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Life Cycle Assessment of man-made cellulose fibres
L. Shen
, M.K. Patel
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Keyphrases
Abiotic Depletion
14%
Acidification
28%
Aquatic Ecotoxicity
14%
Asia
42%
Assessment Results
14%
Austria
100%
Biological Fiber
14%
Biorefinery
14%
Cellulose
14%
CML Method
14%
Cotton
28%
Ecotoxicity
14%
Environmental Assessment
14%
Environmental Awareness
14%
Environmental Impact
14%
Environmental Indicators
14%
Eutrophication
28%
Fiber Industry
14%
Fiber Product
14%
Fossil Fuels
14%
Freshwater
14%
Global Warming Potential
57%
Human Toxicity
14%
Inventory Data
28%
Land Surface Water
14%
Land Use
57%
Land Use Efficiency
14%
Life Cycle Assessment
100%
Lowland
14%
Man-made
28%
Man-made Cellulose Fibers
100%
Modal
42%
Modern Man
14%
Non-renewable Energy Consumption
57%
Of Textile Material
14%
Ozone Depletion
14%
Paper Industry
14%
Photochemical Oxidation
28%
PLA Fiber
14%
Plus-end
14%
Potential Toxicity
14%
Renewable Energy Consumption
14%
Sensitivity Analysis
14%
Staple Fiber
14%
System Boundary
14%
Tencel
57%
Terrestrial Ecotoxicity
14%
Toxic Impact
14%
Viscose
71%
Waste Management
14%
Water Use
57%
Earth and Planetary Sciences
Asia
42%
Austria
100%
Energy Use
71%
Environmental Assessment
14%
Environmental Awareness
14%
Environmental Impact
14%
Environmental Indicator
14%
Eutrophication
28%
Fossil Fuel
14%
Freshwater
14%
Global Warming Potential
57%
Land Use
71%
Life Cycle Assessment
100%
Ozone Layer Depletion
14%
Paper Industry
14%
Polyethylene Terephthalate
28%
Renewable Energy
71%
Water Use
57%
Engineering
Abiotic Depletion
14%
Biorefineries
14%
Boundaries of the System
14%
Cellulose Fiber
100%
Depletion Layer
14%
Emitter Coupled Logic Circuits
28%
Environmental Assessment
14%
Environmental Awareness
14%
Environmental Impact
14%
Factory Gate
28%
Fossil Fuel
14%
Fresh Water
14%
Global Warming Potential
57%
Land Use
71%
Life Cycle Assessment
100%
Non-Renewable Energy
57%
Renewable Energy
14%
Staple Fiber
14%
Terrestrial Ecotoxicity
14%
Textile Material
14%
Medicine and Dentistry
Awareness
14%
Cellulose Fiber
100%
Chronic Myelogenous Leukemia
28%
Ecotoxicity
42%
Eutrophication
28%
Fossil Fuel
14%
Fresh Water
14%
Life Cycle
100%
Polyethylene Terephthalate
28%
Surgical Staple
14%
Viscose
71%
Material Science
Fossil Fuel
50%
Oxidation Reaction
100%
Paper Industry
50%
Chemical Engineering
Polyethylene Terephthalate
100%