Experimental Study for Partial Oxidation Reforming of CH4/CO2 With Rich Combustion in a Porous Media Burner

Hong Yu Zeng; Yu Qing Wang; Yi Xiang Shi; Ning Sheng Cai

Experimental Study for Partial Oxidation Reforming of CH₄/CO₂ With Rich Combustion in a Porous Media Burner

Hong Yu Zeng, Yu Qing Wang, Yi Xiang Shi, Ning Sheng Cai

Tsinghua University

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Rich combustion in a porous media burner was used for the partial oxidation reforming of CH₄/CO₂, which is a potential non-catalysis way for syngas production from biomass-derived gas. The effect of CO₂ injected in methane was studied in the experiment. As the inlet air flow rate was 5 L/min, for various inlet CO₂/CH₄ and equivalence ratios, the flammability of rich combustion in the porous media was determined. Within the flame stability limit, the temperature distributions and species profiles were measured. When the equivalence ratio was 1.3, the ratio of CO₂/CH₄ reached 1.5. As the equivalence ratio was 1.6 and the ratio of CO₂/CH₄ was 0.5, the reforming efficiency reached 47.7%. With the injection of CO₂ in the fuel, the inverse process of water gas shift reaction was promoted that increased the fuel reforming efficiency, meanwhile, the net emission of CO₂ was reduced.

Original language	English
Pages (from-to)	2269-2275
Number of pages	7
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	38
Issue number	10
Publication status	Published - 1 Oct 2017
Externally published	Yes

Keywords

Carbon dioxide
Partial oxidation
Porous media
Rich combustion

Cite this

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title = "Experimental Study for Partial Oxidation Reforming of CH4/CO2 With Rich Combustion in a Porous Media Burner",

abstract = "Rich combustion in a porous media burner was used for the partial oxidation reforming of CH4/CO2, which is a potential non-catalysis way for syngas production from biomass-derived gas. The effect of CO2 injected in methane was studied in the experiment. As the inlet air flow rate was 5 L/min, for various inlet CO2/CH4 and equivalence ratios, the flammability of rich combustion in the porous media was determined. Within the flame stability limit, the temperature distributions and species profiles were measured. When the equivalence ratio was 1.3, the ratio of CO2/CH4 reached 1.5. As the equivalence ratio was 1.6 and the ratio of CO2/CH4 was 0.5, the reforming efficiency reached 47.7%. With the injection of CO2 in the fuel, the inverse process of water gas shift reaction was promoted that increased the fuel reforming efficiency, meanwhile, the net emission of CO2 was reduced.",

keywords = "Carbon dioxide, Partial oxidation, Porous media, Rich combustion",

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T1 - Experimental Study for Partial Oxidation Reforming of CH4/CO2 With Rich Combustion in a Porous Media Burner

AU - Zeng, Hong Yu

AU - Wang, Yu Qing

AU - Shi, Yi Xiang

AU - Cai, Ning Sheng

PY - 2017/10/1

Y1 - 2017/10/1

N2 - Rich combustion in a porous media burner was used for the partial oxidation reforming of CH4/CO2, which is a potential non-catalysis way for syngas production from biomass-derived gas. The effect of CO2 injected in methane was studied in the experiment. As the inlet air flow rate was 5 L/min, for various inlet CO2/CH4 and equivalence ratios, the flammability of rich combustion in the porous media was determined. Within the flame stability limit, the temperature distributions and species profiles were measured. When the equivalence ratio was 1.3, the ratio of CO2/CH4 reached 1.5. As the equivalence ratio was 1.6 and the ratio of CO2/CH4 was 0.5, the reforming efficiency reached 47.7%. With the injection of CO2 in the fuel, the inverse process of water gas shift reaction was promoted that increased the fuel reforming efficiency, meanwhile, the net emission of CO2 was reduced.

AB - Rich combustion in a porous media burner was used for the partial oxidation reforming of CH4/CO2, which is a potential non-catalysis way for syngas production from biomass-derived gas. The effect of CO2 injected in methane was studied in the experiment. As the inlet air flow rate was 5 L/min, for various inlet CO2/CH4 and equivalence ratios, the flammability of rich combustion in the porous media was determined. Within the flame stability limit, the temperature distributions and species profiles were measured. When the equivalence ratio was 1.3, the ratio of CO2/CH4 reached 1.5. As the equivalence ratio was 1.6 and the ratio of CO2/CH4 was 0.5, the reforming efficiency reached 47.7%. With the injection of CO2 in the fuel, the inverse process of water gas shift reaction was promoted that increased the fuel reforming efficiency, meanwhile, the net emission of CO2 was reduced.

KW - Carbon dioxide

KW - Partial oxidation

KW - Porous media

KW - Rich combustion

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SN - 0253-231X

VL - 38

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JO - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

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ER -

Experimental Study for Partial Oxidation Reforming of CH₄/CO₂ With Rich Combustion in a Porous Media Burner

Abstract

Keywords

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