USEtox fate and ecotoxicity factors for comparative assessment of toxic emissions in life cycle analysis: sensitivity to key chemical properties
about
Exploring REACH as a potential data source for characterizing ecotoxicity in life cycle assessment.IMPROVING SUBSTANCE INFORMATION IN USETOX®, PART 1: DISCUSSION ON DATA AND APPROACHES FOR ESTIMATING FRESHWATER ECOTOXICITY EFFECT FACTORS.Integrate life-cycle assessment and risk analysis results, not methods.IMPROVING SUBSTANCE INFORMATION IN USETOX®, PART 2: DATA FOR ESTIMATING FATE AND ECOSYSTEM EXPOSURE FACTORS.Integration of life cycle assessment and regional emission information in agricultural systems.Integrating algaculture into small wastewater treatment plants: process flow options and life cycle impacts.Use of new scientific developments in regulatory risk assessments: challenges and opportunities.Assessing predictive uncertainty in comparative toxicity potentials of triazoles.Human and ecotoxicological impacts assessment from the Mexican oil industry in the Coatzacoalcos region, as revealed by the USEtox model.Life Cycle Impact AssessmentThe USEtox story: a survey of model developer visions and user requirementsIdentifying best existing practice for characterization modeling in life cycle impact assessmentCoordinating modeling and experimental research of engineered nanomaterials to improve life cycle assessment studiesIncluding pathogen risk in life cycle assessment: the effect of modelling choices in the context of sewage sludge managementMulti-criteria assessment of yellow, green, and woody biomasses: pre-screening of potential biomasses as feedstocks for biorefineriesPotential Environmental Benefits of Ultralight Particleboards with Biobased Foam Cores
P2860
Q31111256-28B2B360-E8A6-4239-8DE8-9C28467766DEQ36406431-AB551620-EA1A-481A-9CD4-4075FC355BF9Q38642211-57F1A474-85B1-4CDA-A15B-1B8BBEA2095CQ38697021-548000D5-0F6A-4FB2-AE4B-A81AB4E5D5FEQ41364530-1C27367B-4948-4F17-A8F7-AC63526CD219Q43317573-F15A930D-5444-4BE8-AF43-CF73DC30B277Q44639511-B873EB7E-D72E-4A85-9F12-C3949BBAFCCAQ46983173-F077DA7B-E378-438A-A76E-84241BA4C431Q51443838-767AC9AD-7BE8-4D84-88B7-CF48D89D0ACDQ57238396-CB87D711-FDB8-4002-9DC9-1BCEA4E733B5Q57238484-DF28E584-BB5B-4982-AF02-6B9C76D71D8EQ57238503-6BD28AE0-BF8F-4B58-AEE6-EBD7A1A8D797Q57774733-A73CE3B9-AFC3-45A0-9991-DC9B3CD72BA7Q57974089-CC966676-1833-4606-AC2B-B3E33BF3C050Q58812266-41A45273-FA0B-4B35-A256-302BA4D1BF58Q59110683-BE447D65-6BF0-4F25-8E07-69FB29016379
P2860
USEtox fate and ecotoxicity factors for comparative assessment of toxic emissions in life cycle analysis: sensitivity to key chemical properties
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2011
@uk
name
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@en
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@nl
type
label
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@en
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@nl
prefLabel
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@en
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@nl
P2093
P2860
P50
P1476
USEtox fate and ecotoxicity fa ...... ity to key chemical properties
@en
P2093
Dik van de Meent
Henrik Fred Larsen
Jerome Payet
Manuele Margni
Mark A. J. Huijbregts
Thomas E. McKone
P2860
P2888
P304
P356
10.1007/S11367-011-0294-6
P577
2011-06-08T00:00:00Z