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Entries for Ph.D. Michael Z. Hauschild
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| Academic degree: | Ph.D. | | Last name: | Hauschild | | First name: | Michael Z. | | Responsible for: | LCIA of impacts on human health and ecosystems | | Organization/Institute: | Danish Technical University (DTU) | | Department: | Department of Manufacturing Engineering and Management | | Position: | Assoc Prof. | | Street, Number, POB: | Produktionstorvet, Building 424 | | Postal code, City: | D-2800 Lyngby | | State: | | | Country: | Denmark | | Phone: | +45 45254664 | | Fax: | +45 45933435 | | E-mail address: | mic@ipl.dtu.dk | | Url: | | | Curriculum vitae: | Michael Hauschild, Ph.D, M.Sc.(chem.Eng.). Associate professor in environmental assessment of products and systems at the Technical University of Denmark
Overall responsible for the department’s life cycle engineering research activities and courses.
Main focus of research: Life cycle impact assessment; use of LCA in product development and system design.
Chair of the SETAC-Europe task force on ecotoxicity assessment under the second Working group on LCIA and of the UNEP/SETAC task force on Toxic Impacts.
Member of the Management of the Danish LCA Center
Member of Editorial Board of Int. J. LCA. | | Areas of interest: | | assessment of chemicals in LCA | | design for environment (DfE) | | life cycle design | | life cycle impact assessment (LCIA) | | eco-efficiency | | LCA and ecotoxicology | | LCA curriculum | | waste management | | |
| | Articles: | 13 LCA (2) 87-88 (2008), Standardisation Efforts to Measure Greenhouse Gases and ´Carbon Footprinting´ for Products (SETAC Europe LCA Steering Committee)
13 LCA (2) 96-103 (2008), Methodologies for Social Life Cycle Assessment - A review (8 pp)
12 LCA (2) 92 (2007), 92 Erratum from p. 32, No. 1, Vol. 12, 2007: Evaluation of Ecotoxicity Effect Indicators for Use in LCIA by Henrik Fred Larsen and Michael Hauschild (pp. 24–33): Eq. 8 was lacking in p. 32, No. 1, 2007
12 LCA (1) 24-33 (2007), Evaluation of Ecotoxicity Effect Indicators for Use in LCIA (10+4 pp)
12 LCA (2) 79-91 (2007), GM-troph: A Low Data Demand Ecotoxicity Effect Indicator for Use in LCIA (13+3 pp)
11 LCA Special (1) 11-13 (2006), Spatial Differentiation in Life Cycle Impact Assessment: A decade of method development to increase the environmental realism of LCIA
11 LCA (2) 137-140 (2006), Dose-Response Modeling for Life Cycle Impact Assessment - Findings of the Portland Review Workshop
11 LCA (2) 87 (2006), Scoping Must be Done in Accordance with the Goal Definition, also in Social LCA
11 LCA_Special (1) 72-80 (2006), Spatial Differentiation in the Characterisation of Photochemical Ozone Formation: The EDIP2003 Methodology
10 LCA (6) 447-448 (2005), Progresses in Life Cycle Impact Assessment within the UNEP/SETAC Life Cycle Initiative
11 LCA (2) 88-97 (2006), A Framework for Social Life Cycle Impact Assessment (10 pp)
9 LCA (5) 282-288 (2004), Preamble: OMNIITOX - Operational Life-Cycle Impact Assessment Models and Information Tools for Practitioners (7 pp)
9 LCA (5) 307-319 (2004), Evaluation of Selection Methods for Toxicological Impacts in LCA - Recommendations for OMNIITOX (13 pp)
9 LCA (5) 295-306 (2004), Comparison between Three Different LCIA Methods for Aquatic Ecotoxicity and a Product Environmental Risk Assessment - Insights from a Detergent Case Study within OMNIITOX (12 pp)
9 LCA (5) 320-326 (2004), Bringing Science and Pragmatism together - A Tiered Approach for Modelling Toxicological Impacts in LCA (7 pp)
9 LCA (3) 206-207 (2004), Integrated Life-Cycle and Risk Assessment for Industrial Processes
8 LCA (4) 191-200 (2003), Comparison of Three Different LCIA Methods: EDIP97, CML2001 and Eco-indicator 99 - Does it matter which one you choose? (10 pp)
4 LCA (1) 4-6 (1999), Reply: The Structure of Impact Assessment
4 LCA (1) 16-24 (1999), "Less is Better" and "Only Above Threshold":
3 LCA (3) 158-168 (1998), Product Specific Emissions from Municipal Solid Waste Landfills
3 LCA (4) 225-236 (1998), Product Specific Emissions from Municipal Solid Waste Landfills, Part II
2 LCA (3) 171-177 (1997), Predicted Environmental Impact and Expected Occurrence of Actual Environmental Impact
2 LCA (4) 209-216 (1997), Predicted Environmental Impact and Expected Occurrence of Actual Environmental Impact
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