Emre Genšer
Emre Genšer
Research Scientist, MIT Energy Initiative
Verified email at mit.edu - Homepage
Cited by
Cited by
A synergistic biorefinery based on catalytic conversion of lignin prior to cellulose starting from lignocellulosic biomass
T Parsell, S Yohe, J Degenstein, T Jarrell, I Klein, E Gencer, B Hewetson, ...
Green Chemistry 17 (3), 1492-1499, 2015
A commentary on the US policies for efficient large scale renewable energy storage systems: Focus on carbon storage cycles
E Genšer, R Agrawal
Energy Policy 88, 477-484, 2016
Directing solar photons to sustainably meet food, energy, and water needs
E Genšer, C Miskin, X Sun, MR Khan, P Bermel, MA Alam, R Agrawal
Scientific reports 7 (1), 1-7, 2017
Toward supplying food, energy, and water demand: Integrated solar desalination process synthesis with power and hydrogen coproduction
E Genšer, R Agrawal
Resources, Conservation and Recycling 133, 331-342, 2018
Valorization of shale gas condensate to liquid hydrocarbons through catalytic dehydrogenation and oligomerization
T Ridha, Y Li, E Genšer, JJ Siirola, JT Miller, FH Ribeiro, R Agrawal
Processes 6 (9), 139, 2018
Parametric modeling of life cycle greenhouse gas emissions from photovoltaic power
I Miller, E Genšer, HS Vogelbaum, PR Brown, S Torkamani, FM O'Sullivan
Applied Energy 238, 760-774, 2019
Synthesis of efficient solar thermal power cycles for baseload power supply
E Genšer, R Agrawal
Energy Conversion and Management 133, 486-497, 2017
Round-the-clock power supply and a sustainable economy via synergistic integration of solar thermal power and hydrogen processes
E Genšer, DS Mallapragada, F MarÚchal, M Tawarmalani, R Agrawal
Proceedings of the National Academy of Sciences 112 (52), 15821-15826, 2015
Uninterrupted renewable power through chemical storage cycles
E Genšer, E Al-musleh, DS Mallapragada, R Agrawal
Current Opinion in Chemical Engineering 5, 29-36, 2014
Sustainable energy system analysis modeling environment: Analyzing life cycle emissions of the energy transition
E Genšer, S Torkamani, I Miller, TW Wu, F O'Sullivan
Applied Energy 277, 115550, 2020
Strategy to synthesize integrated solar energy coproduction processes with optimal process intensification. Case study: Efficient solar thermal hydrogen production
E Genšer, R Agrawal
Computers & Chemical Engineering 105, 328-347, 2017
A general model for estimating emissions from integrated power generation and energy storage. Case study: Integration of solar photovoltaic power and wind power with batteries
I Miller, E Genšer, FM O’Sullivan
Processes 6 (12), 267, 2018
Can industrial-scale solar hydrogen supplied from commodity technologies be cost competitive by 2030?
DS Mallapragada, E Genšer, P Insinger, DW Keith, FM O’Sullivan
Cell Reports Physical Science 1 (9), 100174, 2020
Synergistic Biomass and Natural Gas Conversion to Liquid Fuel with Reduced CO2 Emissions
E Genšer, DS Mallapragada, M Tawarmalani, R Agrawal
Computer Aided Chemical Engineering 34, 525-530, 2014
Technoeconomic Analysis of the Electrochemically Mediated Amine Regeneration CO2 Capture Process
M Wang, R Shaw, E Gencer, TA Hatton
Industrial & Engineering Chemistry Research, 2020
Optimal liquified natural gas (LNG) cold energy utilization in an Allam cycle power plant with carbon capture and storage
H Yu, T Gundersen, E Genšer
Energy Conversion and Management 228, 113725, 2021
Insights into future mobility: A report from the mobility of the future study
WH Green, RC Armstrong, M Ben-Akiva, J Heywood, C Knittel, S Paltsev, ...
Hourly Power Grid Variations, Electric Vehicle Charging Patterns, and Operating Emissions
I Miller, M Arbabzadeh, E Genšer
Environmental Science & Technology 54 (24), 16071-16085, 2020
Integrated solar thermal hydrogen and power coproduction process for continuous power supply and production of chemicals
E Genšer, M Tawarmalani, R Agrawal
Computer Aided Chemical Engineering 37, 2291-2296, 2015
Global CO2 initiative complete oxymethylene ethers study 2018
A Zimmermann, R Schomńcker, E Genšer, F O'Sullivan, K Armstrong, ...
CO2 Chem Media and Publishing Ltd., 2019
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