Michael Carbajales-Dale
Michael Carbajales-Dale
Energy-Economy-Environment (E3) Systems Analysis, Environmental Engineering & Earth Sciences
E-mail megerősítve itt: clemson.edu - Kezdőlap
Hivatkozott rá
Hivatkozott rá
Order from chaos: a preliminary protocol for determining the EROI of fuels
DJ Murphy, CAS Hall, M Dale, C Cleveland
Sustainability 3 (10), 1888-1907, 2011
The energetic implications of curtailing versus storing solar-and wind-generated electricity
CJ Barnhart, M Dale, AR Brandt, SM Benson
Energy & Environmental Science 6 (10), 2804-2810, 2013
Life cycle assessment of emerging technologies: A review
SM Moni, R Mahmud, K High, M Carbajales‐Dale
Journal of Industrial Ecology 24 (1), 52-63, 2020
Comparative net energy analysis of renewable electricity and carbon capture and storage
S Sgouridis, M Carbajales-Dale, D Csala, M Chiesa, U Bardi
Nature Energy 4 (6), 456-465, 2019
Energy balance of the global photovoltaic (PV) industry-is the PV industry a net electricity producer?
M Dale, SM Benson
Environmental science & technology 47 (7), 3482-3489, 2013
Integration of techno-economic analysis and life cycle assessment for sustainable process design–A review
R Mahmud, SM Moni, K High, M Carbajales-Dale
Journal of Cleaner Production 317, 128247, 2021
Life cycle assessment of emerging technologies: Evaluation techniques at different stages of market and technical maturity
JA Bergerson, A Brandt, J Cresko, M Carbajales‐Dale, HL MacLean, ...
Journal of Industrial Ecology 24 (1), 11-25, 2020
A comprehensive assessment of the energy performance of the full range of electricity generation technologies deployed in the United Kingdom
M Raugei, E Leccisi
Energy Policy 90, 46-59, 2016
Energy Return on Energy Invested (ERoEI) for photovoltaic solar systems in regions of moderate insolation: A comprehensive response
M Raugei, S Sgouridis, D Murphy, V Fthenakis, R Frischknecht, C Breyer, ...
Energy Policy 102, 377-384, 2017
A comparative analysis of energy costs of photovoltaic, solar thermal, and wind electricity generation technologies
M Dale
Applied sciences 3 (2), 325-337, 2013
Can we afford storage? A dynamic net energy analysis of renewable electricity generation supported by energy storage
M Carbajales-Dale, CJ Barnhart, SM Benson
Energy & Environmental Science 7 (5), 1538-1544, 2014
Global energy modelling—A biophysical approach (GEMBA) Part 2: Methodology
M Dale, S Krumdieck, P Bodger
Ecological Economics 73, 158-167, 2012
Global energy modelling—A biophysical approach (GEMBA) part 1: An overview of biophysical economics
M Dale, S Krumdieck, P Bodger
Ecological Economics 73, 152-157, 2012
A general mathematical framework for calculating systems-scale efficiency of energy extraction and conversion: energy return on investment (EROI) and other energy return ratios
AR Brandt, M Dale
Energies 4 (8), 1211-1245, 2011
Assessing the carbon footprint of a university campus using a life cycle assessment approach
R Clabeaux, M Carbajales-Dale, D Ladner, T Walker
Journal of Cleaner Production 273, 122600, 2020
A better currency for investing in a sustainable future
M Carbajales-Dale, CJ Barnhart, AR Brandt, SM Benson
Nature Climate Change 4 (7), 524-527, 2014
Comparing apples to apples: why the net energy analysis community needs to adopt the life-cycle analysis framework
DJ Murphy, M Carbajales-Dale, D Moeller
Energies 9 (11), 917, 2016
Net energy yield from production of conventional oil
M Dale, S Krumdieck, P Bodger
Energy policy 39 (11), 7095-7102, 2011
Calculating systems-scale energy efficiency and net energy returns: A bottom-up matrix-based approach
AR Brandt, M Dale, CJ Barnhart
Energy 62, 235-247, 2013
An extended environmental input–output lifecycle assessment model to study the urban food–energy–water nexus
J Sherwood, R Clabeaux, M Carbajales-Dale
Environmental Research Letters 12 (10), 105003, 2017
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Cikkek 1–20