A
Anders Damgaard
Researcher at Technical University of Denmark
Publications - 89
Citations - 2893
Anders Damgaard is an academic researcher from Technical University of Denmark. The author has contributed to research in topics: Life-cycle assessment & Municipal solid waste. The author has an hindex of 25, co-authored 82 publications receiving 2144 citations. Previous affiliations of Anders Damgaard include COWI A/S.
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Journal ArticleDOI
Models for waste life cycle assessment: Review of technical assumptions
Emmanuel Gentil,Anders Damgaard,Michael Zwicky Hauschild,Göran Finnveden,Ola Eriksson,Susan A. Thorneloe,Pervin Ozge Kaplan,Morton A. Barlaz,Olivier Muller,Yasuhiro Matsui,Ryota,Thomas Højlund Christensen +11 more
TL;DR: This paper is an attempt to identify, review and analyse methodologies and technical assumptions used in various parts of selected waste LCA models, and concludes that more effort should be employed to harmonise and validate non-geographic assumptions to strengthen waste L CA modelling.
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An environmental assessment system for environmental technologies
TL;DR: The objectives of this paper are to describe the EASETECH framework and the calculation structure, enabling the user to parameterise systems fully and propagate probability distributions through Monte Carlo analysis.
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Life cycle assessment of waste paper management: The importance of technology data and system boundaries in assessing recycling and incineration
TL;DR: In this article, a life cycle assessment focusing on global warming potentials of waste paper has been carried out and the importance of technical data, as well as the significance of system boundary choices, when modelling the environmental impact from recycling and incineration of waste papers has been studied.
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Life-cycle-assessment of the historical development of air pollution control and energy recovery in waste incineration.
TL;DR: The results shows that the potential environmental impacts from air emissions have decreased drastically during the last 35 years and that these impacts can be partly or fully offset by recovering energy which otherwise should have been produced from fossil fuels like coal or natural gas.
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Quality Assessment and Circularity Potential of Recovery Systems for Household Plastic Waste
TL;DR: In this article, the authors defined a circularity potential representing the ability of a recovery system to close material loops assuming steadystate market conditions, and assessed the qualities of the recovered fractions based on contamination and calculated for each scenario in a European context.