Christoph Falter
Christoph Falter
Senior Postdoctoral Associate, MIT
Verified email at
Cited by
Cited by
High-flux solar-driven thermochemical dissociation of CO2 and H2O using nonstoichiometric ceria
WC Chueh, C Falter, M Abbott, D Scipio, P Furler, SM Haile, A Steinfeld
Science 330 (6012), 1797-1801, 2010
Demonstration of the Entire Production Chain to Renewable Kerosene via Solar Thermochemical Splitting of H2O and CO2
D Marxer, P Furler, J Scheffe, H Geerlings, C Falter, V Batteiger, ...
Energy & Fuels 29 (5), 3241-3250, 2015
Cost and emissions pathways towards net-zero climate impacts in aviation
L Dray, AW Schäfer, C Grobler, C Falter, F Allroggen, MEJ Stettler, ...
Nature Climate Change 12 (10), 956-962, 2022
Climate impact and economic feasibility of solar thermochemical jet fuel production
C Falter, V Batteiger, A Sizmann
Environmental science & technology 50 (1), 470-477, 2016
Temperature of a quartz/sapphire window in a solar cavity-receiver
G Maag, C Falter, A Steinfeld
An integrated techno-economic, environmental and social assessment of the solar thermochemical fuel pathway
C Falter, A Valente, A Habersetzer, D Iribarren, J Dufour
Sustainable Energy & Fuels 4 (8), 3992-4002, 2020
Renewable energy perspectives for aviation
H Kuhn, C Falter, A Sizmann
Proceedings of the 3rd CEAS Air&Space Conference and 21st AIDAA Congress …, 2011
Environmental and economic performance of hybrid power-to-liquid and biomass-to-liquid fuel production in the United States
SA Isaacs, MD Staples, F Allroggen, DS Mallapragada, CP Falter, ...
Environmental science & technology 55 (12), 8247-8257, 2021
Modular reactor model for the solar thermochemical production of syngas incorporating counter-flow solid heat exchange
CP Falter, A Sizmann, R Pitz-Paal
Solar Energy 122, 1296-1308, 2015
Modeling counter-flow particle heat exchangers for two-step solar thermochemical syngas production
CP Falter, R Pitz-Paal
Applied Thermal Engineering 132, 613-623, 2018
A generic solar-thermochemical reactor model with internal heat diffusion for counter-flow solid heat exchange
CP Falter, R Pitz-Paal
Solar Energy 144, 569-579, 2017
Energy analysis of solar thermochemical fuel production pathway with a focus on waste heat recuperation and vacuum generation
C Falter, R Pitz-Paal
Solar Energy 176, 230-240, 2018
Potential of future thermoelectric energy recuperation for aviation
C Bode, J Friedrichs, R Somdalen, J Köhler, KD Büchter, C Falter, U Kling, ...
Journal of Engineering for Gas Turbines and Power 139 (10), 101201, 2017
Geographical potential of solar thermochemical jet fuel production
C Falter, N Scharfenberg, A Habersetzer
Energies 13 (4), 802, 2020
Water footprint and land requirement of solar thermochemical jet-fuel production
C Falter, R Pitz-Paal
Environmental science & technology 51 (21), 12938-12947, 2017
Solar thermochemical hydrogen production in the USA
C Falter, A Sizmann
Sustainability 13 (14), 7804, 2021
Solar kerosene from H2O and CO2
P Furler, D Marxer, J Scheffe, D Reinalda, H Geerlings, C Falter, ...
AIP Conference Proceedings 1850 (1), 2017
Pathways and environmental assessment for the introduction of renewable hydrogen into the aviation sector
C Penke, C Falter, V Batteiger
Progress in Life Cycle Assessment 2019, 41-52, 2021
Solar-driven thermochemical production of sustainable liquid fuels from H2O and CO2 in a heliostat field
M Romero, J González-Aguilar, A Sizmann, V Batteiger, C Falter, ...
Proceedings of the ISES solar world congress, 1321-1332, 2019
Efficiency Potential of Solar Thermochemical Reactor Concepts with Ecological and Economical Performance Analysis of Solar Fuel Production
C Falter
Universitätsbibliothek RWTH Aachen, 2017
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