Plasmachemical Trace‐Oxygen Removal in a Coke Oven Gas with a Coaxial Packed‐Bed‐DBD Reactor: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Plasmachemical Trace‐Oxygen Removal in a Coke Oven Gas with a Coaxial Packed‐Bed‐DBD Reactor

Nitsche, Tim / Budt, Marcus / Apfel, Ulf‐Peter

The trace‐O₂ removal in coke oven gas, which enables better utilization of its contained H₂, is investigated with combinations of atmospheric nonthermal plasma and a Pt/γ‐Al₂O₃ catalyst. Herein it is shown that a coaxial packed‐bed dielectric barrier discharge (DBD) reactor removes up to 80 % O₂ in a model coke oven gas. Along this line, the H₂ content and the usage of Al₂O₃ granules in the plasma zone have been identified as major factors for the plasmachemical trace‐O₂ conversion. In contrast to the Pt/γ‐Al₂O₃ catalyst, nonthermal plasma converts trace O₂ at coke oven gas temperatures below 100 °C.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Plasmachemical Trace‐Oxygen Removal in a Coke Oven Gas with a Coaxial Packed‐Bed‐DBD Reactor

Nitsche, Tim / Budt, Marcus / Apfel, Ulf‐Peter

The trace‐O₂ removal in coke oven gas, which enables better utilization of its contained H₂, is investigated with combinations of atmospheric nonthermal plasma and a Pt/γ‐Al₂O₃ catalyst. Herein it is shown that a coaxial packed‐bed dielectric barrier discharge (DBD) reactor removes up to 80 % O₂ in a model coke oven gas. Along this line, the H₂ content and the usage of Al₂O₃ granules in the plasma zone have been identified as major factors for the plasmachemical trace‐O₂ conversion. In contrast to the Pt/γ‐Al₂O₃ catalyst, nonthermal plasma converts trace O₂ at coke oven gas temperatures below 100 °C.

Plasmachemical Trace‐Oxygen Removal in a Coke Oven Gas with a Coaxial Packed‐Bed‐DBD Reactor

Nitsche, Tim / Budt, Marcus / Apfel, Ulf‐Peter

The trace‐O₂ removal in coke oven gas, which enables better utilization of its contained H₂, is investigated with combinations of atmospheric nonthermal plasma and a Pt/γ‐Al₂O₃ catalyst. Herein it is shown that a coaxial packed‐bed dielectric barrier discharge (DBD) reactor removes up to 80 % O₂ in a model coke oven gas. Along this line, the H₂ content and the usage of Al₂O₃ granules in the plasma zone have been identified as major factors for the plasmachemical trace‐O₂ conversion. In contrast to the Pt/γ‐Al₂O₃ catalyst, nonthermal plasma converts trace O₂ at coke oven gas temperatures below 100 °C.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Plasmachemical Trace‐Oxygen Removal in a Coke Oven Gas with a Coaxial Packed‐Bed‐DBD Reactor

Contributors:

Nitsche, Tim (author) / Budt, Marcus (author) / Apfel, Ulf‐Peter (author)

Published in:

Chemie Ingenieur Technik ; 92 ; 1559-1566

Publication date:

2020-10-01

Size:

8 pages

ISSN:

0009-286X , 1522-2640

DOI:

https://doi.org/10.1002/cite.202000052

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Nonthermal plasma , Coke oven gas , Coaxial dielectric barrier discharge , Packed‐bed dielectric barrier discharge , Oxygen removal

Similar titles

PRECAST BLOCK FOR COKE OVEN AND COKE OVEN USING SAME

KITAZAWA YUTAKA / KASAI ATSUYA / TAMURA YOSHIHIRO et al. | European Patent Office | 2020

Free access

COKE OVEN TEMPORARY SUPERSTRUCTURE AND CONSTRUCTION METHOD OF COKE OVEN

TSUJIMOTO HIROYUKI / YORIMITSU SHINJI / MORIMOTO MASASHI | European Patent Office | 2015

Free access

Coke oven construction

Judd, W.M. | Engineering Index Backfile | 1906

COKE OVEN DECOMPOSITION METHOD

YOKOYAMA MANABU / KAWAGUCHI YASUHIRO / HASEGAWA MASARU et al. | European Patent Office | 2016

Free access

Coke oven machine side greenhouse installation method for coke oven transformation project

HE XIANG / YANG MENG / SHI YONGGAO et al. | European Patent Office | 2023

Free access