Dr. Christian Schnülle
Office: SFG 2220
Tel.: +49 421 218 64892
E-Mail
Former Researcher at the department of Resilient Energy Systems, Faculty 04, as well as at the Advanced Energy Systems Institute and at the artec Sustainability Research Center, University of Bremen
Since 11/2017: Researcher at the department of Resilient Energy Systems, Faculty 04, as well as at the Advanced Energy Systems Institute and at the artec research center for sustainability, University of Bremen
04/2017-07/2017: Volunteer work in construction and redevelopment projects in Suva, Fiji
04/2015 – 03/2017: Researcher at the department of Technikgestaltung & Technologieentwicklung, Faculty 04, University of Bremen
Study Programs:
Master of Science in Engineering Physics at the University of Oldenburg
Bachelor of Science in Environmental Sciences at the University of Oldenburg
Exchange semester at the Hawaii Pacific University
Socio-technical systems
Electricity-based synthetic fuels (Power-to-X)
Sector coupling
Innovation systems
Resilience
Socio-techno-economic analyses
Kenkel, P., Schnuelle, C., Wassermann, T., & Zondervan, E. (2022). Integrating multi-objective superstructure optimization and multi-criteria assessment: a novel methodology for sustainable process design. Physical Sciences Reviews. https://doi.org/10.1515/psr-2020-0058
Schnuelle, C., Wassermann, T., & Stuehrmann, T. (2022). Mind the Gap—A Socio-Economic Analysis on Price Developments of Green Hydrogen, Synthetic Fuels, and Conventional Energy Carriers in Germany. Energies, 15(10). https://doi.org/10.3390/en15103541
Schnuelle, C., Wassermann, T., Kalis, M., & Schäfer, J. (2021). Ausgewählte Standortfaktoren für Power-to-Fuel Anlagen: Erdölraffinerie versus grüne Wiese. Energiewirtschaftliche Tagesfragen, 7–8(71), 24–28.
Holtz, G., Schnülle, C., Yadack, M., Friege, J., Jensen, T., Thier, P., Viebahn, P., & Chappin, É. J. L. (2020). Using Agent-Based Models to Generate Transformation Knowledge for the German Energiewende—Potentials and Challenges Derived from Four Case Studies. Energies, 13(22), 6133. https://doi.org/10.3390/en13226133
Christian Schnuelle, Timo Wassermann, David Fuhrlaender, Edwin Zondervan (2020): Dynamic hydrogen production from PV & wind direct electricity supply – Modeling and techno-economic assessment, International Journal of Hydrogen Energy, doi: https://doi.org/10.1016/j.ijhydene.2020.08.044
Christian Schnuelle, Kasper Kisjes, Torben Stuehrmann, Pablo Thier, Igor Nikolic, Arnim von Gleich, Stefan Goessling-Reisemann (2020): From Niche to Market—An Agent-Based Modeling Approach for the Economic Uptake of Electro-Fuels (Power-to-Fuel) in the German Energy System. Energies 2020, 13, 5522. doi: https://doi.org/10.3390/en13205522
Christian Schnülle, Philipp Kenkel, Timo Wassermann (2020): Multikriterielle Bewertung von Elektrolyse- und Co2-Capture Technologien für eine Power-to-Methanol Prozesskette. Artec Paper Nr. 223, ISSN 1613-4907
Timo Wassermann, Christian Schnuelle, Philipp Kenkel, Edwin Zondervan (2020): Power-to-Methanol at Refineries as a Precursor to Green Jet Fuel Production: a Simulation and Assessment Study. Computer Aided Chemical Engineering, Elsevier, Volume 48, Pages 1453-1458, https://doi.org/10.1016/B978-0-12-823377-1.50243-3
Georg Holtz, Christian Schnülle, Malcom Yadack, Jonas Friege,Thorben Jensen, Pablo Thier, Peter Viebahn, Émile J.L. Chappin (2018): Using agent-based models to generate transformation knowledge for the German Energiewende - potentials and challenges derived from four case studies. artec Paper Nr. 218. ISSN:1613-4907
Schnuelle, Christian; Kisjes, Kasper; Thier, Pablo; Stuehrmann, Torben; Nikolic, Igor; Gleich, Arnim von; Goessling-Reisemann, Stefan (2017): Optionen für die Integration von Power-to-Fuel in den Energiewendeprozess aus einer sozioökonomischen Perspektive. Vierteljahreshefte zur Wirtschaftsforschung. DIW Berlin, no. 85, pp. 53-74. https://doi.org/10.3790/vjh.85.4.53
Brand, Urte et al. (2017): Auf dem Weg zu Resilienten Energiesystemen! Resiliente Gestaltung des Energiesystems am Beispiel der Transformationsoptionen EE-Methan-System und regionale Selbstversorgung’, Universität Bremen, Final project report RESYSTRA.
Schnuelle, Christian; Thoeming, Jorg; Wassermann, Timo; Thier, Pablo; Gleich, Arnim von; Goessling-Reisemann, Stefan (2019): Socio-technical-economic assessment of Power-to-X – potentials and limitations for an integration into the German energy system. Energy Research & Social Science. Elsevier. No. 51 pp.187-197
Schnuelle, Christian; Kisjes, Kasper; Thier, Pablo; Stuehrmann, Torben; Nikolic, Igor; Gleich, Arnim von; Goessling-Reisemann, Stefan (2018): From niche to market – an agent-based modeling approach for the economic uptake of synthetic fuels based on renewable energies (power-to-fuel) in the German energy system. Renewable & Sustainable Energy Reviews. Elsevier. (submitted)
Schnuelle, Christian (2016): From niche to market – an agent-based modeling approach for the economic integration of synthetic fuels based on renewable energies (power-to-fuel). Elsevier Energy Systems Conference, London.
Schnuelle, Christian (2016): From niche to market – Sustainable, synthetic fuels (power-to-fuel) for aviation and heavy transport.Jahreskonferenz des Leibniz-Forschungsverbunds Energiewende. (De)zentrale Energiewende – Wirklichkeiten, Widersprüche und Visionen. Berlin.
Schnuelle, Christian (2018): Socio-techno-economic assessment of synthetic fuel (PtX) concepts for the German energy system. Jahrestreffen der ProcessNet-Fachgruppe Energieverfahrenstechnik (EVT), DECHEMA e.V., Frankfurt am Main.