Catalytic oxidation of methane over noble metals

Firth, J. G.; Holland, H. B.

doi:10.1039/tf9696501121

Cited by 71 publications

(23 citation statements)

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“…It has been reported that partial oxidation products are not observed during the oxidation of CHI over bulk noble metals (Yu Yao, 1980;Firth and Holland, 1969a). However, the formation of HCHO, CO, and H2 during the oxidation of CHI over Pd/A1203 catalysts at temperatures lower than 400 "C has also been reported (Cullis et al, 1971).…”

Section: Rerults and Diecursionmentioning

confidence: 91%

Removal of methane from compressed natural gas fueled vehicle exhaust

Subramanian¹,

Kudla²,

Chattha³

1992

Ind. Eng. Chem. Res.

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The objective of this study is to investigate the modes of methane (CH$ removal from simulated compressed natural gas (CNG) fueled vehicle exhaust under net oxidizing, net reducing, and stoichiometric conditions. Model reaction studies were conducted. The results suggest that the oxidation of methane with oxygen contributes to the removal of methane under net oxidizing conditions. In contrast, the oxidation of methane with oxygen as well as nitric oxide contributes to ita removal under net reducing conditions. The steam reforming reaction does not eignificantly contribute to the removal of methane. The methane conversions under net reducing conditiona are higher than those observed under net oxidizing conditions. The study shows that the presence of carbon monoxide in the feed gas lea& to a gradual decrease in the methane conversion with increasing redox ratio, under net oxidizing conditions. A minimum in methane conversion is observed at a redox ratio of 0.8. The higher activity for the methane-oxygen reaction resulting from a lowering in the overall oxidation state of palladium and the contribution of the methane-nitric oxide reaction toward the removal of CH4 appear to account for the higher CHI conversions observed under net reducing conditions. IntroductionNatural gas is an attractive source of fuel for vehicles. The advantagea provided by natural gas include lower fuel cost, longer engine life, lower maintenance, and reduced oil consumption. Methane (CHJ is the major constituent of natural gas. The development of catalysts for oxidizing the unburnt methane in the exhaust stream of natural gas fueled vehiclea is of importance. Several inveatigators have reported studies on noble metal and base metal catalysts

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Section: Rerults and Diecursionmentioning

confidence: 91%

Removal of methane from compressed natural gas fueled vehicle exhaust

Subramanian¹,

Kudla²,

Chattha³

1992

Ind. Eng. Chem. Res.

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“…In particular, the mechanism involved in the oxidation of CH 4 on palladium surfaces is still very much a matter of debate [17]. Some authors refer to a Langmuir-Hinshelwood type adsorption mechanism [8,12,[18][19][20], whereas others propose a Mars and van Krevelen type redox mechanism [13,3,[21][22][23][24][25][26][27], or an Eley-Rideal type mechanism [28]. It could be argued that these discrepancies are due to the lack of understanding of the dynamic phenomena occurring on the surface of the catalyst during the catalytic combustion process.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the behaviour of a Pd/γ-Al2O3 catalyst during methane combustion reaction using in situ DRIFT spectroscopy

Demoulin

Navez

Ruíz

2005

Applied Catalysis A: General

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“…From a practical point of view, catalytic oxidation of methane is of increasing importance in exhaust aftertreatment (emissions from, e.g., natural gas fuelled engines, and homogeneous charge compression ignition and exhaust gas recycling combustion contain methane) as well as energy conversion processes. Although the reaction has attracted attention for decades [1][2][3][4][5][6], the understanding of elementary key-steps and the corresponding kinetics is still far from complete. Here, on the basis of temperature programmed and pulse-response oxidation experiments with Pt/Al 2 O 3 monolith catalysts previously carried out in our laboratory [6], a microkinetic model for simulations of the methane oxidation over alumina supported platinum has been constructed.…”

Section: Introductionmentioning

confidence: 99%

“…The complete oxidation of methane on platinum is of considerable interest because it is one of the generic catalytic reactions [1]. From a practical point of view, catalytic oxidation of methane is of increasing importance in exhaust aftertreatment (emissions from, e.g., natural gas fuelled engines, and homogeneous charge compression ignition and exhaust gas recycling combustion contain methane) as well as energy conversion processes.…”

Section: Introductionmentioning

confidence: 99%

Virtual Control for High Conversion of Methane Over Supported Pt

2009

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A transient model for oxidation of methane over Pt/Al 2 O 3 monolith catalysts has been developed by rigorous consideration of mass-and heat transport and mean-field treatment of the reaction kinetics. By coupling a virtual regulator using the reactant slip, methane or oxygen partial pressures, or oxygen surface coverage as feedback variable(s) as such or in combinations for control of feed composition, the influence of gas composition changes on the methane conversion has been investigated.

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Catalytic oxidation of methane over noble metals

Cited by 71 publications

References 0 publications

Removal of methane from compressed natural gas fueled vehicle exhaust

Removal of methane from compressed natural gas fueled vehicle exhaust

Investigation of the behaviour of a Pd/γ-Al2O3 catalyst during methane combustion reaction using in situ DRIFT spectroscopy

Virtual Control for High Conversion of Methane Over Supported Pt

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