生态经济学的能量学说:都市经济的?值核算与模拟图书
The Energy Theories in Ecological Economics: Cosmic Emergy Based Accounting and Modelling of Urban Economy
[内容简介] 生态经济学的能量学说坚持“大生态,小经济”的世界观,重视分析人类社会经济系统的生物物理基础,坚持以能量单位重构价值和决策体系,为我们洞察世界提供了独特的视角。作为能量学说的最新进展,?值理论进一步体现了热力学第二定律的哲学思辨,能更确切地描绘人类社会经济系统的演化规律。本书对都市经济进行了?值核算、模拟与调控,提出了实现都市经济永续长存的三大发展目标:恰当的经济规模、合适的资本丰度以及适当的增长速率。
相关信息
第一章 绪论
第一节 由“空”变“满”,生态经济学初露锋芒
第二节 在“满”的世界,都市经济何去何从
第三节 基于能量学说的最新进展,探索都市经济的未来出路
第二章 生态经济学的思想、理论和方法
第一节 什么是生态经济学
第二节 生态经济学的流派
第三节 生态经济学的热力学思辨
第四节 生态经济学的能量学说
第五节 生态经济学的系统生态模拟方法
第三章 值理论:一套全新的价值体系
第一节 值和稀缺性
第二节 生态价值和生态成本
一 价值本源和价值衡量
二 虚拟环境投入和生态成本
第三节 值转化率、品质与 值货币比
第四节 生态存量和生态财富
第四章 值核算
第一节 值核算已有的进展
第二节 值转化率
一 自然资源
二 人口
三 文化信息
四 污染物
第三节 值截面核算方法和指标
1.净 值产量比
2. 值投资比
3. 值货币比
4. 值使用集约度
5. 值来源结构
6. 值交易
7.自然环境承载力
第四节 值网络核算方法和指标
1.生态财富总量和人均生态财富
2. 值货币财富
3. 值功率指数
4.财富增加速率
5.反馈程度指数
6.财富结构指数
7.生态财富多样性
8.生态成本
9.生态成本多样性指数
第五章 值系统生态模拟
第一节 值理论和系统生态模拟的结合
第二节 自催化反馈设计与 值功率最大化原理
第三节 脉冲系统模型
第四节 路语言和模拟
第六章 都市经济 值核算、模拟与调控
第一节 都市经济 值网络核算
第二节 都市经济 值系统生态模拟与调控
一 都市经济自组织过程和自催化反馈设计
二 建模思想和模拟步骤
三 都市经济 值系统生态调控思想
第七章 北京市都市经济 值核算
第一节 数据来源
第二节 都市经济概况
一 都市生态景观布局
二 都市资源环境背景
1.水资源
2.矿产资源
三 都市功能
四 都市经济结构
五 都市人口和文化
第三节 值网络核算框架
第四节 生态财富和相关分析
一 自然资源
1.水资源
2.土壤资源
3.矿产资源
二 农业资产
1.植物生物量
2.动物存栏量
三 城市资产
1.建筑、设备以及相关基础设施
2.交通工具、道路和配套设施
四 金融资产
五 人口存量
六 文化信息存量
七 相关指数分析
第五节 生态成本和相关分析
第八章 北京市都市经济 值系统生态模拟
第一节 模型
第二节 模拟结果与分析
一 自然资源
二 农业资产
三 城市资产
四 金融资产
五 人口和文化信息存量
六 潜在环境影响
七 土地面积
八 相关指标模拟结果分析
第三节 都市经济脉冲分析
第九章 北京市都市经济 值系统生态调控
第一节 资源瓶颈
第二节 供给管理和需求管理
第三节 供给管理:调水方案
第四节 需求管理:能源价格调控方案
第五节 比较和总结
第十章 如何面向未来
第一节 回顾与总结
一 值理论
二 值方法
三 北京都市经济案例研究
第二节 启示:宏观经济的三大目标
一 保持一个恰当的经济规模
二 追求一种合适的资本丰度
三 维持一个适当的增长速率
第三节 从容地面向未来
自序
1.陈刚、朱嘉广主编《北京城》,北京出版社,2005。
2.顾朝林:《经济全球化与中国城市发展——跨世纪中国城市发展战略研究》,商务印书馆,1999。
3.黄书礼:《都市生态经济与能量》,詹氏书局,2004。
4.马东春:《中国缺水问题与污水资源化——以北京市为例》,《水利经济》2006年第6期。
5.孙群郎:《美国城市郊区化研究》,商务印书馆,2005。
6.史明正:《走向近代化的北京城——城市建设与社会变革》,北京大学出版社,1995。
7.汪先永:《北京经济发展阶段与未来选择》,《经济理论与经济管理》2006年第1期。
8.王旭:《美国城市史》,中国社会科学出版社,2000。
9.肖亦卓:《北京城市国际化进程及其治理》,载黄序主编《2007年:中国首都城乡发展报告》,社会科学文献出版社,2007。
10.朱铁臻:《经济发展中的城市——城市发展研究》,中国统计出版社,1996。
11.赵乐:《2006年北京郊区农村发展研究》,载黄序主编《2007年:中国首都城乡发展报告》,社会科学文献出版社,2007。
12.常征:《北京与水——解决北京水资源问题的方略选择》,《城市问题》1983年第1期。
13.世界自然基金会(WWF):《地球生命力报告·中国2015》,2015。
14.理查德·瑞杰斯特:《生态城市伯克利:为一个健康的未来建设城市》,中国建筑工业出版社,2005。
15.Agostinho,F.,Diniz,G.,Siche,R.,Ortega,E.,“The Use of Emergy Assessment and the Geographical Information System in the Diagnosis of Small Family Farms in Brazil,”
16.Ayres,R.U.,Kneese,A.V.,“Production,Consumption,and Externalities,”
17.Ayres,R.U.,
18.Ayres,R.U.,Simonis,U.E.,
19.Ayres,R.U.,Ayres,L.W.,Martinás,K.,“Exergy,Waste Accounting and Life-Cycle Analysis,”
20.Ayres,R.U.,Ayres,L.W.,Warr,B.,“Exergy,Power and Work in the US Economy,”
21.Barbier,E.B.,“Economics,Natural-resource Scarcity and Development”,
22.Boltzmann,L.,“The Second Law of Thermodynamics,”
23.Boulding,K.E.,“The Consumption Concept in Economic Theory,”
24.Boulding,K.E.,“Income or Welfare?”
25.Boulding,K.E.,
26.Boulding,K.E.,“The Consumption Concept in Economic Theory”,
27.Boulding,K.E.,“The Economics of the Coming Spaceship Earth,”
28.Braat,L.C.,Van Lierop,W.F.J.,“Economic-Ecological Modeling:An Introduction to Methods and Applications,”
29.Brown,M.T.,McClanahan,T,“Emergy Analysis Perspectives of Thailand and Mekong River Dam Proposals,”
30.Brown,M.T.,Ulgiati,S.,“Emergy-Based Indices and Ratios to Evaluate Sustainability:Monitoring Economies and Technology Toward Environmentally Sound Innovation,”
31.Brown,M.T.,
32.Brown,M.T.,Buranakarn,V.,“Emergy Indices and Ratios for Sustainable Material Cycles and Recycle Options,”
33.Brown,M.T.,Ulgiati,S.,“Emergy Evaluations and Environmental Loading of Electricity,”
34.Brown,M.T.,Ulgiati,S.,“Emergy Analysis and Environmental Accounting,”
35.Brown,M.T.,Ulgiati,S.,“Emergy,Transformity,and Ecosystem Health,”
36.Burkett,P.,“The Value Problem in Ecological Economics Lessons from the Physiocrats and Marx,”
37.Burton,A.C.,“The Properties of the Steady State Compared to those of Equilibrium as Shown in Characteristic Biological Behavior,”
38.Cabecinha,E.,Cortes,R.,Cabral,J.A.,“Performance of a Stochastic-Dynamic Modelling Methodology for Running Waters Ecological Assessment,”
39.Chaloupka,M.,“Stochastic Simulation Modelling of Southern Great Barrier Reef Green Turtle Population Dynamics,”
40.Chen,T. Y.,Burnett,J.,Chau,C.K.,“Analysis of Embodied Energy Use in the Residential Building of Hong Kong”,
41.Chen,G.Q.,“Exergy Consumption of the Earth,”
42.Chen,G.Q.,“Scarcity of Exergy and Ecological Assessment Based on Embodied Exergy,”
43.Chen,G.Q.,Jiang,M.M.,Chen,B.,Yang,Z.F.,Lin,C.,“Emergy Analysis of Chinese Agriculture,”
44.Chen,B.,Chen,G.Q.,“Ecological Footprint Accounting Based on Emergy-A Case Study of the Chinese Society,”
45.Chen,G.Q.,Chen,B.,“Resource Analysis of the Chinese Society 1980-2002 Based on Exergy-Part 1:Fossil Fuels and Energy Minerals,”
46.Chen,B.,Chen,G.Q.,“Resource Analysis of the Chinese Society 1980-2002 Based on Exergy-Part 2:Renewable Energy Sources and Forest,”
47.Chen,B.,Chen,G.Q.,“Resource Analysis of the Chinese Society 1980-2002 Based on Exergy-Part 3:Agricultural Products,”
48.Chen,B.,Chen,G.Q.,“Resource Analysis of the Chinese Society 1980-2002 Based on Exergy-Part 4:Fishery and Rangeland,”
49.Chen,G.Q.,Chen,B.,“Resource Analysis of the Chinese Society 1980-2002 Based on Exergy-Part 5:Resource Structure and Intensity,”
50.Chen,G.Q.,Ji,Xi.,“Chemical Exergy Based Evaluation of Water Quality,”
51.Chen,B.,Chen,G.Q.,“Modified Ecological Footprint Accounting and Analysis Based on Embodied Exergy-A Case Study of the Chinese Society 1981-2001,”
52.Chen,G.Q.,Qi,Z.H.,“Systems Account of Societal Exergy Utilization:China 2003,”
53.Chen,B.,Chen,G.Q.,“Emergy-Based Energy and Material Metabolism of the Yellow River Basin,”
54.Chen,T.Y.,Burnett,J.,Chau,C.K. “Analysis of Embodied Energy Use in the Residential Building of Hong Kong,”
55.Christensen,P.P.,“Historical Roots for Ecological Economics-Biophysical Versus Allocative Approaches,”
56.Cleveland,C.J.,Costanza,R.,Hall,C.A.S.,Kaufmann,R.,“Energy and The US Economy:A Biophysical Perspective,”
57.Cleveland,C.J.,“Biophysical Economics:Historical Perspective and Current Research Trends,”
58.Cleveland,C.J.,Kaufmann,R.K.,Stern,D.I.,“Aggregation and the Role of Energy in the Economy,”
59.Common,M.,“Measuring National Economic Performance without Using Prices,”
60.Cornelissen,R.L.,Hirs,G.G.,“The Value of Exergetic Life Cycle Assessment Besides LCA,”
61.Corrado,A.,Fiorini,P.,Sciubba,E.,“Environmental Assessment and Extended Exergy Analysis of A ‘Zero CO
62.Costanza,R.,“Embodied Energy and Economic Valuation,”
63.Costanza,R.,“What is Ecological Economics,”
64.Costanza,R.,“Economic Growth,Carrying Capacity,and The Environment,”
65.Costanza,R.,Gottlieb,S.,“Modelling Ecological and Economic Systems with STELLA:Part Ⅱ,”
66.Costanza,R.,Voinov,A.,“Modeling Ecological and Economic Systems with STELLA:Part Ⅲ,”
67.Costanza,R.,Daly,H.E.,“Toward an Ecological Economics”,
68.Creyts,J.C.,Carey,V.P.,“Use of Extended Exergy Analysis as a Tool for Assessment of the Environmental Impact of Industrial Processes,” ed. Ramalingam,M.L.,Lage,J.L.,Mei V.C.,Chapman,J.N.(AES-37,ASME,1997),(pp.129-137).
69.Daily,G.C.,
70.Daly,H.E.,“The Economics of the Steady State,”
71.Daly,H. E.,“The Economic Thought of Frederick Soddy,”
72.Daly,H.E.,“The Economic Growth Debate:What Some Economists Have Learned but Many Have Not,”
73.Daly,H.E.,“Toward Some Operational Principles of Sustainable Development,”
74.Daly,H.E.,“Towards an Environmental Macroeconomics,”
75.Daly,H.E.,“Allocation,Distribution,and Scale:Towards an Economics that is Efficient,Just,and Sustainable,”
76.Daly,H.E.,“Against Free Trade:Neoclassical and Steady-state Perspectives,”
77.Daly,H.E.,
78.Daly,H.E.,
79.Daly,H.E.,
80.Daly,H.E.,Cobb,J.B.,
81.Daly,H.E.,Farley,J.C.,
82.Daly,H.E.,Townsend,K.N.,
83.Daniel,J.J,Rosen,M.A.,“Exergetic Environmental Assessment of Life Cycle Emissions for Various Automobiles and Fuels,”
84.Dincer,I.,Rosen,M.A.,“A Worldwide Perspective on Energy,Environment,and Sustainable Development,”
85.Dincer,I.,“Thermodynamics,Exergy,and Environmental Impact,”
86.Dincer,I.,“Technical,Environmental,and Exergetic Aspects of Hydrogen Energy Systems,”
87.Dincer,I.,Hussain,M.M.,Al-Zaharnah,I.,“Energy and Exergy Utilization in Transportation Sector of Saudi Arabia,”
88.Dincer,I.,Hussain,M.M.,Al-Zaharnah,I.,“Energy and Exergy Use in Public and Private Sector of Saudi Arabia,”
89.Dincer,I.,Rosen,M.A.,“Thermodynamic Aspects of Renewables and Sustainable Development,”
90.Downs,A.,
91.Eissa,M.M.,“Demand-side Management Program Evaluation based on Industrial and Commercial Field Data,”
92.Ertesv?g,I.S.,Mielnik,M.,“Exergy Analysis of the Norwegian Society,”
93.Ertesv?g,I.S.,“Energy,Exergy,and Extended-Exergy Analysis of the Norwegian Society 2000,”
94.Federici,M.,Ulgiati,S.,Basosi,R.,“A Thermodynamic,Environmental,and Material Flow Analysis of the Italian Highway and Railway Transport Systems,”
95.Finnveden,G.,?stlund,P.,“Exergies of Natural Resources in Life-Cycle Assessment and Other Applications,”
96.Forrester,J.W.,
97.Forrester,J.W.,
98.Forrester,J.W.,
99.Friedmann,J.,“Where We Stand:A Decade of World City Research,”
100.Geddes,P.,“City development:A Study of Parks,Gardens,and Culture-Institutes,”
101.Geddes,P.,
102.Gellings,C.W.,“The Concept of Demand-side Management for Electric Utilities,”
103.Gellings,C.W.,Chamberlin,J.H.,
104.Genoni,G.P.,Montague,C.L.,“Influence of the Energy Relationships of Trophic Levels and of Elements on Bioaccumulation,”
105.Genoni,G.P.,“Influence of the Energy Relationships of Organic Compounds on Toxicity to the Cladoceran Daphnia Magnaand the Fish Pimephales Promelas,”
106.Georgescu-Roegen,N.,
107.Georgescu-Roegen,N.,“Process Analysis and the Neoclassical Theory of Production,”
108.Goto,N.,Sakoda,A.,Suzuki,M.,“Modelling of Soil Carbon Dynamics as a Part of Carbon Cycle in Terrestrial Ecosystems,”
109.Gong,M.,Wall,G.,“On Exergy and Sustainable Development-Part 2:Indicators and Methods,”
110.Goodstein,D.,“Chance and Necessity,”
111.Graboski,M.,“Fossil Energy Use in the Manufacture of Corn Ethanol,” Prepared for the National Corn Growers Association,2002.
112.Guo,H.C.,Liu,L.,Huang G.H.,Fuller,G.A.,Zou,R.,Yin,Y.Y.,“A System Dynamics Approach for Regional Environmental Planning and Management:A Study for the Lake Erhai Basin,”
113.Hall,C.A.S.,Cleveland,C.J.,Kaufmann,R.,
114.Hammond,G.P.,Stapleton,A.J.,“Exergy Analysis of the United Kingdom Energy System,”
115.Hannon,B.,“Structure of Ecosystems,”
116.Hazel,H.,
117.Hobson,J.A.,
118.Huang,S.L.,Wu,S.C.,Chen,W.B.,“Ecosystem,Environmental Quality,and Ecotechnology in the Taipei Metropolitan Region,”
119.Huang,S.L.,“Urban Ecosystems,Energetic Hierarchies,and Ecological Economics of Taipei Metropolis,”
120.Huang,S.L.,Lai,H.Y.,Lee,C.L.,“Energy Hierarchy and Urban Landscape System,”
121.Huang,S.L.,Hsu,W.L.,“Materials Flow Analysis and Emergy Evaluation of Taipei’s Urban Construction,”
122.Huang,S.L.,Chen,C.W.,“Theory of Urban Energetics and Mechanisms of Urban Development,”
123.Huang,S.L.,Kao,W.C.,Lee,C.L.,“Energetic Mechanisms and Development of an Urban Landscape System,”
124.Huang,L.Q.,Chen,G.Q.,Zhang,Y.,Chen,B.,Luan,S.J.,“Exergy as a Unified Measure of Water Quality,”
125.Hubbert,M.K.,
126.Hawken,P.,Lovins,A. B.,Lovins,L. H.,
127.Heyes,A.,“Aproposal for the Greening of Textbook Macro:IS-LM-EE,”
128.Helm,D.,“Taking Natural Capital Seriously,”
129.Hidalgo,C. A.,
130.Hubbert,M.K.,In:Darling,F.F.,Milton,J.P.(Eds.)
131.Jacobs,J.,
132.Ji,Xi,Chen,G.Q.,“Exergy Analysis of Energy Utilization in the Transportation Sector in China,”
133.Jiang,M.M.,Chen,B.,Zhou,J.B.,Tao,F.R.,Li,Z.,Yang,Z.F.,Chen,G.Q.,“Emergy Account for Biomass Resource Exploitation by Agriculture in China,”
134.Jiang,M.M.,Zhou,J.B.,Chen,B. and Chen,G.Q.,“Emergy-Based Ecological Account for the Chinese Economy in 2004,”
135.Jonckheere,I.,Nackaerts,K.,Muys,B.,van Aardt,J.,Coppin,P.,“A Fractal Dimension-Based Modelling Approach for Studying the Effect of Leaf Distribution on LAI Retrieval in Forest Canopies,”
136.J?rgensen,S.E.,“Structural Dynamic Model,”
137.J?rgensen,S.E.,“Use of Models as Experimental Tool to Show that Structural Changes are Accompanied by Increased Exergy,”
138.J?rgensen,S.E.,“Parameters,Ecological Constrains,and Exergy,”
139.J?rgensen,S.E.,“Development of Models Able to Account for Changes in Species Composition,”
140.J?rgensen,S.E.,“Exergy and Ecological Buffer Capacities as Measures of Ecosystem Health,”
141.J?rgensen,S.E.,Nielsen,S.N.,Mejer,H.,“Energy,Environ,Exergy,and Ecological Modelling,”
142.J?rgensen,S.E.,“State-Of-The-Art of Ecological Modelling with Emphasis on Development of Structural Dynamic Models,”
143.J?rgensen,S.E.,“Application of Exergy and Specific Exergy as Ecological Indicators of Coastal Areas,”
144.J?rgensen,S.E.,“The Thermodynamic Concept:Exergy,”
145.J?rgensen,S.E.,Marques,J.,Nielsen,S.N.,“Structural Changes in an Estuary,Described by Models and Using Exergy as Orientor,”
146.J?rgensen,S.E.,Verdonschot,P.,Lek,S.,“Explanation of the Observed Structure of Functional Feeding Groups of Aquatic Macro-Invertebrates by an Ecological Model and the Maximum Exergy Principle,”
147.J?rgensen,S.E.,Ray,S.,Berec,L.,Straskraba,M.,“Improved Calibration of a Eutrophication Model by Use of the Size Variation Due to Succession,”
148.J?rgensen,S.E.,Nielsen,S.N.,“Application of Exergy as Thermodynamic Indicator in Ecology,”
149.J?rgensen,S.E.,“Description of Aquatic Ecosystem’s Development by Eco-Exergy and Exergy Destruction,”
150.J?rgensen,S.E.,“Evolution and Exergy,”
151.Judson,D.H.,“The Convergence of Neo-Ricardian and Embodied Energy Theories of Value and Price,”
152.Kangas,P. Contributions of H.T.,“Odum to Ecosystem Simulation Modeling,”
153.Kitching,R.L.,
154.Koroneos,C.J.,Nanaki,E.A.,“Energy and Exergy Utilization Assessment of the Greek Transport Sector,”
155.Lenzen,M.,Treloar,G.,“Embodied Energy in Buildings:Wood Versus Concrete-Reply to B?rjesson and Gustavsson,”
156.Lei,K.,Wang,Z.,“Municipal Wastes and Their Solar Transformities:An Emergy Synthesis for Macao,”
157.Lei,K.,Wang,Z.,“Emergy Synthesis and Simulation for Macao,”
158.Lei,K.,Wang,Z.,Holistic,S.T.,“Emergy Analysis of Macao,”
159.Levins,R.,“The Strategy of Model Building in Population Biology,”
160.Liu,G.Y.,Yang,Z.F.,Chen,B.,Zhang,Y.,Zhang,L.X.,Zhao,Y.W.,Jiang,M.M.,“Emergy-Based Urban Ecosystem Health Assessment:A Case Study of Baotou,China,”
161.Loehle,C.,“Applying Artificial Intelligence Techniques to Ecological Modeling,”
162.Lomas,P.L.,álvarez,S.,Rodríguez,M.,Montes,C.,“Environmental Accounting as a Management Tool in the Mediterranean Context:The Spanish Economy During the Last 20 Years,”
163.Lotka,A.J.,“Contribution to the Energetic of Evolution,”
164.Lotka,A.J.,“Natural Selection as a Physical Principle,”
165.Lotka,A.J.,
166.Lotka,A.J.,
167.Martinez-Alier,J.,
168.Malchow,H.,“Flow-And Locomotion-Induced Pattern Formation in Nonlinear Population Dynamics,”
169.Marx,K.,
170.Mejer,H.,J?rgensen,S.E.,“Energy and Ecological Buffer Capacity,”
171.Miles,R.E.,
172.Mortimer,N.D.,Grant,J.F.,“Analysis of Energy Use in a Sample of Chinese Villages,”
173.Muller,P.O.,
174.Maddison A. Chinese Economic Performance in the Long Run. OECD,2009,68(100):279-311.
175.Nelson,J.A.,“Economists,Value Judgments,and Climate Change:A View from Feminist Economics,”
176.Nielsen,S.N.,“Strategies for Structural-Dynamic Modeling,”
177.Odum,E. P.,
178.Odum,E.P.,
179.Odum,E.P.,
180.Odum,H.T.,“Ecological Potential and Analogue Circuits for the Ecosystem,”
181.Odum,H.T.,“Biological Circuits and the Marine Systems of Texas,”
182.Odum,H.T.,
183.Odum,H.T.,“An Energy Circuit Language for Ecological and Social Systems:Its Physical Basis,”
184.Odum,H.T.,“An Energy Circuit Language for Ecological and Social Systems”,
185.Odum,H.T.,
186.Odum,H.T.,
187.Odum,H.T.,“Self Organization,Transformity,and Information,”
188.Odum,H.T.,Odum,E.C.,
189.Odum,H.T.,“Simulation Models of Ecological Economics Developed with Energy Language Methods,”
190.Odum,H.T.,“Self-Organization and Maximum Empower,”
191.Odum,H.T.,
192.Odum,H.T.,Odum,E.C.,
193.Odum,H.T.,Odum,E.C.,
194.Osho,J.S.A.,“Modelling the Tree Population Dynamics of the Most Abundant Species in a Nigerian Tropical Rain Forest,”
195.Pearl,R.,Reed,L.J.,“On the Rate of Growth of the Population of the United States Since 1790 and Its Mathematical Representation,”
196.Prigogine,I.,
197.Ptasinski,K.J.,Koymans,M.N.,Verspagen,H.H.G.,“Performance of the Dutch Energy Sector Based on Energy,Exergy,and Extended Exergy Accounting,”
198.Pulselli,R.M.,Simoncini,E.,Ridolfi,R.,Bastianoni,S.,“Specific Emergy of Cement and Concrete:An Energy-Based Appraisal of Building Materials and their Transport,”
199.Pulselli,R.M.,Pulselli,F.M.,Rustici,M.,“Emergy Accounting of the Province of Siena:Towards a Thermodynamic Geography for Regional Studies,”
200.Reistad,G.M.,“Available Energy Conversion and Utilization in the United States,”
201.Reister,D.B.,“The Energy Embodied in Goods,”
202.Richards,B.N.,
203.Richardson,J.R.,Odum,H.T.,“Power and A Pulsing Production Model,”
204.Rivot,E.,Prévost,E.,Parent,E.,Baglinière,J.L.,“A Bayesian State-Space Modelling Framework for Fitting a Salmon Stage-Structured Population Dynamic Model to Multiple Time Series of Field Data,”
205.Rosen,M.A.,“Evaluation of Energy Utilization Efficiency in Canada Using Energy and Exergy Analyses,”
206.Rosen,M.A.,Dincer,I.,“Sectoral Energy and Exergy Modeling of Turkey,”
207.Rosen,M.A.,Dincer,I.,“On Exergy and Environmental Impact,”
208.Rosen,M.A.,Dincer,I.,“Exergy Analysis of Waste Emissions,”
209.Rosen,M.A.,Dincer,I.,“Exergy as the Conuence of Energy,Environment,and Sustainable Development,”
210.Rosen,M.A.,Dincer,I.,“Exergy-Cost-Energy-Mass Analysis of Thermal Systems and Processes,”
211.Rusk,D.,
212.R?pke,I.,“The Early History of Modern Ecological Economics,”
213.R?pke,I.,“Trends in the Development of Ecological Economics from the Late 1980s to the Early 2000s,”
214.Saidur,R.,Sattar,M.A.,Masjuki,H.H.,Ahmed,S.,Hashim,U.,“An Estimation of the Energy and Exergy Efficiencies for the Energy Resources Consumption in the Transportation Sector in Malaysia,”
215.Schulz,T.F.,Kypreos,S.,Barreto,L.,Wokaun,A.,“Intermediate Steps towards the 2000 W Society in Switzerland:An Energy-Economic Scenario Analysis,”
216.Sciubba,E.,
217.Sciubba,E.,“Extended Exergy Accounting Applied to Energy Recovery from Waste:The Concept of Total Recycling,”
218.Sciubba,E.,Bastianoni S.,Tiezzi,E.,“Exergy and Extended Exergy Accounting of Very Large Complex Systems with an Application to the Province of Siena,Italy,”
219.Soddy,F.,
220.Soddy,F.,
221.Soddy,F.,
222.Soddy,F.,
223.Stapleton,L.M.,Young,S.D.,Crout,N.M.J.,“Have Missing Markets for Ecological Goods and Services Affected Modelling of Terrestrial C and N Fluxes?”
224.Swartzman,G.,Rose,K.A.,“Simulating the Biological Effects of Toxicants in Aquatic Microcosm Systems,”
225.Susani,L.,Pulselli,F.M.,J?rgensen,S.E.,Bastianoni,S.,“Comparison Between Technological and Ecological Exergy,”
226.Sundberg,U.,Lindegren,J.,Odum,H.T.,Doherty,S.,
227.Suzuki,M.,Goto N.,Sakoda,A.,“Simplified Dynamic Model on Carbon Exchange Between Atmosphere and Terrestrial Ecosystems,”
228.Szargut,J.T.,“Minimization of the Consumption of Natural Resources,”
229.Szargut,J.T.,“Application of Exergy for the Determination of Ecological Costs,”
230.Szargut,J.T.,Morris,D.R.,Stewart,F.R.,
231.Szargut,J.T.,Ziebik,A.,Stanek,W.,“Depletion of the Non-Renewable Natural Exergy Resources as a Measure of the Ecological Cost,”
232.Szargut,J.T.,“Anthropogenic and Natural Exergy Losses:Exergy Balance of the Earth’s Surface and Atmosphere,”
233.Spash,C.L.,“The Shallow or the Deep Ecological Economics,”
234.Tan,S.S.,Smeins,F.E.,“Predicting Grassland Community Changes with an Artificial Neural Network Model,”
235.Thormark,C.,“A Low Energy Building in a Life Cycle-Its Embodied Energy,Energy Need for Operation and Recycling Potential,”
236.Tijani,A.S.,Witt,W.,Dietzsch,L.,“Process and Plant Improvement Using Extended Exergy Analysis-A Case Study,”
237.Tilley,D.R.,Brown,M.T.,“Dynamic Emergy Accounting for Assessing the Environmental Benefits of Subtropical Wetland Stormwater Management Systems,”
238.Troy,P.,Holloway,D.,Pullen,S.,Bunker,R.,“Embodied and Operational Energy Consumption in the City,”
239.Turner,F.,
240.Ulgiati,S.,Odum,H.T.,Bastianoni,S.,“Emergy Use,Environmental Loading and Sustainability:An Emergy Analysis of Italy,”
241.Ulgiati,S.,Brown,M.T.,Bastianoni,S.,Marchettini,N.,“Emergy-Based Indices and Ratios to Evaluate the Sustainable Use of Resources,”
242.Ulgiati,S.,Brown,M.T.,“Monitoring Patterns of Sustainability in Natural and Man-Made Ecosystems,”
243.Ulgiati,S.,Brown,M.T.,“Emergy and Ecosystem Complexity,”
244.Ulgiati,S.,Bargigli,S.,Raugei,M.,“An Emergy Evaluation of Complexity,Information and Technology,towards Maximum Power and Zero Emissions,”
245.Utlu,Z.,Hepbasli,A.,“A Review and Assessment of the Energy Utilization Efficiency in the Turkish Industrial Sector Using Energy and Exergy Analysis Method,”
246.Utlu,Z.,Hepbasli,A.,“Parametrical Investigation of the Effect of Dead,(Reference)State on Energy and Exergy Utilization Efficiencies of Residential-Commercial Sectors:A Review and an Application,”
247.Vitousek,P.M.,Paul R.E.,Anne,H.E.,Pamela,A.M.,“Human Appropriation of the Products of Photosynthesis,”
248.Voinov,A.A.,Akhremenkov,A.A.,“Simulation Modeling System for Aquatic Bodies,”
249.Volterra,V.,“Fluctuations in the Abundance of a Species Considered Mathematically,”
250.Wall,G.,“Exergy:A Useful Concept within Resource Accounting,”
251.Wall,G.,“Exergy Conversion in the Swedish Society,”
252.Wall,G.,“Exergy Conversion in the Japanese Society,”
253.Wall,G.,Sciubba,E.,Naso,V.,“Exergy Use in the Italian Society,”
254.Wall G.,
255.Wall,G.,“Exergy Analysis of the Norwegian Society,”
256.Wall,G.,Gong,M.,“On Exergy and Sustainable Development-Part 1:Conditions and Concepts,”
257.Warren,P.,“The Use of Systematic Reviews to Analyse Demand-side Management Policy,”
258.Wilson,M.A.,Hoehn,J.P.,“Valuing Environmental Goods and Services Using Benefit Transfer:The State-Of-The Art and Science,”
259.Worldbank. 2015,available at http://data.worldbank.org.cn/.
260.Worldbank. 2016,available at http://data.worldbank.org.cn/.
261.Xu,F.L.,“Exergy and Structural Exergy as Ecological Indicators for the Development State of the Lake Chaohu Ecosystem,”
262.Xu,F.L.,J?rgensen,S.E.,Tao,S.,“Ecological Indicators for Assessing Freshwater Ecosystem Health,”
263.Xu,F.L.,Tao,S.,Dawson,R.W.,Li,P.G.,Cao,J.,“Lake Ecosystem Health Assessment:Indicators and Methods,”
264.Xu,F.L.,Dawson,R.W.,Tao,S.,Li,B.G.,Cao,J.,“System-Level Responses of Lake Ecosystems to Chemical Stresses Using Exergy and Structural Exergy as Ecological Indicators,”
265.Xu,F.L.,Lam,K.C.,Zhao,Z.Y.,Zhan,W.,Chen,Y.D.,Tao,S.,“Marine Coastal Ecosystem Health Assessment:A Case Study of the Tolo Harbour,Hong Kong,China,”
266.Yang,Q.,Chen,B.,Ji,Xi,He,Y. F.,Chen,G.Q.,“Exergetic Evaluation of Corn-Ethanol Production in China,”
267.Yohanis,Y.G.,Norton,B.,“Life-Cycle Operational and Embodied Energy for a Generic Single-Storey Office Building in the UK,”
268.Yuan,X.H.,Ji,Xi,Chen,H.,Chen,B.,Chen,G.Q.,“Urban Dynamics and Multiple-Objective Programming:A Case Study of Beijing,”
269.Zaleta-Aguilar A.,Ranz,L.,Valerro,A.,“Towards a Unified Measure of Renewable Resources Availability:The Exergy Method Applied to the Water of a River,”
270.Zhang,L.X.,Yang,Z.F.,Chen,G.Q.,“Emergy Analysis of Cropping-Grazing System in Inner Mongolia Autonomous Region,China,”
271.Zhou,J.B.,Jiang,M.M.,Chen,B.,Chen,G.Q.,“Emergy Evaluations for Constructed Wetland and Conventional Wastewater Treatments,”
272.Zucchetto,J.,“Energy-Economic Theory and Mathematical Models for Combing the Systems of Man and Nature,Case Study:The Urban Region of Miami,Florida,”