System boundary selection in life-cycle inventories using hybrid approaches.
about
Challenge clusters facing LCA in environmental decision-making-what we can learn from biofuelsGlobal impacts of energy demand on the freshwater resources of nationsLife cycle assessment of aquaculture systems-a review of methodologiesComparative evaluation of biomass power generation systems in China using hybrid life cycle inventory analysisLife Cycle Greenhouse Gas Emissions of Nuclear Electricity GenerationLife Cycle Greenhouse Gas Emissions of Utility-Scale Wind PowerEstimates of embodied global energy and air-emission intensities of Japanese products for building a Japanese input-output life cycle assessment database with a global system boundary.Overconsumption of Energy and Excessive Discretionary Food Intake Inflates Dietary Greenhouse Gas Emissions in Australia.Greenhouse gas emissions and the Australian diet--comparing dietary recommendations with average intakesHybrid life-cycle assessment (LCA) of CO2 emission with management alternatives for household food wastes in Japan.Chemo-Enzymatic Epoxidation of Lallemantia IbericaSeed Oil: Process Development and Economic-Ecological Evaluation.Modeling of yield and environmental impact categories in tea processing units based on artificial neural networks.Total environmental impacts of biofuels from corn stover using a hybrid life cycle assessment model combining process life cycle assessment and economic input-output life cycle assessment.Consumption-based Material Flow AccountingUsing embodied HANPP to analyze teleconnections in the global land system: Conceptual considerationsIntegrating Air Pollution, Climate Change, and Economics in a Risk-Based Life-Cycle Analysis: A Case Study of Residential InsulationGreening Growing GiantsInteroperability between ecoinvent ver. 3 and US LCI database: a case studyThe Role of Scale and Technology Maturity in Life Cycle Assessment of Emerging Technologies: A Case Study on Carbon NanotubesIdentifying environmentally important supply chain clusters in the automobile industryThe Importance of Normalization References in Interpreting Life Cycle Assessment ResultsFramework for hybrid life cycle inventory databases: a case study on the Building for Environmental and Economic Sustainability (BEES) databaseCOMPARISON OF BOTTOM-UP AND TOP-DOWN APPROACHES TO CALCULATING THE WATER FOOTPRINTS OF NATIONSGeneralized Make and Use Framework for Allocation in Life Cycle AssessmentIMPROVING THE COMPLETENESS OF PRODUCT CARBON FOOTPRINTS USING A GLOBAL LINK INPUT–OUTPUT MODEL: THE CASE OF JAPANDeveloping a sectoral environmental database for input–output analysis: the comprehensive environmental data archive of the USIndustrial ecology and input-output economics: an introductionThree Strategies to Overcome the Limitations of Life-Cycle AssessmentA flexible adaptation of the WIOD database in a virtual laboratoryThe Global MRIO Lab – charting the world economyGlobal Supply Chains of ColtanStructural Change and the EnvironmentTriple bottom line study of a lignocellulosic biofuel industryError propagation methods for LCA—a comparisonA disaggregated emissions inventory for Taiwan with uses in hybrid input-output life cycle analysis (IO-LCA)THE INS AND OUTS OF WATER USE – A REVIEW OF MULTI-REGION INPUT–OUTPUT ANALYSIS AND WATER FOOTPRINTS FOR REGIONAL SUSTAINABILITY ANALYSIS AND POLICYCompanies on the ScaleA consistent input–output formulation of shared producer and consumer responsibilityTransport Energy Embodied in Consumer Goods: A Hybrid Life-Cycle AnalysisIntegrating an ICT carbon calculator tool into procurement processes at De Montfort University: lessons learned
P2860
Q26865559-76282709-697A-4BE7-B4CC-245C8CFB74CDQ28606599-ECB57685-97B3-4F7F-B77F-20370D17CEFBQ28645858-8577D43C-72E8-4C64-AF62-CB71A225BB9CQ28654290-9DDD21E9-8ACF-4510-A8FD-C5FCDA941034Q29306809-AFA4BFAA-944D-4902-9E33-AAA2C6446367Q29543837-D896AB02-CABB-410C-8527-9D966C615707Q36180884-18D2EC1E-F4A2-4487-89BE-1E64FE05A3B0Q37463225-E9B5C931-53C2-4820-89AD-A3EB94CD3C0CQ37564696-6CB412C3-CD99-4F26-AA79-E3DAE039A909Q43311941-96E9D197-F980-49A4-B87F-C3E3ABA9392EQ47409280-554B6BCB-52B7-404A-BF6E-E7480235D1D6Q47613854-F94BB810-2A1D-4573-86A1-758E188AC481Q47809938-1F5930CF-1330-4038-BF2E-F571B6BAE361Q57022680-2D74AC77-9A6C-4011-8D4E-30EFD72127A7Q57022798-1A668F94-9AF3-49FE-9847-B0B32752ADF2Q57036151-42724CE4-6818-4860-845A-ECD54C6BD2A2Q57050023-089BBF45-864A-4DD1-B1B8-8EEAF89E961DQ57197058-72BB4CDC-3609-48F7-BCFE-48B48E616258Q57197068-815693C8-D39B-49DD-A4EA-81AA3AAAD25BQ57197077-B23B1A7A-5B8B-40C9-BD8D-D62386C5E196Q57197079-B08FB6C4-FA95-4D8E-A957-3B3BF231A2ABQ57197082-0E48588D-EDF3-4C63-BD7D-25B3E160D07EQ57197086-DAC68CE7-2B48-4C32-98BC-213AB04CD60FQ57197089-D6BA2AC1-24E0-4D47-99BA-19765870B673Q57197093-EF9284A3-22E3-4407-96EA-850EE6B70197Q57197117-4C561AFD-0387-4D8F-8602-94AD91264769Q57197121-F5CCA5FA-2DD9-4FE0-9897-07282C54C848Q57197131-8A2CA7F7-1E0F-4131-908C-B7C492331247Q57206687-2CBAF1D8-C8A2-4B81-986E-8A26C872B778Q57206694-553DC938-5160-4159-86FC-29096D4B30E0Q57206712-341956EC-6259-49C2-BAE4-53685FDA5448Q57206728-F2872402-CF5D-4332-9508-8D68FE5EA0F5Q57206745-41B97306-AFAD-4DEF-B620-7BE5EB2D94A8Q57206787-3A5E33CC-852C-482A-BE5F-031EED739F2FQ57206798-62234323-9D7E-46A7-8C89-1C39B2377BC9Q57206816-26F01945-27A9-4314-9C5A-0C0B25B5EBC1Q57206841-DC2366B1-A9E8-4680-928A-9286225B500EQ57206885-6001E975-15FD-4284-9F82-689FFBC80349Q57206893-CC26602F-5D6B-4B60-B3B8-71F17E0ECBB8Q57261348-B84FE539-F766-41E2-9DF4-00326FEF674C
P2860
System boundary selection in life-cycle inventories using hybrid approaches.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
System boundary selection in life-cycle inventories using hybrid approaches.
@ast
System boundary selection in life-cycle inventories using hybrid approaches.
@en
type
label
System boundary selection in life-cycle inventories using hybrid approaches.
@ast
System boundary selection in life-cycle inventories using hybrid approaches.
@en
prefLabel
System boundary selection in life-cycle inventories using hybrid approaches.
@ast
System boundary selection in life-cycle inventories using hybrid approaches.
@en
P2093
P50
P356
P1476
System boundary selection in life-cycle inventories using hybrid approaches.
@en
P2093
Arpad Horvath
Gjalt Huppes
Graham J Treloar
Gregory Norris
Hiroki Hondo
Jesper Munksgaard
Wolfram Krewitt
Yuichi Moriguchi
P304
P356
10.1021/ES0263745
P407
P577
2004-02-01T00:00:00Z