Ceria supported nickel catalysts for CO removal from H2-rich gas

Zhiming GAO; Qianzi DAI; Hongwei MA; Zhanping LI

doi:10.1016/S1002-0721(16)60156-4

Ceria supported nickel catalysts for CO removal from H₂-rich gas

Zhiming GAO^*, Qianzi DAI, Hongwei MA, Zhanping LI

^*Corresponding author for this work

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

17 Citations (Scopus)

Abstract

Abstract CO in H₂-rich gas must be removed to meet various requirements in industrial applications. Four methods, i.e., the precipitation method using aqueous ammonia, the complexing method using urea, the complexing method using citric acid and the precipitation method using ammonium carbonate, were adopted to prepare samples NiO/CeO₂ as catalyst precursors for removal of CO from H₂-rich gas via selective methanation reaction. The sample NiO/CeO₂ prepared by the precipitation method using aqueous ammonia as precipitant exhibited the highest catalytic activity both for CO methanation and for CO₂ methanation after reduction prior to the catalytic reaction. Chlorine ion was then doped to suppress CO₂ conversion. Effect of chlorine doping was investigated. Over the optimal catalyst 40%Ni(Cl_0.2)/CeO₂, CO in the H₂-rich gas was removed to below 10 ppm with selectivity of 60% or higher at reaction temperatures 230–250 °C in the test period of 75 h.

Original language	English
Pages (from-to)	1213-1220
Number of pages	8
Journal	Journal of Rare Earths
Volume	34
Issue number	12
DOIs	https://doi.org/10.1016/S1002-0721(16)60156-4
Publication status	Published - 1 Dec 2016

Keywords

CO selective methanation
adsorption
ceria
chlorine doping
nickel
rare earths

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10.1016/S1002-0721(16)60156-4

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title = "Ceria supported nickel catalysts for CO removal from H2-rich gas",

abstract = "Abstract CO in H2-rich gas must be removed to meet various requirements in industrial applications. Four methods, i.e., the precipitation method using aqueous ammonia, the complexing method using urea, the complexing method using citric acid and the precipitation method using ammonium carbonate, were adopted to prepare samples NiO/CeO2 as catalyst precursors for removal of CO from H2-rich gas via selective methanation reaction. The sample NiO/CeO2 prepared by the precipitation method using aqueous ammonia as precipitant exhibited the highest catalytic activity both for CO methanation and for CO2 methanation after reduction prior to the catalytic reaction. Chlorine ion was then doped to suppress CO2 conversion. Effect of chlorine doping was investigated. Over the optimal catalyst 40%Ni(Cl0.2)/CeO2, CO in the H2-rich gas was removed to below 10 ppm with selectivity of 60% or higher at reaction temperatures 230–250 °C in the test period of 75 h.",

keywords = "CO selective methanation, adsorption, ceria, chlorine doping, nickel, rare earths",

author = "Zhiming GAO and Qianzi DAI and Hongwei MA and Zhanping LI",

note = "Publisher Copyright: {\textcopyright} 2016 The Chinese Society of Rare Earths",

year = "2016",

month = dec,

day = "1",

doi = "10.1016/S1002-0721(16)60156-4",

language = "English",

volume = "34",

pages = "1213--1220",

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publisher = "Editorial Office of Chinese Rare Earths",

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TY - JOUR

T1 - Ceria supported nickel catalysts for CO removal from H2-rich gas

AU - GAO, Zhiming

AU - DAI, Qianzi

AU - MA, Hongwei

AU - LI, Zhanping

PY - 2016/12/1

Y1 - 2016/12/1

N2 - Abstract CO in H2-rich gas must be removed to meet various requirements in industrial applications. Four methods, i.e., the precipitation method using aqueous ammonia, the complexing method using urea, the complexing method using citric acid and the precipitation method using ammonium carbonate, were adopted to prepare samples NiO/CeO2 as catalyst precursors for removal of CO from H2-rich gas via selective methanation reaction. The sample NiO/CeO2 prepared by the precipitation method using aqueous ammonia as precipitant exhibited the highest catalytic activity both for CO methanation and for CO2 methanation after reduction prior to the catalytic reaction. Chlorine ion was then doped to suppress CO2 conversion. Effect of chlorine doping was investigated. Over the optimal catalyst 40%Ni(Cl0.2)/CeO2, CO in the H2-rich gas was removed to below 10 ppm with selectivity of 60% or higher at reaction temperatures 230–250 °C in the test period of 75 h.

AB - Abstract CO in H2-rich gas must be removed to meet various requirements in industrial applications. Four methods, i.e., the precipitation method using aqueous ammonia, the complexing method using urea, the complexing method using citric acid and the precipitation method using ammonium carbonate, were adopted to prepare samples NiO/CeO2 as catalyst precursors for removal of CO from H2-rich gas via selective methanation reaction. The sample NiO/CeO2 prepared by the precipitation method using aqueous ammonia as precipitant exhibited the highest catalytic activity both for CO methanation and for CO2 methanation after reduction prior to the catalytic reaction. Chlorine ion was then doped to suppress CO2 conversion. Effect of chlorine doping was investigated. Over the optimal catalyst 40%Ni(Cl0.2)/CeO2, CO in the H2-rich gas was removed to below 10 ppm with selectivity of 60% or higher at reaction temperatures 230–250 °C in the test period of 75 h.

KW - CO selective methanation

KW - adsorption

KW - ceria

KW - chlorine doping

KW - nickel

KW - rare earths

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U2 - 10.1016/S1002-0721(16)60156-4

DO - 10.1016/S1002-0721(16)60156-4

M3 - Article

AN - SCOPUS:85000420285

SN - 1002-0721

VL - 34

SP - 1213

EP - 1220

JO - Journal of Rare Earths

JF - Journal of Rare Earths

IS - 12

ER -

Ceria supported nickel catalysts for CO removal from H₂-rich gas

Abstract

Keywords

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