Prof. Dr. Reinhard Rauch
- Professur für Chemische Konversion Erneuerbarer Energien
- Sprechstunden:
nach Vereinbarung
- Raum: 305
CS 40.51 - Tel.: +49 721 608-42960
- reinhard rauch ∂ kit edu
- ceb.ebi.kit.edu
Engler-Bunte-Institut, EBI ceb
Chemische Energieträger – BrennstofftechnologieEngler-Bunte-Ring 1
76131 Karlsruhe
Ausgewählte Veröffentlichungen
Engler-Bunte-Institut des Karlsruher Instituts für Technologie (KIT) im Jahr 2023 : Engler-Bunte-Institut des KIT, DVGW-Forschungsstelle am Engler-Bunte-Institut des KIT, Forschungsstelle für Brandschutztechnik, Karlsruhe
Horn, H.; Kolb, T.; Trimis, D.; Rauch, R.; Stein, O.; Wolf, M.
2024. Deutscher Industrieverlag GmbH (DIV)
Horn, H.; Kolb, T.; Trimis, D.; Rauch, R.; Stein, O.; Wolf, M.
2024. Deutscher Industrieverlag GmbH (DIV)
A Cold Flow Model of Interconnected Slurry Bubble Columns for Sorption-Enhanced Fischer–Tropsch Synthesis
Asbahr, W.; Lamparter, R.; Rauch, R.
2024. ChemEngineering, 8 (3), Article no: 52. doi:10.3390/chemengineering8030052
Asbahr, W.; Lamparter, R.; Rauch, R.
2024. ChemEngineering, 8 (3), Article no: 52. doi:10.3390/chemengineering8030052
Development of Fe-based catalysts for CO hydrogenation to higher hydrocarbons for operating in slurry reactor
Fedorov, A.; Graefe, P. A.; Perechodjuk, A.; Rauch, R.; Wohlrab, S.; Linke, D.
2024. Applied Catalysis A: General, 680, Art.-Nr.: 119749. doi:10.1016/j.apcata.2024.119749
Fedorov, A.; Graefe, P. A.; Perechodjuk, A.; Rauch, R.; Wohlrab, S.; Linke, D.
2024. Applied Catalysis A: General, 680, Art.-Nr.: 119749. doi:10.1016/j.apcata.2024.119749
Hydrogen from Waste Gasification
Rauch, R.; Kiros, Y.; Engvall, K.; Kantarelis, E.; Brito, P.; Nobre, C.; Santos, S. M.; Graefe, P. A.
2024. Hydrogen, 5 (1), 70–101. doi:10.3390/hydrogen5010006
Rauch, R.; Kiros, Y.; Engvall, K.; Kantarelis, E.; Brito, P.; Nobre, C.; Santos, S. M.; Graefe, P. A.
2024. Hydrogen, 5 (1), 70–101. doi:10.3390/hydrogen5010006
Co-Hydroprocessing of Fossil Middle Distillate and Bio-Derived Durene-Rich Heavy Ends under Hydrotreating Conditions
Graf, D.; Waßmuth, J.; Rauch, R.
2023. Reactions, 4 (3), 531–551. doi:10.3390/reactions4030032
Graf, D.; Waßmuth, J.; Rauch, R.
2023. Reactions, 4 (3), 531–551. doi:10.3390/reactions4030032
Standard-Compliant Gasoline by Upgrading a DTG-Based Fuel through Hydroprocessing the Heavy-Ends and Blending of Oxygenates
Graf, D.; Neuner, P.; Rauch, R.
2023. Fuels, 4 (2), 156–173. doi:10.3390/fuels4020010
Graf, D.; Neuner, P.; Rauch, R.
2023. Fuels, 4 (2), 156–173. doi:10.3390/fuels4020010
Co-Gasification of Refuse Derived Fuel and Wood Chips in the Nong Bua Dual Fluidised Bed Gasification Power Plant in Thailand
Hongrapipat, J.; Rauch, R.; Pang, S.; Liplap, P.; Arjharn, W.; Messner, M.; Henrich, C.; Koch, M.; Hofbauer, H.
2022. Energies, 15 (19), Article no: 7363. doi:10.3390/en15197363
Hongrapipat, J.; Rauch, R.; Pang, S.; Liplap, P.; Arjharn, W.; Messner, M.; Henrich, C.; Koch, M.; Hofbauer, H.
2022. Energies, 15 (19), Article no: 7363. doi:10.3390/en15197363
Vergleich verschiedener Ansätze zur nachhaltigen Olefinproduktion nach dem MtO‐ und FT‐Verfahren
Kansy, M.; Neuner, P.; Bajohr, S.; Rauch, R.; Kolb, T.
2022. Chemie Ingenieur Technik, 95 (9), 1476–1481. doi:10.1002/cite.202200032
Kansy, M.; Neuner, P.; Bajohr, S.; Rauch, R.; Kolb, T.
2022. Chemie Ingenieur Technik, 95 (9), 1476–1481. doi:10.1002/cite.202200032
Hydroprocessing and Blending of a Biomass-Based DTG-Gasoline
Graf, D.; Neuner, P.; Rauch, R.
2022. Energy engineering, 119 (6), 2169–2192. doi:10.32604/ee.2022.022759
Graf, D.; Neuner, P.; Rauch, R.
2022. Energy engineering, 119 (6), 2169–2192. doi:10.32604/ee.2022.022759
Chemical Conversion of Fischer-Tropsch Waxes and Plastic Waste Pyrolysis Condensate to Lubricating Oil and Potential Steam Cracker Feedstock
Neuner, P.; Graf, D.; Netsch, N.; Zeller, M.; Herrmann, T.-C.; Stapf, D.; Rauch, R.
2022. Reactions, 3 (3), 352–373. doi:10.3390/reactions3030026
Neuner, P.; Graf, D.; Netsch, N.; Zeller, M.; Herrmann, T.-C.; Stapf, D.; Rauch, R.
2022. Reactions, 3 (3), 352–373. doi:10.3390/reactions3030026
Concepts for the Integration of Renewable Synthetic Fuels into an Existing Refinery Structure [Konzepte zur Integration erneuerbarer synthetischer Kraftstoffe in einen bestehenden Raffinerieverbund]
Graf, D.; Koroveshi, X.; Kolb, T.; Rauch, R.
2022. Chemie-Ingenieur-Technik, 94 (3), 267–280. doi:10.1002/cite.202100154
Graf, D.; Koroveshi, X.; Kolb, T.; Rauch, R.
2022. Chemie-Ingenieur-Technik, 94 (3), 267–280. doi:10.1002/cite.202100154
Catalytic Hydroisomerisation of Fischer–Tropsch Waxes to Lubricating Oil and Investigation of the Correlation between Its Physical Properties and the Chemical Composition of the Corresponding Fuel Fractions
Neuner, P.; Graf, D.; Mild, H.; Rauch, R.
2021. Energies, 14 (14), Art.: 4202. doi:10.3390/en14144202
Neuner, P.; Graf, D.; Mild, H.; Rauch, R.
2021. Energies, 14 (14), Art.: 4202. doi:10.3390/en14144202
Replacement of Palm Methyl Ester to Rapeseed Methyl Ester for Tar Removal in the Nong Bua Dual Fluidized Bed Gasification Power Plant
Tonpakdee, P.; Hongrapipat, J.; Siriwongrungson, V.; Pang, S.; Rauch, R.; Messner, M.; Henrich, C.; Pessl, P.; Dichand, M.
2021. IOP conference series / Earth and environmental science, 801 (1), Art.-Nr.: 012021. doi:10.1088/1755-1315/801/1/012021
Tonpakdee, P.; Hongrapipat, J.; Siriwongrungson, V.; Pang, S.; Rauch, R.; Messner, M.; Henrich, C.; Pessl, P.; Dichand, M.
2021. IOP conference series / Earth and environmental science, 801 (1), Art.-Nr.: 012021. doi:10.1088/1755-1315/801/1/012021
Influence of Gasification Operating Parameters on Performance of the Nong Bua Dual Fluidized Bed Gasification System in Thailand
Prasong, M.; Siriwongrungson, V.; Hongrapipat, J.; Rauch, R.; Pang, S.; Messner, M.
2021. Current Applied Science and Technology, 22 (1), 1–14. doi:10.55003/cast.2022.01.22.002
Prasong, M.; Siriwongrungson, V.; Hongrapipat, J.; Rauch, R.; Pang, S.; Messner, M.
2021. Current Applied Science and Technology, 22 (1), 1–14. doi:10.55003/cast.2022.01.22.002
Influence of Solvent Temperature and Type on Naphthalene Solubility for Tar Removal in a Dual Fluidized Bed Biomass Gasification Process
Tonpakdee, P.; Hongrapipat, J.; Siriwongrungson, V.; Rauch, R.; Pang, S.; Thaveesri, J.; Messner, M.; Kuba, M.; Hofbauer, H.
2021. Current Applied Science and Technology, 21 (4), 751–760
Tonpakdee, P.; Hongrapipat, J.; Siriwongrungson, V.; Rauch, R.; Pang, S.; Thaveesri, J.; Messner, M.; Kuba, M.; Hofbauer, H.
2021. Current Applied Science and Technology, 21 (4), 751–760
Developing an adsorption-based gas cleaning system for a dual fluidized bed gasification process
Loipersböck, J.; Weber, G.; Rauch, R.; Hofbauer, H.
2021. Biomass Conversion and Biorefinery, 11, 85–94. doi:10.1007/s13399-020-00999-1
Loipersböck, J.; Weber, G.; Rauch, R.; Hofbauer, H.
2021. Biomass Conversion and Biorefinery, 11, 85–94. doi:10.1007/s13399-020-00999-1
A novel production route and process optimization of biomass-derived paraffin wax for pharmaceutical application
Gruber, H.; Lindner, L.; Arlt, S.; Reichhold, A.; Rauch, R.; Weber, G.; Trimbach, J.; Hofbauer, H.
2020. Journal of cleaner production, 275, Article no: 124135. doi:10.1016/j.jclepro.2020.124135
Gruber, H.; Lindner, L.; Arlt, S.; Reichhold, A.; Rauch, R.; Weber, G.; Trimbach, J.; Hofbauer, H.
2020. Journal of cleaner production, 275, Article no: 124135. doi:10.1016/j.jclepro.2020.124135
Influence of bed materials on the performance of the Nong Bua dual fluidized bed gasification power plant in Thailand
Siriwongrungson, V.; Hongrapipat, J.; Kuba, M.; Rauch, R.; Pang, S.; Thaveesri, J.; Messner, M.; Hofbauer, H.
2022. Biomass Conversion and Biorefinery, 12, 2965–2979. doi:10.1007/s13399-020-00908-6
Siriwongrungson, V.; Hongrapipat, J.; Kuba, M.; Rauch, R.; Pang, S.; Thaveesri, J.; Messner, M.; Hofbauer, H.
2022. Biomass Conversion and Biorefinery, 12, 2965–2979. doi:10.1007/s13399-020-00908-6
Co-gasification of Cassava Rhizome and Woody Biomass in the 1 MW Prototype Dual Fluidised Bed Gasifier by Gussing Renewable Energy
Hongrapipat, J.; Siriwongrungson, V.; Messner, M.; Henrich, C.; Gunnarsson, S.; Koch, M.; Dichand, M.; Rauch, R.; Pang, S.; Hofbauer, H.
2020. IOP conference series / Earth and environmental science, 495, Article: 012019. doi:10.1088/1755-1315/495/1/012019
Hongrapipat, J.; Siriwongrungson, V.; Messner, M.; Henrich, C.; Gunnarsson, S.; Koch, M.; Dichand, M.; Rauch, R.; Pang, S.; Hofbauer, H.
2020. IOP conference series / Earth and environmental science, 495, Article: 012019. doi:10.1088/1755-1315/495/1/012019
Investigating the feasibility of valorizing residual char from biomass gasification as catalyst support in Fischer-Tropsch synthesis
Benedetti, V.; Ail, S. S.; Patuzzi, F.; Cristofori, D.; Rauch, R.; Baratieri, M.
2020. Renewable energy, 147, 884–894. doi:10.1016/j.renene.2019.09.050
Benedetti, V.; Ail, S. S.; Patuzzi, F.; Cristofori, D.; Rauch, R.; Baratieri, M.
2020. Renewable energy, 147, 884–894. doi:10.1016/j.renene.2019.09.050
Fischer-Tropsch products from biomass-derived syngas and renewable hydrogen
Gruber, H.; Groß, P.; Rauch, R.; Reichhold, A.; Zweiler, R.; Aichernig, C.; Müller, S.; Ataimisch, N.; Hofbauer, H.
2021. Biomass Conversion and Biorefinery, 11, 2281–2292. doi:10.1007/s13399-019-00459-5
Gruber, H.; Groß, P.; Rauch, R.; Reichhold, A.; Zweiler, R.; Aichernig, C.; Müller, S.; Ataimisch, N.; Hofbauer, H.
2021. Biomass Conversion and Biorefinery, 11, 2281–2292. doi:10.1007/s13399-019-00459-5
Experimental Demonstration and Validation of Hydrogen Production Based on Gasification of Lignocellulosic Feedstock
Loipersböck, J.; Luisser, M.; Müller, S.; Hofbauer, H.; Rauch, R.
2018. ChemEngineering, 2 (4), Art.-Nr.: 61. doi:10.3390/chemengineering2040061
Loipersböck, J.; Luisser, M.; Müller, S.; Hofbauer, H.; Rauch, R.
2018. ChemEngineering, 2 (4), Art.-Nr.: 61. doi:10.3390/chemengineering2040061
Mathematical model of Fischer-Tropsch synthesis using variable alpha-parameter to predict product distribution
Filip, L.; Zámostný, P.; Rauch, R.
2019. Fuel, 243, 603–609. doi:10.1016/j.fuel.2019.01.121
Filip, L.; Zámostný, P.; Rauch, R.
2019. Fuel, 243, 603–609. doi:10.1016/j.fuel.2019.01.121
Power to Fuels: Dynamic Modeling of a Slurry Bubble Column Reactor in Lab-Scale for Fischer Tropsch Synthesis under Variable Load of Synthesis Gas
Seyednejadian, S.; Rauch, R.; Bensaid, S.; Hofbauer, H.; Weber, G.; Saracco, G.
2018. Applied Sciences, 8 (4), 514. doi:10.3390/app8040514
Seyednejadian, S.; Rauch, R.; Bensaid, S.; Hofbauer, H.; Weber, G.; Saracco, G.
2018. Applied Sciences, 8 (4), 514. doi:10.3390/app8040514
Production of diesel from biomass and wind power - Energy storage by the use of the Fischer-Tropsch process
Müller, S.; Groß, P.; Rauch, R.; Zweiler, R.; Aichernig, C.; Fuchs, M.; Hofbauer, H.
2017. Biomass Conversion and Biorefinery, 8 (2), 275–282. doi:10.1007/s13399-017-0287-1
Müller, S.; Groß, P.; Rauch, R.; Zweiler, R.; Aichernig, C.; Fuchs, M.; Hofbauer, H.
2017. Biomass Conversion and Biorefinery, 8 (2), 275–282. doi:10.1007/s13399-017-0287-1
A hybrid of winddiesel technology with biomass-based Fischer-Tropsch synthesis
Nikparsa, P.; Rauch, R.; Mirzaei, A. A.
2017. Monatshefte für Chemie, 1–10. doi:10.1007/s00706-017-1998-5
Nikparsa, P.; Rauch, R.; Mirzaei, A. A.
2017. Monatshefte für Chemie, 1–10. doi:10.1007/s00706-017-1998-5
Hydrogen production from biomass : The behavior of impurities over a CO shift unit and a biodiesel scrubber used as a gas treatment stage
Loipersböck, J.; Lenzi, M.; Rauch, R.; Hofbauer, H.
2017. The Korean journal of chemical engineering, 34 (8), 2198–2203. doi:10.1007/s11814-017-0130-1
Loipersböck, J.; Lenzi, M.; Rauch, R.; Hofbauer, H.
2017. The Korean journal of chemical engineering, 34 (8), 2198–2203. doi:10.1007/s11814-017-0130-1
Biokerosene Production from Bio-Chemical and Thermo-Chemical Biomass Conversion and Subsequent Fischer-Tropsch Synthesis
Rauch, R.; Hofbauer, H.; Neuling, U.; Kaltschmitt, M.
2017. Biokerosene : Status and Prospects. Ed.: M. Kaltschmitt, 497–539, Springer-Verlag
Rauch, R.; Hofbauer, H.; Neuling, U.; Kaltschmitt, M.
2017. Biokerosene : Status and Prospects. Ed.: M. Kaltschmitt, 497–539, Springer-Verlag
Modification of Co/Al₂O₃ Fischer-Tropsch Nanocatalysts by Adding Ni : A Kinetic Approach
Nikparsa, P.; Mirzaei, A. A.; Rauch, R.
2016. International journal of chemical kinetics, 48 (3), 131–143. doi:10.1002/kin.20978
Nikparsa, P.; Mirzaei, A. A.; Rauch, R.
2016. International journal of chemical kinetics, 48 (3), 131–143. doi:10.1002/kin.20978
Developing a simulation model for a mixed alcohol synthesis reactor and validation of experimental data in IPSE
Weber, G.; Di Giuliano, A.; Rauch, R.; Hofbauer, H.
2016. Fuel processing technology, 141, 167–176. doi:10.1016/j.fuproc.2015.05.024
Weber, G.; Di Giuliano, A.; Rauch, R.; Hofbauer, H.
2016. Fuel processing technology, 141, 167–176. doi:10.1016/j.fuproc.2015.05.024
Apparent kinetics of the catalyzed water-gas shift reaction in synthetic wood gas
Plaza, A.; Fail, S.; Cortés, J. A.; Föttinger, K.; Diaz, N.; Rauch, R.; Hofbauer, H.
2016. The chemical engineering journal, 301, 222–228. doi:10.1016/j.cej.2016.04.152
Plaza, A.; Fail, S.; Cortés, J. A.; Föttinger, K.; Diaz, N.; Rauch, R.; Hofbauer, H.
2016. The chemical engineering journal, 301, 222–228. doi:10.1016/j.cej.2016.04.152
Impact of Na Promoter on Structural Properties and Catalytic Performance of CoNi/Al₂O₃ Nanocatalysts for the CO Hydrogenation Process : Fischer-Tropsch Technology
Nikparsa, P.; Mirzaei, A. A.; Rauch, R.
2016. Catalysis letters, 146 (1), 61–71. doi:10.1007/s10562-015-1620-6
Nikparsa, P.; Mirzaei, A. A.; Rauch, R.
2016. Catalysis letters, 146 (1), 61–71. doi:10.1007/s10562-015-1620-6
Experimental investigations of hydrogen production from CO catalytic conversion of tar rich syngas by biomass gasification
Chianese, S.; Fail, S.; Binder, M.; Rauch, R.; Hofbauer, H.; Molino, A.; Blasi, A.; Musmarra, D.
2016. Catalysis today, 277 (1), 182–191. doi:10.1016/j.cattod.2016.04.005
Chianese, S.; Fail, S.; Binder, M.; Rauch, R.; Hofbauer, H.; Molino, A.; Blasi, A.; Musmarra, D.
2016. Catalysis today, 277 (1), 182–191. doi:10.1016/j.cattod.2016.04.005