Impact of the Operation Conditions on the Reverse-Water-Gas Shift Reaction

Christoph Markowitsch; Markus Lehner

Impact of the Operation Conditions on the Reverse-Water-Gas Shift Reaction

Lehrstuhl für Verfahrenstechnik des industriellen Umweltschutzes (500)

Publikation: Konferenzbeitrag › Vortrag › Forschung › Begutachtung

Abstract

The reverse water gas shift (rWGS) reaction represents a key technol-ogy to realize an end-to-end power-to-liquid process chain. In this work, experi-mental tests of a nickel catalyst are reported. The influence of operating temper-ature (650-950 °C), pressure (ambient pressure up to 6 bara) and gas hourly space velocity (6000-40 000 h-1) on the conversion of CO2 and hydrogen is investi-gated. The results of this experimental evaluation show that the rWGS reaction favors high temperatures and low pressures. Thermodynamic equilibrium is ap-proached with the used catalyst. Higher gas hourly space velocities favor the rWGS reaction and inhibit methane formation.

Originalsprache	Deutsch
Publikationsstatus	Angenommen/In Druck - 2022
Veranstaltung	EURECA-PRO Conference 2022 - Leon - Universität Leon, Leon, Spanien Dauer: 19 Okt. 2022 → 21 Okt. 2022

Konferenz

Konferenz	EURECA-PRO Conference 2022 - Leon
Land/Gebiet	Spanien
Ort	Leon
Zeitraum	19/10/22 → 21/10/22

Schlagwörter

Power-to-Liquid
Reverse Water-Gas Shift Reaktion
Experimental and simulation

Dieses zitieren

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abstract = "The reverse water gas shift (rWGS) reaction represents a key technol-ogy to realize an end-to-end power-to-liquid process chain. In this work, experi-mental tests of a nickel catalyst are reported. The influence of operating temper-ature (650-950 °C), pressure (ambient pressure up to 6 bara) and gas hourly space velocity (6000-40 000 h-1) on the conversion of CO2 and hydrogen is investi-gated. The results of this experimental evaluation show that the rWGS reaction favors high temperatures and low pressures. Thermodynamic equilibrium is ap-proached with the used catalyst. Higher gas hourly space velocities favor the rWGS reaction and inhibit methane formation.",

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TY - CONF

T1 - Impact of the Operation Conditions on the Reverse-Water-Gas Shift Reaction

AU - Markowitsch, Christoph

AU - Lehner, Markus

PY - 2022

Y1 - 2022

N2 - The reverse water gas shift (rWGS) reaction represents a key technol-ogy to realize an end-to-end power-to-liquid process chain. In this work, experi-mental tests of a nickel catalyst are reported. The influence of operating temper-ature (650-950 °C), pressure (ambient pressure up to 6 bara) and gas hourly space velocity (6000-40 000 h-1) on the conversion of CO2 and hydrogen is investi-gated. The results of this experimental evaluation show that the rWGS reaction favors high temperatures and low pressures. Thermodynamic equilibrium is ap-proached with the used catalyst. Higher gas hourly space velocities favor the rWGS reaction and inhibit methane formation.

AB - The reverse water gas shift (rWGS) reaction represents a key technol-ogy to realize an end-to-end power-to-liquid process chain. In this work, experi-mental tests of a nickel catalyst are reported. The influence of operating temper-ature (650-950 °C), pressure (ambient pressure up to 6 bara) and gas hourly space velocity (6000-40 000 h-1) on the conversion of CO2 and hydrogen is investi-gated. The results of this experimental evaluation show that the rWGS reaction favors high temperatures and low pressures. Thermodynamic equilibrium is ap-proached with the used catalyst. Higher gas hourly space velocities favor the rWGS reaction and inhibit methane formation.

KW - Power-to-Liquid

KW - Reverse Water-Gas Shift Reaktion

KW - Experimental and simulation

M3 - Vortrag

T2 - EURECA-PRO Conference 2022 - Leon

Y2 - 19 October 2022 through 21 October 2022

ER -