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A review on catalytic methane combustion at low temperatures: Catalysts, mechanisms, reaction conditions and reactor designs

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  • He, Li
  • Fan, Yilin
  • Bellettre, Jérôme
  • Yue, Jun
  • Luo, Lingai

Abstract

Natural gas (with methane as its main component) provides an attractive energy source because of its large abundance and its high heat of combustion per mole of carbon dioxide generated. However, the emissions released from the conventional flame combustion (essentially NOx) have harmful impacts on the environment and the human health. Within the scope of rational and clean use of fossil energies, the catalytic combustion of natural gas appears as one of the most promising alternatives to flammable combustion. The presence of catalysts enables complete oxidation of methane at much lower temperatures (typically 500 °C), so that the formation of pollutants can be largely avoided. This work presents a literature review on the catalytic methane combustion. Various aspects are discussed including the catalyst types, the reaction mechanisms and kinetic characteristics, effects of various influencing operational factors and different reactor types proposed and tested. This paper may serve as an essential reference that contributes to the development of well-designed reactors, equipped with appropriate catalysts, and under well-handled operating conditions to realize the favorable (kinetic) performance, for their future applications and propagation in different industrial sectors.

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  • He, Li & Fan, Yilin & Bellettre, Jérôme & Yue, Jun & Luo, Lingai, 2020. "A review on catalytic methane combustion at low temperatures: Catalysts, mechanisms, reaction conditions and reactor designs," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
    • Handle: RePEc:eee:rensus:v:119:y:2020:i:c:s136403211930797x
    DOI: 10.1016/j.rser.2019.109589
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    2. Shunsaku Yasumura & Kenichiro Saita & Takumi Miyakage & Ken Nagai & Kenichi Kon & Takashi Toyao & Zen Maeno & Tetsuya Taketsugu & Ken-ichi Shimizu, 2023. "Designing main-group catalysts for low-temperature methane combustion by ozone," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    3. Anufriev, I.S., 2021. "Review of water/steam addition in liquid-fuel combustion systems for NOx reduction: Waste-to-energy trends," Renewable and Sustainable Energy Reviews, Elsevier, vol. 138(C).
    4. Namazi, Mohammadmehdi & Nayebi, Mohammadreza & Isazadeh, Amin & Modarresi, Ali & Marzbali, Iman Ghasemi & Hosseinalipour, Seyed Mostafa, 2022. "Experimental and numerical study of catalytic combustion and pore-scale numerical study of mass diffusion in high porosity fibrous porous media," Energy, Elsevier, vol. 238(PB).
    5. Zhuang Kang & Zhiwei Shi & Jiahao Ye & Xinghua Tian & Zhixin Huang & Hao Wang & Depeng Wei & Qingguo Peng & Yaojie Tu, 2023. "A Review of Micro Power System and Micro Combustion: Present Situation, Techniques and Prospects," Energies, MDPI, vol. 16(7), pages 1-28, April.
    6. Qin, Mingyuan & Chew, Bee Teng & Yau, Yat Huang & Wang, Xinru & Wang, Chunqing & Luo, Xueqing & Li, Lei & Pan, Song, 2023. "Emergency heater based on gas-fired catalytic combustion infrared technology: Structure, evaluation and thermal response," Energy, Elsevier, vol. 274(C).

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