about
A framework for water and carbon footprint analysis of national electricity production scenariosExploring the material footprints of national electricity production scenarios until 2050: The case for Turkey and UKExploring the suitability of electric vehicles in the United StatesPublic transportation adoption requires a paradigm shift in urban development structureInvestigating carbon footprint reduction potential of public transportation in United States: A system dynamics approachUncertainty-embedded dynamic life cycle sustainability assessment framework: An ex-ante perspective on the impacts of alternative vehicle optionsCarbon and energy footprints of electric delivery trucks: A hybrid multi-regional input-output life cycle assessmentApplication of the TOPSIS and intuitionistic fuzzy set approaches for ranking the life cycle sustainability performance of alternative vehicle technologiesEnergy-climate-manufacturing nexus: New insights from the regional and global supply chains of manufacturing industriesLight-duty electric vehicles to improve the integrity of the electricity grid through Vehicle-to-Grid technology: Analysis of regional net revenue and emissions savingsIntegration of system dynamics approach toward deepening and broadening the life cycle sustainability assessment framework: a case for electric vehiclesCombined application of multi-criteria optimization and life-cycle sustainability assessment for optimal distribution of alternative passenger cars in U.SConventional, hybrid, plug-in hybrid or electric vehicles? State-based comparative carbon and energy footprint analysis in the United StatesA global, scope-based carbon footprint modeling for effective carbon reduction policies: Lessons from the Turkish manufacturingTowards greening the U.S. residential building stock: A system dynamics approachIntegrating triple bottom line input–output analysis into life cycle sustainability assessment framework: the case for US buildingsScope-based carbon footprint analysis of U.S. residential and commercial buildings: An input–output hybrid life cycle assessment approach
P50
Q57606283-D0D5FCEC-6E2B-415F-8B8B-096FC7D10324Q57606284-D27FDC17-AF0E-4861-9CC9-11C61F41C1C0Q57606287-B6A23D50-9545-4FE8-96C6-A3C3AB5F8355Q57606291-BDE7C88D-371C-439A-901E-D65D286E7312Q57606296-05D1012E-D9F3-4C85-81F9-52EB682A6939Q57606298-E31DF5B9-64E2-4A7F-B542-FFF66764D5DEQ57606299-DFAA0D33-681B-4119-88AA-BAA082E5533CQ57606302-8D391B88-70EF-4A0C-94C5-EE32AD806585Q57606304-21A027A5-0054-4219-BF4C-4FAEDD392F73Q57606306-98733827-F103-4E7D-8173-54DC1302D7B8Q57606308-B85E0458-DFCA-403C-B0C0-20FC59F686C1Q57606309-478D7AB7-E807-43DF-B0BA-7E891EEEDAF3Q57606312-742D6022-6243-4911-896C-31B486B222B0Q57606313-67AE17E4-D753-4E27-9A62-D5BD006ABB59Q57606316-FF706BAB-319A-4AE8-8FA6-E5DEC6A46506Q57606318-45F10668-3EDC-4F24-A03E-6ED63E01D709Q57606320-753648F0-A50C-4A57-A9AC-54654B8261E6
P50
description
onderzoeker
@nl
researcher ORCID id 0000-0002-0263-5144
@en
name
Nuri C. Onat
@ast
Nuri C. Onat
@en
Nuri C. Onat
@es
Nuri C. Onat
@nl
type
label
Nuri C. Onat
@ast
Nuri C. Onat
@en
Nuri C. Onat
@es
Nuri C. Onat
@nl
altLabel
Engineer of Sustainable Systems & Systems Thinker
@en
prefLabel
Nuri C. Onat
@ast
Nuri C. Onat
@en
Nuri C. Onat
@es
Nuri C. Onat
@nl
P1053
A-7575-2016
P106
P1153
55931450800
P1960
gSVyyUkAAAAJ
P2002
P2038
P31
P3829
P496
0000-0002-0263-5144