• Title/Summary/Keyword: Thermochemical methanation

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Performance Analysis of Adiabatic Reactor in Thermochemical Carbon Dioxide Methanation Process for Carbon Neutral Methane Production (탄소중립 메탄 생산을 위한 열화학적 이산화탄소 메탄화 공정의 단열 반응기 성능 분석)

  • JINWOO KIM;YOUNGDON YOO;MINHYE SEO;JONGMIN BAEK;SUHYUN KIM
    • Journal of Hydrogen and New Energy
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    • v.34 no.3
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    • pp.316-326
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    • 2023
  • Development of carbon-neutral fuel production technologies to solve climate change issues is progressing worldwide. Among them, methane can be produced through the synthesis of hydrogen produced by renewable energy and carbon dioxide captured through a CO2 methanation reaction, and the fuel produced in this way is called synthetic methane or e-methane. The CO2 methanation reaction can be conducted via biological or thermochemical methods. In this study, a 30 Nm3/h thermochemical CO2 methanation process consisting of an isothermal reactor and an adiabatic reactor was used. The CO2 conversion rate and methane concentration according to the temperature measurement results at the center and outside of the adiabatic reactor were analyzed. The gas flow into the adiabatic reactor was found to reach equilibrium after about 1.10 seconds or more by evaluating the residence time. Furthermore, experimental and analysis results were compared to evaluate performance of the reactor.

Design of Cooling System for Thermochemical CO2 Methanation Isothermal Reactor (열화학적 CO2 메탄화 등온반응기의 수순환 냉각시스템 설계)

  • LEE, HYUNGYU;KIM, SU HYUN;YOO, YOUNGDON
    • Journal of Hydrogen and New Energy
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    • v.33 no.4
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    • pp.451-461
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    • 2022
  • CFD analysis including optimization process was conducted to design shell and tube CO2 methanation reactor cooling system. The high-pressure saturated water flowed into the cooling system and was evaporated by heat flux from reacting tubes. The optimization process decided the gap between tubes and reactor diameter to satisfy objective functions related to temperature. The results showed that the gap and diameter reduced about 30% and 3.6% respectively. Averaged surface temperature satisfied the target value and the min-max deviation was minimized.