Waste input output analysis: Concepts and application to industrial ecology
Gespeichert in:
| Hauptverfasser: | , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
[Dordrecht]
Springer
2009
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| Schriftenreihe: | Eco-efficiency in industry and science
26 |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVII, 294 S. Ill., graph. Darst. |
| ISBN: | 9781402099014 |
Internformat
MARC
| LEADER | 00000nam a2200000 cb4500 | ||
|---|---|---|---|
| 001 | BV024624855 | ||
| 003 | DE-604 | ||
| 005 | 20090910 | ||
| 007 | t | ||
| 008 | 090924s2009 ad|| |||| 00||| eng d | ||
| 015 | |a 09N060932 |2 dnb | ||
| 020 | |a 9781402099014 |9 978-1-402-09901-4 | ||
| 035 | |a (OCoLC)633889079 | ||
| 035 | |a (DE-599)DNB992148065 | ||
| 040 | |a DE-604 |b ger |e rakwb | ||
| 041 | 0 | |a eng | |
| 049 | |a DE-83 | ||
| 084 | |a QT 200 |0 (DE-625)142106: |2 rvk | ||
| 100 | 1 | |a Nakamura, Shinichirō |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Waste input output analysis |b Concepts and application to industrial ecology |c Shinichiro Nakamura ; Yasushi Kondo |
| 246 | 1 | |a Waste input-output analysis | |
| 264 | 1 | |a [Dordrecht] |b Springer |c 2009 | |
| 300 | |a XVII, 294 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Eco-efficiency in industry and science |v 26 | |
| 700 | 1 | |a Kondo, Yasushi |e Verfasser |4 aut | |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-1-4020-9902-1 |
| 830 | 0 | |a Eco-efficiency in industry and science |v 26 |w (DE-604)BV012954654 |9 26 | |
| 856 | 4 | 2 | |m HBZ Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018596628&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-018596628 | ||
Datensatz im Suchindex
| _version_ | 1804140646726893568 |
|---|---|
| adam_text | Titel: Waste input-output analysis
Autor: Nakamura, Shinichiro
Jahr: 2009
Contents
Preface............................................................ v
List of Figures ..................................................... xi
List of Tables ...................................................... xv
1 Introduction................................................... 1
1.1 The Aim of the Book....................................... 1
1.2 Outline of the Book s Content................................ 2
1.3 Putting IOA in Practice by Excel.............................. 5
References..................................................... 5
Part I Input-Output Analysis
2 Basics of Input-Output Analysis................................. 9
2.1 The One-Sector Model...................................... 9
2.1.1 Input and Output in a Productive Economy............... 9
2.1.2 The Leontief Quantity Model.......................... 17
2.1.3 Production, Income, and Consumption: The Input-Output
Table .............................................. 21
2.1.4 Cost and Price: The Price Model ....................... 25
2.2 The Two-Sector Model...................................... 27
2.2.1 Production Processes................................. 27
2.2.2 The Leontief Quantity Model.......................... 30
2.2.3 The Price Model..................................... 36
2.2.4 The IO Table........................................ 38
2.3 The n Sectors Model........................................ 46
2.3.1 Matrix Notations..................................... 46
2.3.2 Inversion of a Matrix and the Quantity Model ............ 49
2.3.3 Exogenous Inputs and Waste Generalion................. 52
2.3.4 Cost and Price....................................... 53
2.3.5 Structural Decomposition Analysis..................... 55
2.3.6 IOA for the Case of n 2............................. 58
Vll
Contents
2.4 Exercise with Excel......................................... 60
2.4.1 Basic Analysis ...................................... 60
2.4.2 Consolidating of Sectors.............................. 67
References..................................................... 72
Extensions of IOA.............................................. 73
3.1 Regional Extensions........................................ 73
3.1.1 A Two-Region Open Model........................... 74
3.1.2 A Two-Region Closed Model.......................... 78
3.1.3 A Three-Region Model: An Open Model................ 81
3.1.4 International IO Tables ............................... 83
3.2 By-Product................................................ 90
3.2.1 Defining By-Product and Waste........................ 90
3.2.2 The Leontief Quantity Model with By-Product ........... 91
3.2.3 A Numerical Example................................ 93
3.2.4 Implications for Positivity Conditions................... 94
3.3 The Model Based on Use and Make Matrices................... 94
3.3.1 U and V Matrices, and Related Identities ................ 94
3.3.2 Industry-Based Technology............................ 95
3.3.3 Commodity-Based Technology......................... 96
3.3.4 The Relationship Between A and A..................... 96
3.4 Extension Towards a Closed Model ........................... 97
3.4.1 Integrating Consumption.............................. 97
3.4.2 The Dynamic Model: Closing the IO Model with Regard
to Capital Formation ................................. 98
3.4.3 A Fully Closed Model................................104
3.5 Extension to the System with Inequalities......................105
3.5.1 Limited Supply of Exogenous Inputs....................105
3.5.2 Issues of Substitution: Programming Model..............108
3.6 The Supply-Side Input-Output Model of Ghosh ...............109
3.7 The Fundamental Structure of Production......................110
3.7.1 Identifying the Fundamental Structure of Production.......Ill
3.7.2 Application to the Japanese IO Table....................112
3.8 Exercise with Excel.........................................114
3.8.1 Accounting for Competitive Imports....................114
3.8.2 The Upper Bounds of Final Demand When the Supply
of Exogenous Inputs Is Limited........................118
3.8.3 The Choice of Technology............................ 120
References.....................................................124
Microeconomic Foundations.....................................127
4.1 Introduction...............................................127
4.2 Representation of Technology................................128
4.2.1 Technology and Production Function....................128
4.2.2 Cost and Input Demand Functions......................131
4.2.3 Duality Between Cost and Production Functions..........134
Contents jx
4.3 Specification of Technology..................................135
4.3.1 Top-Down and Bottom-Up Approaches..................135
4.3.2 The Elasticity of Substitution Between Inputs ............136
4.3.3 CES Functions......................................137
4.3.4 Flexible Functional Forms.............................140
4.3.5 Tree Structure of Technology: Separability...............143
4.4 Technology in the Leontief IO Model..........................146
4.4.1 Characteristics of Technology in IOA...................146
4.4.2 Substitution Theorems................................] 47
4.4.3 Supply and Demand Curves in IOA.....................149
4.4.4 IOA: Bottom-Up or Top-Down?........................151
References.....................................................151
Part II Waste Input-Output Analysis
5 Basics of WIO.................................................155
5.1 Environmental IO (EIO).....................................155
5.1.1 Linking the Economy and the Environment in IOA........156
5.1.2 Energy Analysis.....................................161
5.1.3 Emission IO Model ..................................162
5.2 The IO Models of Pollution Abatement and Their Relevance
to Waste Management.......................................165
5.2.1 The Leontief Model of Pollution Abatement..............166
5.2.2 Further Extensions of the Leontief EIO Model............171
5.2.3 IO Tables with Waste and Waste Management............175
5.3 Waste IO: Concepts and Modeling............................180
5.3.1 The Leontief-Duchin EIO and the Dutch NAMEA........180
5.3.2 The Waste IO.......................................183
References.....................................................197
6 WIO Analysis .................................................201
6.1 WIO Tables and Analysis: Empirical Examples .................201
6.1.1 WIO for a City in Hokkaido, Japan.....................202
6.1.2 WIO Tables for Japan ................................208
6.2 The Dynamic Nature of Waste Treatment Processes..............228
6.2.1 A System Engineering Representation
of the Incineration Process ............................230
6.2.2 Implications for WIO.................................231
6.2.3 Effects of Changing the Allocation Pattern of Waste
to Treatment Processes ...............................234
6.3 The WIO Cost/Price Model..................................236
6.3.1 The WIO Price Model with Waste Treatment.............236
6.3.2 The WIO Price Model with Waste Treatment
and Recycling.......................................237
6.3.3 Numerical Example..................................244
References.....................................................248
x Contents
7 Application of WIO to Industrial Ecology.........................249
7.1 Introduction...............................................249
7.2 The Full Life Cycle WIO Model: Closing the Loop of The Product
Life Cycle.................................................250
7.2.1 The Use (and Discard) Process.........................251
7.2.2 Incorporating the Use (and Discard) Phase...............252
7.2.3 LCC: The Cost and Price Model........................255
7.2.4 Numerical Examples.................................258
7.2.5 Applications to LCA and LCC.........................264
7.3 Application of WIO to MFA.................................268
7.3.1 Two Major Methods of MFA ..........................268
7.3.2 WIO-MFA: Methodology.............................269
7.3.3 Application of WIO-MFA to Metals ....................273
7.4 Regional WIO Models......................................277
7.4.1 Interregional WIO Model .............................278
7.4.2 Regional WIO Table for Tokyo.........................282
7.5 The Choice of Technology: WIO-LP..........................282
7.5.1 Waste Input-Output Linear Programming Model..........283
7.5.2 Making Allocation Matrices Variable ...................284
7.5.3 Application to the Case Involving Alternative Waste
Recycling and Treatment Technologies..................285
7.6 Other Applications of WIO..................................286
References.....................................................287
Index.............................................................291
List of Figures
1.1 The Structure of the Book: The Interdependence of Sections. The
Large Arrows Connecting the Boxes Referring to Chapters Indicate
the Logical Connections. The Arrows in Broken Lines Refer to
Individual Items in the Respective Chapters on Which the Subjects
Being Pointed to Are Based................................... 2
2.1 The Black Box Representation of a Production Process with Three
Inputs and Two Outputs: The Circles Refers to Inputs and Outputs,
While the Box Refers to a Process. The Arrow Indicates the
Direction of the Relevant Flow................................. 10
2.2 The Production Process of Rice. A Part of Production Waste
Reenters the Process as an Ingredient of Compost................. 11
2.3 Process Representation of Household Consumption............... 11
2.4 The System with Rice Production and Household Consumption.
The Area Circled by the Broken Line Refers to the System
Boundary. The Flows Generated Inside the Boundary are
Endogenous Flows, and the Remaining Flows are Exogenous....... 12
2.5 The Flow of Inputs and Outputs of an Economy with Two
Producing Sectors, Rice and Fish Production. The Flow of Output
of a Process Is Indicated by an Arrow Leaving the Box Referring to
the Process, Whereas the Flow of Input into a Process Is Indicated
by an Arrow Entering the Relevant Box. Rice Is Used in Fish
Production as Feed, While Fish Is Used in Rice Production as
Fertilizer. .................................................. 29
3.1 Decomposing the Imports to Their Final Demand Origins. The _d s
and _i s Attached to Each Final Demand Category (see Table 3.1
for the Notations) Respectively Refer to the Direct Effects and
Indirect Effects. The Changes in the Stock Were Omitted Because
of Their Small Sizes.......................................... 78
List of Figures
3.2 Basic Patterns of the IO Matrix. The Square at the Northeast
Corner Refers to a Zero Matrix, (a) Block Decomposability, (b)
Block Independence, (c) Block Decomposability and Triangularity,
(d) Block Independence and Triangularity. Modified from Figure 1
in [26].....................................................Ill
3.3 The A Matrix in a Triangulated Form: The Elements Smaller Than
1/104 = 0.096 Set Equal to 0..................................113
3.4 The A Matrix in Original Form: The Elements Smaller Than 1/104
Set Equal to 0...............................................113
4.1 The Set of Technical Possibilities, and the Isoquant: the Case of an
Infinite Number of Processes. The Shaded Area Represents all the
Possible Combinations of z and zi to Produce y, That Is, V(y) in
(4.7). The Southwest Frontier of the Combinations Represents the
Set of Most Efficient Combinations, the Isoquant Curve............130
4.2 The Set of Technical Possibility, V(y), and the Isoquant: The Case
of a Finite Number of Processes................................130
4.3 Isoquants for Homothetic Production Function...................133
4.4 Isoquants for Nonhomothetic Production Function................133
4.5 Isoquant Curves Corresponding to Different Degree of Substitution. . 137
4.6 A Tree Structure of Technology................................145
4.7 The Tree Structure of the AIM Model. The Numbers in the Boxes
with Broken Lines Indicate the Values of Elasticity of Substitution.
Source: Own Drawing After Figure 2 in [17].....................146
4.8 The Isoquant Curve of the Production Function Underlying IOA. ... 147
4.9 The Supply and Demand Curves in IOA. The Supply Curve Does
Not Depend on the Level of Output Because of Constant Returns
to Scale. The Demand Curve Does Not Depend on Any Price,
Because of the Absence of Substitution Among Inputs and of the
Fact That the Final Demand Is Exogenous.......................151
5.1 The Economy and the Ecosystem: The Former is an Open
Subsystem of the Latter.......................................156
5.2 A Schematic Representation of the Food Web in the Form of an IO
Table: The Color Density Shows the Relative Size of Values. See
[22], for Numerical Examples of the Marine Food Web............158
5.3 The Distribution Among Waste Treatment Options: Countries
Where Landfill Is the Major Treatment Option....................195
5.4 The Distribution Among Waste Treatment Options: Countries
Where Incineration Is the Major Treatment Option................196
6.1 The Final Product Origin of Waste for Treatment. See Table 6.20
for the notations.............................................223
6.2 The Waste Footprint of Selected Products. See Table 6.20 for the
notations...................................................225
List of Figures xiii
6.3 Tracing the Origin of Waste to Final Demand Categories. See Table
6.20 for the notations.........................................227
6.4 The Flow Diagram of a Waste Incineration Process................228
6.5 Solving the WIO Model Integrating a System Engineering Model
of Waste Management in an Iterative Fashion.....................233
6.6 Effects of the Shift of Allocation Patterns from 50 to Si. The Upper
Bar Indicates the Case Where the Changes in the Input-Output
Coefficients That Result from a Change in the Allocation Matrix
Are Taken into Account by Using an Engineering Submodel of
Waste Treatment. The Lower Bar Indicates the Case Where These
Changes Are Not Considered, and the Same Set of Input-Output
Coefficients Is Used When There Is a Change in the Allocation
Matrix.....................................................235
6.7 Changes in Prices of Steel Products and Scrap: Index (January
2001 = 1) of the Average Price at the Tokyo Market. Source:
Nippon Keizai Shimbun Inc. Main Market Price and Iron Scrap ,
Steel Newspaper Inc. Steel Newspaper , The Japan Iron and Steel
Federation, Steel Supply and Demand Statistics Monthly Report .
H2 Refers to a Grade of Iron Scrap in Japan......................238
6.8 Changes in the Price of Demolition Scrap: Index (2001 = 100)
Calculated on the Basis of the Average Price in Euros for
France, Germany, Italy, Spain, and the UK. Source: European
Confederation of Iron and Steel Industries.......................239
7.1 Price and Energy Efficiency of Air Conditioners: 2.5 kW Models,
2002 Winter, Japan. Source [27]................................266
7.2 Cost and Environmental Load of Different Air Conditioners Types:
Relative Values with the Levels of Cost, Landfilling, and GWP
(GWP100 in CO2 eq) Set Unity for the Average Model (Discount
Rate = 0). Source [27]........................................266
7.3 The Flows of Inputs and the Input Composition of a Product........270
7.4 Material Composition of the Metal Products that Constitute One
Million Yen of a Passenger Car.................................276
7.5 Material Compositions of Metal Products that Constitute Engines
Per Million Yen of a Passenger Car.............................277
7.6 Nine Regions of Japan. Source: Geographical Survey Institute (GSI). 281
7.7 The Effects of Household Consumption in the Kanto Region on the
Level of Waste Incineration in the Chugoku and Shikoku Regions.
Kanto: Foods Refers to the Amount of Waste Incineration in
Chugoku and Shikoku that was Induced by the Final Demand for
Foods Produced in Kanto, While Chugoku: Foods Refers to the
Amount of Waste Incineration in Chugoku and Shikoku that was
Induced by the Final Demand of Kanto for Foods Produced in
Chugoku. Source [15]........................................281
List of Tables
2.1 An Example of Rice Production Process......................... 14
2.2 A Numerical Example of Unit Process for Rice Production......... 16
2.3 The IO Table of an Economy with One Production Sector.......... 24
2.4 An Example of Extended IO Table with Environmental Flows....... 25
2.5 A Numerical Example of Unit Processes for Rice and Fish
Production.................................................. 29
2.6 The IO Table of an Economy with Two Production Sectors in Value
Units...................................................... 39
2.7 An Extended IO Table with Physical Flows for the Case of Two
Production Sectors........................................... 40
2.8 IO Table with User Specific Price of Inputs...................... 43
2.9 Monetary IO Table with a Direct Representation of Trade and
Transport................................................... 45
2.10 Monetary IO Table with an Indirect Representation of Trade and
Transport: Purchasers Prices.................................. 45
2.11 Monetary IO Table with an Indirect Representation of Trade and
Transport: Producers Prices................................... 45
2.12 Japanese IO Table for 2000 at Producers and Purchasers Prices. ... 55
2.13 Basic Equations of IOA in Terms of Scalars and Matrices.......... 59
2.14 Number of Employed Persons................................. 66
2.15 The Classification of Row Sectors.............................. 67
2.15 (continued)................................................. 68
2.16 The Classification of Column Sectors........................... 68
3.1 Japanese IO Table for Year 2000: An IO Table of Competitive
Imports Type................................................ 77
3.2 The Share of Competitive Imports in Total Domestic Demands: fi. .. 78
3.3 The 2000 Japan-U.S. Input-Output Table: Isard Type.............. 85
3.4 The 2000 Japan-U.S. Matrix of Leontief Inverse Coefficients....... 86
3.5 The 2000 Japan-U.S. Input-Output Table: Chenery-Moses Type. ... 88
3.6 Estimates of nah for the US-Japan IO Table...................... 89
xvi List of Tables
3.7 The Capital (Investment) Matrix for Japan, 2000..................100
3.8 An Example of (/-(A + C)) 1 Matrix..........................103
3.9 The Order of Metal Related Sectors in Figure 3.3.................114
5.1 An Input-Output Representation of the Interaction Between
Economy and Environment by Daly [4].........................157
5.2 A Simplified Version of the Daly Diagram with the Quadrant 8
Excluded...................................................161
5.3 A Matrix of Unit Processes with Pollution Abatement.............166
5.4 The Leontief EIO Table with No Pollution Abatement.............167
5.5 The Leontief EIO Table with Pollution Abatement: 50% Reduction
of Emission into the Environment..............................168
5.6 The Leontief EIO Table with Pollution Abatement: 100%
Reduction of Emission into the Environment.....................168
5.7 The A and R Matrices of EIO with Multiple Pollutants.............170
5.8 The Input-Output Coefficients Matrix of the Duchin Model.........172
5.9 The Input-Output Coefficients Matrix of the Duchin Model Made
Square by Introducing a Column Referring to Dumping............173
5.10 A Prototype of Dutch NAMEA................................177
5.11 A Schematic Representation of Waste Flows in German PIOT.......179
5.12 An Input-Output Account with Waste Flow (I): the Case of
One-to-One Correspondence Between Waste and Treatment........180
5.13 An Input-Output Account with Waste Flow (II): the Case of
One-to-One Correspondence Between Waste and Treatment with
Net Waste Generation........................................181
5.14 Unit Processes with Waste Generation and Final Demand..........183
5.15 Unit Processes with Waste Generation and Final Demand with
Landfill....................................................183
5.16 Unit Processes with Waste Generation and Final Demand with
Landfill....................................................184
5.17 Unit Processes with Waste Generation and Final Demand with
Landfill and Incineration......................................185
6.1 A WIO Representation of the Flow of Goods Waste in City F.......203
6.2 The Allocation Matrix 5 for the Waste Flow in Table 6.1...........204
6.3 The Squared WIO Table of City F..............................205
6.4 The Squared Matrix of WIO Input Coefficients: City F.............206
6.5 The Matrix of Leontief WIO Inverse Coefficients: City F...........206
6.6 Attributing Production and Treatment to Final Demand Category:
City F......................................................207
6.7 Net Generation of Waste Per Unit of Product/Treatment for Final
Delivery: Z.................................................208
6.8 Attributing Waste Generation to Final Demand Categories..........208
6.9 Waste Items in WIO 1990.....................................209
6.10 Waste Classification in WIO 2000..............................210
List of Tables xvii
6.11 WIO Table for Japan, 2000: The Flow of Goods Services........212
6.12 WIO Table for Japan, 2000: The Flow of Waste...................213
6.13 The Share of Imports in the Domestic Use of Waste, jiH............215
6.14 Examples of the Allocation Matrix.............................216
6.15 The Flow of Waste Converted to the Flow of Treatment by the
Allocation Matrix S..........................................218
6.16 Allocation of Waste to Treatment Under Alternative Allocation
Matrices....................................................219
6.17 The Matrix of Squared Input/Generation Coefficients Under So......221
6.18 The WIO Inverse Matrix Under So..............................222
6.19 Generation of Waste Attributed to Final Demand Categories Under So- 224
6.20 The Net Generation of Waste Per Unit of Product/Treatment for
Final Delivery: The Matrix E Under So..........................226
6.21 Heat Value and Chemical Composition of Municipal Solid Waste.... 229
6.22 The Major Inputs/Output Coefficients of the Incineration Sector
Under Different Sorting Patterns...............................235
6.23 A Numerical Example for the WlO-Price Model..................245
7.1 A Numerical Example for WIO-LCA: Unit Processes..............258
7.2 Data for the Washing Machine Example.........................267
7.3 An Example of the Material Composition Matrix Cmp for Selected
Products....................................................275
7.4 The Metal Composition of a Passenger Car. .....................276
7.5 The Basic Structure of the Interregional WIO Table for Tokyo by
Tsukui.....................................................282
7.6 A Schematic form of Automobile Recycling IO Table [6]..........287
|
| any_adam_object | 1 |
| author | Nakamura, Shinichirō Kondo, Yasushi |
| author_facet | Nakamura, Shinichirō Kondo, Yasushi |
| author_role | aut aut |
| author_sort | Nakamura, Shinichirō |
| author_variant | s n sn y k yk |
| building | Verbundindex |
| bvnumber | BV024624855 |
| classification_rvk | QT 200 |
| ctrlnum | (OCoLC)633889079 (DE-599)DNB992148065 |
| discipline | Wirtschaftswissenschaften |
| format | Book |
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| id | DE-604.BV024624855 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:03:17Z |
| institution | BVB |
| isbn | 9781402099014 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018596628 |
| oclc_num | 633889079 |
| open_access_boolean | |
| owner | DE-83 |
| owner_facet | DE-83 |
| physical | XVII, 294 S. Ill., graph. Darst. |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Springer |
| record_format | marc |
| series | Eco-efficiency in industry and science |
| series2 | Eco-efficiency in industry and science |
| spelling | Nakamura, Shinichirō Verfasser aut Waste input output analysis Concepts and application to industrial ecology Shinichiro Nakamura ; Yasushi Kondo Waste input-output analysis [Dordrecht] Springer 2009 XVII, 294 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Eco-efficiency in industry and science 26 Kondo, Yasushi Verfasser aut Erscheint auch als Online-Ausgabe 978-1-4020-9902-1 Eco-efficiency in industry and science 26 (DE-604)BV012954654 26 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018596628&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Nakamura, Shinichirō Kondo, Yasushi Waste input output analysis Concepts and application to industrial ecology Eco-efficiency in industry and science |
| title | Waste input output analysis Concepts and application to industrial ecology |
| title_alt | Waste input-output analysis |
| title_auth | Waste input output analysis Concepts and application to industrial ecology |
| title_exact_search | Waste input output analysis Concepts and application to industrial ecology |
| title_full | Waste input output analysis Concepts and application to industrial ecology Shinichiro Nakamura ; Yasushi Kondo |
| title_fullStr | Waste input output analysis Concepts and application to industrial ecology Shinichiro Nakamura ; Yasushi Kondo |
| title_full_unstemmed | Waste input output analysis Concepts and application to industrial ecology Shinichiro Nakamura ; Yasushi Kondo |
| title_short | Waste input output analysis |
| title_sort | waste input output analysis concepts and application to industrial ecology |
| title_sub | Concepts and application to industrial ecology |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018596628&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV012954654 |
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