国矿业,2008(5):94-96.
[192]王宜虎,陈雯.工业绿色化发展的动力机制分析[J].华中师范大学学报,2007(1):125-129.
[193] Keim G D. Managerial Behavior and the Social Responsibility Debate: Goals VersusConstraints[J]. Academy of Management Journal,1978,21:5768.
[194]唐久益,储雪俭.浅析物流企业社会责任[J].物流技术,2007(1):35-38
[195]王林秀.清洁生产驱动因素及调控机制研究[D].徐州:中国矿业大学,2009.
[196]胡建,李向阳,孙金花.合作制造企业间关系价值影响因素的实证分析[J].科研管理,2010(1):39.
[197]易丹辉.结构方程模型方法与应用[M].北京:中国人民大学出版社,2009:185-186.
[198]邱皓政.结构方程模型的理论技术与应用[M].台北双叶书廊有限公司,2004.
[199] JAVIER GONZALEZ-BENITO and OSCAR GONZALEZ-BENITO. The role ofstakeholder pressure and managerial values in the implementation of environmentallogistics practices[J]. International Journal of Production Research,2006,44(7):1353-1373.
[200] Hox J J. Amos, EQS and LISREL for windows: A comparative review. StructuralEquationModeling [M].NY: McGraw-Hill Companies,2004.
[201]郭志刚.社会统计分析方法[M].中国人民大学出版社,2006.
[202] Hair J F, Anderson R E, Tatham R L, et al. Multivariate data analysis [M].5thed. NewJersey: Prentice Hall College Div,1998.
[203]马文军,潘波.问卷的信度和效度以及如何用SAS统计分析[J].中国卫生统计,2000(17):364-365.
[204] Coben.Statistical power analysis for the behavioral sicence[M].New Jersey:LawrenceErlbaum Associates,1999.
[205]王之泰.新编现代物流学[M].北京:首都经济贸易大学出版社,2008:67.
[206]仇莉,牛林.绿色物流系统外部性经济评价[J].生态经济,2011(8):107-110.
[207]李赶顺,王文中.循环经济运行机理的数理分析[M].北京:中国环境科学出版社,2008:42-43.
[208]单虹.衡阳市绿色物流系统研究[D].武汉:中南大学,2008.
[209]宋彩萍.加强我国铁路煤炭运输通道建设的思考[J].中国工程科学,2009,11(9):78-80.
[210]杜明汉.大力发展山西煤炭外运体系[J].综合运输,2004(8):50-52.
[211]宋丽娟.基于循环经济理念的企业物流发展策略—构建绿色物流系统[J].中国市场,2010(10):22-25.
[212]赵怡晴,李翠平.煤炭企业推-拉式供应链战略研究[J].中国煤炭,2008(6):38-40.
[213]姜辉.大型煤炭企业内部供应链构建与优化研究[D].徐州:中国矿业大学,2009.
[214]曹翠珍.基于可持续发展的绿色物流体系构建的研究[J].物流工程与管理,2009(8):21-23.
[215]杨玉中等.煤业集团绿色供应链管理[M].北京冶金工业出版社,2007:75-79.
[216]何利军,王伟.浅析火车皮表面喷洒封尘固化剂的可行性[J].陕西煤炭,200(86):29-30.
[217]魏邦成.煤炭运输通道布局优化研究[D].北京:北京交通大学,2008.
[218]赵鲁华,庆贵.中国煤炭物流中心宏观选址布局探讨[J].中国煤炭,2012(1):28-32.
[219]荣海涛,宁宣熙.煤炭物流系统资源整合模式研究[J].现代管理科学,2008(8):60-62..
[220]刘利军,关晓吉.浅谈我国煤炭物流的发展模式[J].山东工商学院学报,2009(1):26-29.
[221]李文静.国外绿色物流的发展与实践[J].物流技术,2005(9):194-196.
[222]于成学.企业绿色物流logistic模型及其稳定性分析[J].科技管理研究,2009(5):315-318.
[223]张则强等.面向生态工业和循环经济的绿色物流[J].起重运输机械,2003(9):5-8.
[224]王兆华,尹建华.生态工业园中工业共生网络运作模式研究[J].中国软科学,2005(2):80-85.
[225]高阳.我国沿海煤炭运输主干航线研究[D].上海:上海交通大学,2008.
[226]煤炭运输使用手册[R].山西汾渭信息技术有限公司,2008:8-10.
[227]煤炭工业发展“十二五”规划[J/OL].http://www.sdpc.gov.cn/zcfb/zcfbtz/2012tz/t20120322_468769.htm.
[228] Emile Quinet. Internalising the Social Costs of Transport Paris[M].OECD,1994.
[229]游历.锡盟煤炭运输通道规划的若干问题研究[D].北京:北京交通大学,2006.
[230]吕正昱,季令.交通运输外部成本问题研究[J].同济大学学报(自然科学版),2005,33(7):931-936.
[231]谢家平.绿色产品设计方案优选的目标规划模型[J].科技进步与对策,2004(12):24-26.
[232]刘志军.加快实现我国铁路现代化,为国民经济又好又快发展提供可靠的运力保护[J].铁路经济研究,2008(1):27.
[233]尹新.基于绿色物流发展铁路运输的探讨[J].铁道运输与经济,2010(3):53-55.
[234]吴卫平等.我国运输成本计算分析[J].铁道经济研究,2009(2):11-13.
[235]潘文军.基于循环经济理论的绿色物流评价体系[J].起重运输机械,2008(7):1-7.
[236]王海燕.循环经济理论下的城市固体废弃物系统优化模型[J].物流技术,2005,(10):287-288.
[237]王其藩.系统动力学[M].北京:清华大学出版社,1994:95-117.
[238]李龙清,秦国玉,田俊峰.煤炭工业可持续发展的系统动力学模型[J].西安科技大学学报,2006(2):151-153.
[239]文东戈,郝传波,王旭.煤炭矿区环境系统动态仿真研究[J].中国矿业,2008(2):36-39.
[240]蒋衔武,孙菁.基于系统动力学的煤矿工业生态系统仿真研究[J].生态经济(学术版),2010(1):160-163.
[241]孙玉峰.煤炭资源开发系统动态仿真研究[J].煤炭学报,2008(2):237-240.
[242] Reid B, Bert B, Janet K A. Using response surfaces to improve the search for satisfactorybehavior in system dynamics models[J].System Dynamics Review,2000,16(2):75-90.
[243]王灵梅等.火电厂生态工业园系统动力学模拟与调控[J].系统工程理论与实践,2005(7):117-124.
[244] Bernd E.Hirsch,Thorsten Kuhlman, Jens Schumacher. Logistics simulation of recyclingnetworks [J]. computers in Industry.1998,36(1):31-38.
[245]谢家平,孔令丞.逆向物流管理[M].北京:中国时代经济出版社,2008:123.
[246]丁日佳,朱亚平.矿区循环经济理论与技术[M].徐州:中国矿业大学出版社,2008:68.
[247]李永峰.煤炭资源开发对矿区资源环境影响的测度研究[M].徐州:中国矿业大学出版社,2008.
[248]刘晔.山西煤炭开采外部成本核算——煤矸石堆存损耗测算[J].山西能源与节能,2008(1):39-41.
[249]周长兰.循环经济模式下绿色物流利益实现机制[J].铁路采购与物流,2010(8):51-52.
[250] Ayres R.U. Industrial Metabolism: Theory and Policy, the Greening of IndustrialEcosystems[A]. Allenby B.R, Richard D.J. The Greening of Industrial Ecosystems[C].Washington D C: NationalAcademy of Engineering,1994.
[251] Bjorn Stigsoned. What is eco-efficiency. Sydney: WBCSD[M].1999.
[252]唐晓华,王广凤,马小平.基于生态效益的生态产业链形成研究[J].中国工业经济,2007(11):121-127.
[253]李爱彬,周敏,卞丽丽.企业实施绿色物流的政府激励与监督机制设计[J].生态经济,2009(3):99-102.
[254]张维迎.博弈论与信息经济学[M].上海:上海人民出版社,2004:257-260.
[255]王能民,孙林岩,王应洛.绿色供应链管理[M].北京:清华大学出版社,2005:125-128.
[256]杨发明,吕燕.绿色技术创新的组合激励研究[J].科研管理,1998(1):40-44.
[257]诺斯.制度、制度变迁与经济绩效[M].上海:上海人民出版社,2011:102-110.
[258]李昆,魏晓平,蔡晓旭.企业群落绿色技术的扩散机制[J].财经科学,2007(7):81-87.
[2]王之泰.煤炭物流研究与探讨[J].物流科技,2009(1):1-3.
[3]李金.煤炭物流需从“黑色”转变成“绿色”[J].市场周刊,2009(16):14-15.
[4]王长琼.绿色物流[M].北京:化学工业出版社,2004:1-110,230-246.
[5]钱鸣高,许家林,缪协兴.煤矿绿色开采技术[J].中国矿业大学学报,2003(3):343-348.
[6]何明珂.物流系统论[M].北京:高等教育出版社,2005:45.
[7]于成学.工业企业绿色物流一体化管理研究[D].大连:大连理工大学,2006.
[8] H.J. Wu and S. Dunn. Environmentally Responsible Logistics Systems[J]. InternationalJournal of Physical Distribution and Logistics Management,1995,25(2):20.
[9] Jean-Paul Rodrigue,Brian Slack,Claude Comtois. Green Logistics. Published in A.M.Brewer,K.J. Button and D.A. Hensher(eds)(2001)“The Handbook of Logistics andSupply-Chain Management”. London: Pergamon/Elsevier.2001.
[10] Petersen B N,Petersen P.Green logistics[M].2006.
[11] http://www.rlec.org.
[12]刘志学.现代物流手册[M].北京:中国物资出版社,2001:35.
[13]陈达.绿色物流管理浅议[J].中国物资流通,2001(5):9-10.
[14]李益强等.面向产品全生命周期的企业绿色物流研究[J].西安电子科技大学学报,2001,11(4):38-41.
[15]冯耕中.现代物流与供应链[M].西安:西安交通大学出版社,2003:356.
[16]曾国平,谢庆红.绿色物流:未来中国物流业的发展主流[J].商贸经济,2001(11):49-50.
[17]刘春宇.从环境角度谈绿色物流体系的构建[J].经济体制改革,2005(2):12-14.
[18]夏春玉,李健生.绿色物流[M].北京:中国物资出版社,2005:76-77.
[19]张京敏,杨浩雄.北京绿色物流研究[M].北京:中国知识产权出版社:2008:15-16.
[20]段向云.物流低碳化发展的影响机理与运营机制研究[D].天津:天津财经大学,2011.
[21] J.R.Stock. Reverse Logistics. Council of Logistics Management,0ak Brook, IL,1992:27-34.
[22] Rogers D S. Going Backwards Reverse Logistics Trends and Practices[M].NevadarenoReverse Executive Council of Logistics Management,1999:34-35.
[23]宋耀华.循环物流系统的结构和优化策略[N].光明日报理论版,2003.8.26.
[24]汝宜红.循环物流系统概念辨析[J].综合运输,2007(7):43-44.
[25] Poist R F. Evolution of conceptual approaches to designing business logisticssystems[J].Transportation Journal,1986,26:55-64.
[26] Poist R F.Evolution of conceptual approaches to the design of logistics systems: asequel[J].Transportation Journal,1989,29:35-39.
[27] Swait J.Technology of production and potential for energy conservation in short-haul freighttransportation in Brazil[J].Logistics and Transportation Review,1991,27:137-158.
[28] Rao K,Grenoble W,Young R.Traffic congestion and JIT[J].Journal of Business Logistics,1991,12(1):105-122.
[29] Toh R S.Experimental measures to curb road congestion in Singapore:pricing andquotas[J].Logistics and Transportation Review,1992,28:289-317.
[30] McKinnon, A. Editorial. International Journal of Physical Distribution&LogisticsManagement,1995,25(2):34.
[31] Murphy, P., Poist, R. and Braunschweig, C. Role and relevance of logistics to corporateenvironmentalism: an empirical assessment[J]. International Journal of PhysicalDistribution&Logistics Management,1995,25(2):5-19.
[32] Carter C R,Ellram L M.Reverse logistics:a review of the literature and framework for futureinvestigation[J].Journal of Business Logistics,1998,19(1):85-102.
[33] Tage Skjoett-Larsen. European logistics beyond2000International Journal of PhysicalDistribution&Logistics Management[J].2000,30(5):377
[34] Szymankiewicz, Jan. The logistics dilemma[J].Logistics Inforination Management,1993,16(3):36-44.
[35] Hoek R.. From reversed logistics to green supply chains[J].Supply ChainManagement,1999,4(3):129-135.
[36] Paul R. Murphy,Richard F. Poist and Charles D. Braunschweig. Green logistics:comparativeviews of environmental progressives,moderates,and conservatives[J].Journal of BusinessLogistics,1996,17(1):191-212.
[37] Paul R. Murphy,Richard F. Poist. Green logistics strategies:An analysis of usagepatterns[J].Transportation Journal,Winter2000,40(2):5-16.
[38] Paul R. Murphy,Richard F. Poist. Green perspectives and practices: A "Comparativelogistics" study[J].Supply Chain Management,2003,8(2):122-131.
[39] Freeman, R.E.. Strategic management:A stakeholder approach[J]. PitmaBallinger:Boston,1984.
[40] Freeman, R.E. and Liedtka, J.. Corporate social responsibility:a critical approach[J]. Bus.Horizons,1991(34):92-96.
[41] Carter, C.R. and Jennings, M.M., The role of purchasing in corporate social resposibility: Astructural equation analysis[J]. J. Bus. Log.,2004,25,145-186.
[42] Womack J P, Jones D T, Roos D. The machine that changed theworld::the story of leanproduction[M]. New York:Harper Perennial,1990:15-33.
[43] Green logistics[J].Supply Chain&Logistics,2008(8):15-18.
[44]于成学,武春友,李作学.绿色物流管理与企业核心竞争力的提高[J].大连理工大学学报(社会科学版),2004,25(4):63-67.
[45]赵媛,徐风光.绿色物流的经济性分析与发展策略研究[J].世界海运,2004,27(6):30-32.
[46]赵临风.企业发展绿色物流的动因与策略[J].特区经济,2006(10):306-308.
[47]赵伟滨,卜伟.企业绿色物流的外部性内部化[J].经济物流,2006(5):43-47.
[48]李洪伟.绿色产品开发的关键因素分析[J].绿色经济,2007(3):78-81.
[49]周启蕾,胡伟,黄亚军.绿色物流的外部性及其主体间的博弈分析[J].深圳大学学报(人文社会科学版),2007,24(2):49-53.
[50]李羽飞.论绿色物流的动力机制[J].探求,2007(5):50-53.
[51]李剑,王成亮.企业发展绿色物流的驱动因素和策略分析[J].潍坊学院学报,2008(5):83-87.
[52]杨浩雄,黎毅.基于博弈论的企业实施绿色物流的动因研究[J].物流技术,2009(6):25-25.
[53]肖丁丁,张文峰.基于DEMATEL方法的绿色物流发展关键因素分析[J].工业工程,2010,13(1):52-57.
[54]朱庆华,耿勇.中国制造企业绿色供应链管理因素研究[J].中国管理科学,2004(3):81-85.
[55]于成学.基于和谐社会的企业绿色物流管理实证研究[J].中国软科学,2008(3):122-127.
[56]唐学玉等.绿色物流意识及个体差异研究[J].大连理工大学学报(社会科学版),2010(1):21-26.
[57] James Cooper,Michael Browne and Melvyn Peters. European Logistics[M]. Oxford,UK: Blackwell Business,1991.
[58] Patrick M. Byre and Alison Deeb. Logistics must meet the green challenge[J].TransportationDistribution T&D, Feb,1993,34(2):33-37.
[59] Jodi E. Melbin. A green Aproach to logistics distribution[J].Transportation Distribution T&D,June,1996,95(7):6.
[60] W.T. Tsai, Y.H. Chou. Government policies for encouraging industrial waste reuse and pollutionprevention in Taiwan [J]. Journal of Cleaner Production,2004(12):725-736.
[61] Harris D.Government pledges for research into green logistics[J].Commercial Motor,2006,204(5199):7.
[62]杨小钢,郭大海.全球化背景下国际物流的发展现状及趋势[J].中国流通经济,2007,21(11):17-20.
[63]李连成.绿色物流:现代企业持续发展的必然选择[J].商贸经济,2002,11(5):32-35.
[64]汪应络,王能民,孙林岩.绿色供应链管理的基本原理[J].中国工程学报,2003,5(11):82-87.
[65]王长琼.绿色物流的内涵、特征及其战略价值[J].中国流通经济,2004(3):12-14
[66]王长琼.物流业可持续发展评价指标体系初探[J].经济管理,2005(1):38-40.
[67]赵倩钰.资源型企业绿色物流管理研究[J].物流技术,2009(6):122-125.
[68]杨国川.我国绿色物流发展中的制约因素及对策[J].商业经济与管理,2010(2):18-23.
[69]谢泗薪,王文峰.绿色物流路径:物流绿色化改造的战略[J].中国流通经济,2010(5):15-18.
[70]于成学,杨雪婷.企业绿色物流一体化管理模型构建[J].大连民族学院学报,2008(6):518-522.
[71]李本辉.绿色壁垒下国内企业绿色物流管理方案研究[J].改革与战略,2009(7):58-61.
[72]郑国诜,廖福霖,祁新华.基于绿色物流的工业生态化发展模式研究[J].中国林业经济,2010(1):1-4.
[73]吴勤学,王晓芳.绿色物流的现代经济学分析[J].北京财贸管理干部学院学报,2007(4):8-11.
[74]何衡.绿色物流实施类型及其效果研究[J].物流技术,2009(2):11-13.
[75]赵奕凌.我国绿色物流发展滞后性的经济学分析及对策[J].物流工程与管理,2010(1):15-17.
[76]刘冬林.绿色物流的制度研究[D].武汉:武汉理工大学,2010.
[77] Malin Song, Shuhong Wang, Zhanhao Jiang, Jie Yang, Yumei Wang. Will environmentallogistics be promoted by changing industrial structure? A quantitative analysis from1978to2007in China[J].Supply Chain Management: An International Journal,2012,17(1):5-14
[78] Carter C.R., Ellram LM. Reverse logistics: a review of the literature and framework for futureinvestigation[J]. Journal of Business Logistics,1998,19(1):85-102.
[79] Mosquera J. The WEEE directive and its impact on reverse logistics[J/OL]. http://www.Lcp-ashlyns.Com,2003-11-12.
[80] Thierry M, Salomon M, van Nunen JA, et al. Strategic issues in product recoverymanagement[J].California Management Review,1995,37(2):114-135.
[81] Fleischmann M, Blocmhof-Ruwaard Jacqueline M, Dekker Rommer, et al. Quantitative modelsfor reverse logistics: a review[J]. European Journal of Operational Research,1997,103(1):1-17.
[82] Shih Li-Hsing Reverse logistics system planning for recycling electrical appliances and computersin Taiwan[J]. Resources Conservation and Recycling,2001,32(1):55-72.
[83] Hu Tung-Lai, Sheu Jiuh-Biing Huang Kuan-Hsiung A reverse logistics cost minimization modelfor the treatment of hazardous wastes[J]. Transportation Research Part B Logistics andTransportation Review,2002,38(1):457-473.
[84] Hokey M., Hyun J., Chang S.. A genetic algorithm approach to developing the multi-echelonreverse logistics network for product returns[J].Omega,2006,34:56-69.
[85] Fleischmann M,Krikke H R,Dekker R, et al. A characterisation of logistics networks for productrecovery [J]. Omega,2000,28(6):653-666.
[86] Jayaraman V., Guide Jr. VDR, Srivastava R. A Closed-loop logistics model forremanufacturing[J].Journal of the Operational Research Society,1999(50):497-508.
[87] Richter K. The Extended EOQ repair and waste disposal model[J]. International Journal ofProduction Economics.1996(45):443-448.
[88] Kleber R, Minner S, Kiesmuller G. A Continuous Time inventory model for a productrecovery system with multiple options[J]. International Journal of Production Economics,2002(79):121-141.
[89] Dobos I. Optimal Production-inventory Strategies for a HMMS-type reverse logisticssystem[J]. International Journal of Production Economics,2003,81-82:351-360.
[90] Fleischmann M, Kuik R, Dekker R. Controlling inventories with stochastic item returns: abasic model[J]. European Journal of Operational Research,2002,138:63-75.
[91] P. Georgiadis and D.Vlachos.Analysis of the dynamic impact of environmental policies onreverse logistics Operational Research[J].2003,3(2):13-19.
[92] Patroklos Georgiadis,Dimitrios Vlachos. The effect of environmental parameters on productrecovery[J].European Journal of Operational Research,2004,4(30):449-464.
[93]向盛斌.逆向物流与环境保护[J].物流技术,2001(1):44-45.
[94]柳键.供应链的逆向物流[J].商业经济与管理,2002(6):10-13.
[95]朱道立,崔益明,陈妹妮.逆向物流系统和技术[J].复旦大学学报:自然科学版,2003,42(5):673-679.
[96]达庆利,黄祖庆,张钦.逆向物流系统结构研究的现状及展望[J].中国管理科学,2004,12(5):131-138.
[97]孙林岩,王蓓.逆向物流的研究现状和发展趋势[J].中国机械工程,2005,16(10):928-932.
[98]刘永清等.绿色逆向物流管理有效途径研究[J].科技进步与对策,2005(12):13-15.
[99]王蓓,孙林岩.基于ANP方法的逆向物流决策模型和算法[J].软科学,2007,21(2):20-24.
[100]叶飞等.绿色环保压力与企业逆向物流绩效关系研究[J].管理科学,2008(5):55-63.
[101]秦纂.基于绿色物流理念的企业物流流程再造分析[J].改革与战略2009(5):173-175.
[102]王文娟.企业绿色逆向物流决策方法研究[D].大连:大连理工大学,2009.
[103]马祖军,代颖.产品回收逆向物流网络优化设计模型[J].管理工程学报,2005,19(4):114-117.
[104]周根贵,曹振宁.遗传算法在逆向物流网络选址问题中的应用研究[J].中国管理科学2005,13(1):42-47.
[105]代颖等.基于混合整数线性规划建立一种再制造闭环型物流网络优化设计模型[J].中国机械工程,2006(8):809-814.
[106]代颖等.基于二阶段随机规划的制造/再制造集成物流网络优化设计[J].系统工程,2006(3):8-14.
[107]何波,杨超,张华.废弃物回收的多层逆向物流网络优化设计问题研究[J].中国管理科学,2007,15(3):61-67.
[108]谢家平.产品回收处理策略优化的0-1目标规划模型[J].系统工程理论与实践,2004,24(6):52-57.
[109]赵宜,蒲云,尹传忠.回收物流库存控制研究[J].中国管理科学,2005,13(5):49-53.
[110]董立.静脉物流及其博弈分析[J].中国资源综合利用,2002(2):36-40.
[111]汪传旭.逆向物流动态博弈分析模型[J].中国航海,2003(4):78-81.
[112]贾小玫,冉净斐.逆向物流的博弈分析[J].商业经济与管理,2005(2):9-12.
[113]洪志生,张春霞,苏时鹏.逆向物流系统的运行机理[J].物流技术,2006(3):62-64.
[114]张保银,汪波,吴煜.基于循环经济模式的政府激励与监督问题[J].中国管理科学,2006(14):136-141.
[115]李金勇,刘威,程国平.政府与企业实施逆向物流的博弈分析[J].西北农林科技大学学报(社会科学版),2007,7(3):54-56.
[116]张颖菁,刘娟娟.基于博弈模型的绿色物流税收策略[J].上海海事大学学报,2010(3):52-55.
[117]王西兵等.循环经济模式下发展静脉物流的系统思考[J].工业技术经济,2005,24(9):88-91.
[118]蓝万炼.试论循环经济发展中的现代物流管理[J].长沙理工大学学报,2005,20(3):8-11.
[119]包菊芳.物流在发展循环经济中的地位与对策[J].北京交通大学学报(社会科学版),2010,9(3):88-91.
[120]高凤莲.绿色物流在发展循环经济中的地位与对策[J].中国流通经济,2008(8):16-19.
[121]潘文军.基于循环经济理论的区域绿色物流发展评价体系分析[J].北京交通大学学报(社会科学版),2010,9(3):42-46.
[122]朱煜等.循环物流系统的概念分析[J].北京交通大学学报,2006,4(5):29-32.
[123]彭晓莉.基于循环经济的绿色物流研究[D].武汉:武汉理工大学,2006.
[124] Abdelkader Sbihi, Richard W. Eglese. Combinatorial optimization and Green Logistics,Springer-Verlag,2007:99-115.
[125] S. Ubeda, F. J.,Arcelusc, J. Faulin. Green logistics at Eroski:A case study[J/OL],International Journal of Production Economics (2010). http://www.elsevier.com/locate/ijpe.
[126]王兰.安徽省冶金业绿色物流效益模型系统研究[D].合肥:合肥工业大学,2007.
[127]于成学.绿色物流一体化管理模型研究[J].大连民族学院学报,2008(6):517-521.
[128]上官绪明.绿色物流系统优化模式[J].创新科技,2010(5):22-23.
[129]李宁.基于绿色思想的物流运输配送研究[D].大连:大连海事大学,2004.
[130]田沐野.基于GIS的农产品物流配送车辆路线优化可视化研究[D].长春:吉林大学,2006.
[131]邱忠权.绿色农产品封闭供应链物流网络优化研究[D].成都:西南交通大学,2010.
[132] Robert D. Miles, Kumares C. Sinha. Aregional railroad network optimization model for coaltransportation[J]. Transportation Research Part B,1981,15(4):227-238.
[133] OsleebJP, RatiekSJ, KubyMJ. COAL LOGISTICS SYSTEM[M].1990:6-13.
[134] LiuHency, NobleJames, WuJianPing. Economic social for transportation coal[J].Transportation Research Part A:Policy and practice,1998(32):377-39.
[135] BaharY, Kara,VedatVerter. Designing a Road Network for Hazardous MaterialsTransportation[J]. TransPortation Science,2004(5):188-196.
[136]汤希峰,余静.煤炭物流系统体系结构的研究[J].物流技术,2004(10):16-18.
[137]石付恒.煤炭物流系统的研究[D].徐州:中国矿业大学,2004.
[138]贺超.煤矿逆向物流系统研究[D].徐州:中国矿业大学,2005.
[139]王金凤.煤炭生产物流系统研究[D].天津:天津大学,2005.
[140]刘茂华,吕永波,任锦鸾.煤炭企业供应物流系统分析及效率优化研究[J].物流技术,2007(3):21-24.
[141]曲绵友.基于WITNESS的煤炭生产物流系统仿真[D].山东科技大学,2009.
[142]彭晨,岳东.基于Petri网的流程供应链过程建模分析[J].计算机工程与应用,2003(10):199-201.
[143]陈建生,王立杰.论煤炭企业物流供应链联盟[J].管理世界,2004(11):148-149.
[144]张驎,段玉玲,郭瑞平.论基于供应链思想的煤炭企业物流管理[J].中国矿业,2005,14(8):26-28.
[145]苏丽琴,于宝栋.煤炭供应链的构建[J].中国煤炭,2006(5):19-21.
[146]姚伟坤,周梅华等.基于均衡供给的煤炭供应链特征研究[J].中国矿业大学学报(社会科学版),2007(3):41-45.
[147]吕涛.煤炭供应链的系统结构与协调机制[J].中国矿业大学学报(社会科学版),2009(1):74-79.
[148]刘满芝,周梅华等.大型煤炭企业供给系统供应链解构及优化[J].煤炭学报,2009(1):139-142.
[149]赵媛,于鹏.我国煤炭资源空间流动的基本格局与流通通道[J].经济地理,2007,27(2):196-200.
[150]赵文竹.我国煤炭运输格局分析[J].综合运输,2005(4):73-76.
[151]于良,金凤君,张兵.中国煤炭运输的现状、发展趋势与对策研究[J].铁道经济研究,2006,(5):38-41.
[152]刘敬青.我国煤炭产消运空间格局分析[J].综合运输,2009(12):61-65.
[153]张伟,刘毅,金凤君.我国煤炭省际调运的空间格局演变及其影响[J].辽宁工程技术大学学报,2007,26(3):334-336.
[154]成升魁,徐增让,沈镭.中国省际煤炭资源流动的时空演变及驱动力[J].地理学报,2008,63(6):603-612.
[155]王成金,莫辉辉,王姣娥.中国煤炭资源的流动格局及流场规律研究[J].自然资源学报,2009,24(8):1402-1442.
[156]荣朝和.煤炭物流对我国铁路运输的影响与挑战[J].中国铁路,2007(12):31-35.
[157]马驹.全国主要煤炭基地煤炭运输铁路水路分工研究[J].铁道工程学报,2008(6):20-24.
[158]刘敬青.铁路省际煤炭调运的分析与评价[J].中国能源,2010,32(10):20-24.
[159]刘敬青.我国大陆煤炭中长距离运输经济性分析[J].综合运输,2010(10):66-74.
[160]杨利军,洪志.基于SNA的中国省际煤炭交流网络分析[J].现代情报,2011,31(5):25-32.
[161]李智.基于蚁群算法的煤炭运输优化方法[J].中国铁道科学,2004,25(3):126-129.
[162]王满银,汪应宏.我国当前煤炭资源的运输调配及优化问题研究[J].煤炭经济研究,2004,(2):15-17.
[163]于丽颖等.铁路煤炭调运问题的遗传算法[J].铁道运输与经济,2007,29(7):79-81.
[164]赵国智,王喜富,张仲义.煤炭物流网络的复杂性分析及优化方法研究[J].物流技术,2008(8):117-119.
[165] Zhang Yanzhi,Lv Tao,Feng Ying. An Empirical Study on China's Inter-provincial CoalDistribution by Railway[A]. Proceedings of2010The3rdInternational Conference onComputational Intelligence and Industrial Application[C],2010.
[166]许红莲.绿色物流金融运营研究[D].长沙:中南大学,2010.
[167]汤希峰,余静.煤炭黑色物流的绿色化转变[J].矿业研究与开发,2005,25(1):82-84.
[168]胡晓辛等.煤炭物流中的“非绿色因素”分析[J].煤炭经济研究,2007(8):20-22.
[169]张医才.山西煤炭绿色物流评价与发展对策研究[D].天津:天津大学,2008.
[170]王莹莹,胡天军.我国煤炭物流绿色化发展及对策研究[J].物流技术,2011,30(6):29-31.
[171]龙如银,董洁.煤炭企业实施绿色开采的博弈分析及政策建议[J].中国矿业,2005(2):17-20.
[172]林积泉等.煤炭工业企业循环经济产业链设计与环境效益研究[J].环境保护,2005(4):55-58.
[173]席旭东.煤炭矿区工业共生模式研究[J].山东工商学院学报,2007(6):42-48.
[174]张驎,何媛.应用循环经济理论构建煤炭生态工业园[J].中国矿业,2006(12):14-17.
[175]于励民.我国煤炭产业发展循环经济的运行机制研究[D].武汉:华中科技大学,2008.
[176]曹代功.煤炭生态工业园的构建及作用分析[J].煤炭经济研究,2009(7):20-21.
[177]许笑平.企业物流绿色化发展障碍机理与推进策略研究[D].北京:北京交通大学,2010.
[178]武云亮,黄少鹏.我国煤炭物流网络体系优化及其政策建议[J].中国煤炭,2008(10):27-30.
[179]王帅.煤炭物流网络运作模式研究[D].西安:长安大学,2009.
[180]李宏.中国煤炭运输[M].北京:中国市场出版社,2008:173.
[181]赵倩钰.资源型企业绿色物流管理研究[J].物流技术,2009(6):122-125.
[182]钱明高,许家林,缪协兴.煤矿绿色开采技术[J].中国矿业大学学报,2003,32(4):344-350.
[183]张琳琳.绿色物流系统构建问题研究—以大连市为例[D].大连:大连交通大学,2008.
[184]朱煜.城市循环物流系统构建研究[D].北京:北京交通大学,2010.
[185]周启蕾.物流学概论[M].北京:清华大学出版社,2005:56-73.
[186]高本河,魏际刚.绿色物流在国外的发展及我国的差距[J].中国物流与采购网,2003.
[187]保罗·A·萨缪尔森.经济学(第17版)[M].北京:地质出版社,2005:174.
[188]王安佑等.资源环境经济学[M].北京:地质出版社,2005:174
[189]胡伟.企业社会责任理论下的绿色物流推进与政府管制[J].消费导刊,2008(10):24-25.
[190]李文静.政府在绿色物流中的作用[J].北方经贸,2006(1):38-44.
[191]翁翼飞,何媛,张驎.国有大型煤炭企业循环经济典型模式解析[J].中国矿业,2008(5):94-96.
[192]王宜虎,陈雯.工业绿色化发展的动力机制分析[J].华中师范大学学报,2007(1):125-129.
[193] Keim G D. Managerial Behavior and the Social Responsibility Debate: Goals VersusConstraints[J]. Academy of Management Journal,1978,21:5768.
[194]唐久益,储雪俭.浅析物流企业社会责任[J].物流技术,2007(1):35-38
[195]王林秀.清洁生产驱动因素及调控机制研究[D].徐州:中国矿业大学,2009.
[196]胡建,李向阳,孙金花.合作制造企业间关系价值影响因素的实证分析[J].科研管理,2010(1):39.
[197]易丹辉.结构方程模型方法与应用[M].北京:中国人民大学出版社,2009:185-186.
[198]邱皓政.结构方程模型的理论技术与应用[M].台北双叶书廊有限公司,2004.
[199] JAVIER GONZALEZ-BENITO and OSCAR GONZALEZ-BENITO. The role ofstakeholder pressure and managerial values in the implementation of environmentallogistics practices[J]. International Journal of Production Research,2006,44(7):1353-1373.
[200] Hox J J. Amos, EQS and LISREL for windows: A comparative review. StructuralEquationModeling [M].NY: McGraw-Hill Companies,2004.
[201]郭志刚.社会统计分析方法[M].中国人民大学出版社,2006.
[202] Hair J F, Anderson R E, Tatham R L, et al. Multivariate data analysis [M].5thed. NewJersey: Prentice Hall College Div,1998.
[203]马文军,潘波.问卷的信度和效度以及如何用SAS统计分析[J].中国卫生统计,2000(17):364-365.
[204] Coben.Statistical power analysis for the behavioral sicence[M].New Jersey:LawrenceErlbaum Associates,1999.
[205]王之泰.新编现代物流学[M].北京:首都经济贸易大学出版社,2008:67.
[206]仇莉,牛林.绿色物流系统外部性经济评价[J].生态经济,2011(8):107-110.
[207]李赶顺,王文中.循环经济运行机理的数理分析[M].北京:中国环境科学出版社,2008:42-43.
[208]单虹.衡阳市绿色物流系统研究[D].武汉:中南大学,2008.
[209]宋彩萍.加强我国铁路煤炭运输通道建设的思考[J].中国工程科学,2009,11(9):78-80.
[210]杜明汉.大力发展山西煤炭外运体系[J].综合运输,2004(8):50-52.
[211]宋丽娟.基于循环经济理念的企业物流发展策略—构建绿色物流系统[J].中国市场,2010(10):22-25.
[212]赵怡晴,李翠平.煤炭企业推-拉式供应链战略研究[J].中国煤炭,2008(6):38-40.
[213]姜辉.大型煤炭企业内部供应链构建与优化研究[D].徐州:中国矿业大学,2009.
[214]曹翠珍.基于可持续发展的绿色物流体系构建的研究[J].物流工程与管理,2009(8):21-23.
[215]杨玉中等.煤业集团绿色供应链管理[M].北京冶金工业出版社,2007:75-79.
[216]何利军,王伟.浅析火车皮表面喷洒封尘固化剂的可行性[J].陕西煤炭,200(86):29-30.
[217]魏邦成.煤炭运输通道布局优化研究[D].北京:北京交通大学,2008.
[218]赵鲁华,庆贵.中国煤炭物流中心宏观选址布局探讨[J].中国煤炭,2012(1):28-32.
[219]荣海涛,宁宣熙.煤炭物流系统资源整合模式研究[J].现代管理科学,2008(8):60-62..
[220]刘利军,关晓吉.浅谈我国煤炭物流的发展模式[J].山东工商学院学报,2009(1):26-29.
[221]李文静.国外绿色物流的发展与实践[J].物流技术,2005(9):194-196.
[222]于成学.企业绿色物流logistic模型及其稳定性分析[J].科技管理研究,2009(5):315-318.
[223]张则强等.面向生态工业和循环经济的绿色物流[J].起重运输机械,2003(9):5-8.
[224]王兆华,尹建华.生态工业园中工业共生网络运作模式研究[J].中国软科学,2005(2):80-85.
[225]高阳.我国沿海煤炭运输主干航线研究[D].上海:上海交通大学,2008.
[226]煤炭运输使用手册[R].山西汾渭信息技术有限公司,2008:8-10.
[227]煤炭工业发展“十二五”规划[J/OL].http://www.sdpc.gov.cn/zcfb/zcfbtz/2012tz/t20120322_468769.htm.
[228] Emile Quinet. Internalising the Social Costs of Transport Paris[M].OECD,1994.
[229]游历.锡盟煤炭运输通道规划的若干问题研究[D].北京:北京交通大学,2006.
[230]吕正昱,季令.交通运输外部成本问题研究[J].同济大学学报(自然科学版),2005,33(7):931-936.
[231]谢家平.绿色产品设计方案优选的目标规划模型[J].科技进步与对策,2004(12):24-26.
[232]刘志军.加快实现我国铁路现代化,为国民经济又好又快发展提供可靠的运力保护[J].铁路经济研究,2008(1):27.
[233]尹新.基于绿色物流发展铁路运输的探讨[J].铁道运输与经济,2010(3):53-55.
[234]吴卫平等.我国运输成本计算分析[J].铁道经济研究,2009(2):11-13.
[235]潘文军.基于循环经济理论的绿色物流评价体系[J].起重运输机械,2008(7):1-7.
[236]王海燕.循环经济理论下的城市固体废弃物系统优化模型[J].物流技术,2005,(10):287-288.
[237]王其藩.系统动力学[M].北京:清华大学出版社,1994:95-117.
[238]李龙清,秦国玉,田俊峰.煤炭工业可持续发展的系统动力学模型[J].西安科技大学学报,2006(2):151-153.
[239]文东戈,郝传波,王旭.煤炭矿区环境系统动态仿真研究[J].中国矿业,2008(2):36-39.
[240]蒋衔武,孙菁.基于系统动力学的煤矿工业生态系统仿真研究[J].生态经济(学术版),2010(1):160-163.
[241]孙玉峰.煤炭资源开发系统动态仿真研究[J].煤炭学报,2008(2):237-240.
[242] Reid B, Bert B, Janet K A. Using response surfaces to improve the search for satisfactorybehavior in system dynamics models[J].System Dynamics Review,2000,16(2):75-90.
[243]王灵梅等.火电厂生态工业园系统动力学模拟与调控[J].系统工程理论与实践,2005(7):117-124.
[244] Bernd E.Hirsch,Thorsten Kuhlman, Jens Schumacher. Logistics simulation of recyclingnetworks [J]. computers in Industry.1998,36(1):31-38.
[245]谢家平,孔令丞.逆向物流管理[M].北京:中国时代经济出版社,2008:123.
[246]丁日佳,朱亚平.矿区循环经济理论与技术[M].徐州:中国矿业大学出版社,2008:68.
[247]李永峰.煤炭资源开发对矿区资源环境影响的测度研究[M].徐州:中国矿业大学出版社,2008.
[248]刘晔.山西煤炭开采外部成本核算——煤矸石堆存损耗测算[J].山西能源与节能,2008(1):39-41.
[249]周长兰.循环经济模式下绿色物流利益实现机制[J].铁路采购与物流,2010(8):51-52.
[250] Ayres R.U. Industrial Metabolism: Theory and Policy, the Greening of IndustrialEcosystems[A]. Allenby B.R, Richard D.J. The Greening of Industrial Ecosystems[C].Washington D C: NationalAcademy of Engineering,1994.
[251] Bjorn Stigsoned. What is eco-efficiency. Sydney: WBCSD[M].1999.
[252]唐晓华,王广凤,马小平.基于生态效益的生态产业链形成研究[J].中国工业经济,2007(11):121-127.
[253]李爱彬,周敏,卞丽丽.企业实施绿色物流的政府激励与监督机制设计[J].生态经济,2009(3):99-102.
[254]张维迎.博弈论与信息经济学[M].上海:上海人民出版社,2004:257-260.
[255]王能民,孙林岩,王应洛.绿色供应链管理[M].北京:清华大学出版社,2005:125-128.
[256]杨发明,吕燕.绿色技术创新的组合激励研究[J].科研管理,1998(1):40-44.
[257]诺斯.制度、制度变迁与经济绩效[M].上海:上海人民出版社,2011:102-110.
[258]李昆,魏晓平,蔡晓旭.企业群落绿色技术的扩散机制[J].财经科学,2007(7):81-87.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |