• Title/Summary/Keyword: Methane Steam Reforming

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Analysis of Heat Transfer Performance for a Solar Chemical Reactor (고온 태양열 화학 반응기의 열전달 성능 분석)

  • Jung, Young-Guk;Lee, Ju-Han;Seo, Tae-Beom
    • 한국태양에너지학회:학술대회논문집
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    • 2009.04a
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    • pp.55-60
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    • 2009
  • The purpose of the research is to develop the high performance solar chemical reactor for producing hydrogen using steam reforming reaction of methane. A specific shape chemical reactor is suggested: spiral type reactor. The reactor is installed on the dish-type solar thermal system of Inha University. The temperatures, $CH_4$ conversion rates are measured. At specific condition, $CH_4$ conversion rates of the spiral type reactor are about 92%. The spiral type reactor gives reasonably good performance without any problems caused by highly concentrated solar radiation.

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Hydrogen Purification by the Four-Bed Pressure Swing Adsorption Process from Steam Methane Reforming Off-Gas (4탑 PSA 공정의 의한 SMR off-gas로부터 수소 정제)

  • Yang, Se-Il;Park, Ju-Yong;Jang, Seong-Cheol;Kim, Sung-Hyun;Choi, Dae-Ki
    • 한국신재생에너지학회:학술대회논문집
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    • 2008.10a
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    • pp.383-386
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    • 2008
  • The four-bed PSA process using a layered bed of activated carbon and zeolite 5A was studied to produce a high purity hydrogen product from SMR off-gas. At a desired product purity (99.999%+), the recovery increased with decreasing the linear velocity. However, the difference of the increasing of the recovery became smaller with the decreasing of the linear velocity and then was similar from below the linear velocity 3.9 cm/s. When the adsorbents, the feed gas composition, and the operating conditions are given, the residence time is mainly a function for design of the PSA bed size. The minimum residence time exists to obtain the maximum recovery at desired product purity.

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CO2 Capture from the Hydrogen Production Processes (수소생산 공정에서의 이산화탄소 포집)

  • Yeon Ki, Hong
    • Journal of Institute of Convergence Technology
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    • v.12 no.1
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    • pp.19-23
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    • 2022
  • Interest in hydrogen production to respond to climate change is increasing. Until now, hydrogen has been mainly produced through the SMR (Steam Methane Reforming) process using natural gas. A large amount of CO2 is emitted in the hydrogen production process through SMR, and the gas flow including CO2 generated in the SMR process has different characteristics for each emission source, so it is important to apply a suitable CO2 capture process. In the case of PSA tail gas or synthesis gas, the applicability of an amine-based process has been confirmed or demonstrated close to a commercial level. However, in the case of the flue gas generated from the reformer, it is still difficult to apply the conventional amine-based process because the partial pressure of CO2 is relatively low. Energy-saving innovative absorbents such as phase separation absorbents can be a solution to these difficulties.

Recent Progress for Hydrogen Production from Biogas and Its Effective Applications (바이오가스 유래 수소 제조 기술 동향 및 효과적인 적용)

  • Song, Hyoungwoon;Jung, Hee Suk;Uhm, Sunghyun
    • Applied Chemistry for Engineering
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    • v.31 no.1
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    • pp.1-6
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    • 2020
  • Hydrogen production from biogas has received consistent attention due to the great potential to solve simultaneously the issues of energy demands and environmental problems. Practically, biomethane produced by purification/upgrading of biogas can be a good alternative to the natural gas which is a main reactant for a steam methane reforming process. Judging from the economic and environmental impacts, however, the steam biogas and dry reforming are considered to be more effective routes for hydrogen production because both processes do not require the carbon dioxide elimination step. Herein, we highlight recent studies of hydrogen production via reforming processes using biogas and effective applications for earlier commercialization.

The Effect of La2O3 Loading on the Performance of Ni-La2O3-Ce0.8Zr0.2O2 Catalysts for Steam Reforming of Methane (수증기 개질 반응에서 Ni-La2O3-Ce0.8Zr0.2O2 촉매의 La2O3 함량이 촉매의 성능에 미치는 영향)

  • YOO, SEONG-YEUN;KIM, HAK-MIN;KIM, BEOM-JUN;JANG, WON-JUN;ROH, HYUN-SEOG
    • Journal of Hydrogen and New Energy
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    • v.29 no.5
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    • pp.419-426
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    • 2018
  • $Ni-La_2O_3-Ce_{0.8}Zr_{0.2}O_2$ catalysts with various $La_2O_3$ loading were investigated for hydrogen production from steam reforming of methane (SRM). The $La_2O_3$ loading influenced the physicochemical properties of $Ni-La_2O_3-Ce_{0.8}Zr_{0.2}O_2$ catalysts such as BET surface area, Ni dispersion, Ni size and reducibility. Among the prepared catalysts, $Ni-70La_2O_3-Ce_{0.8}Zr_{0.2}O_2$ catalyst showed the highest activity and stability at a very high gas hourly space velocity (GHSV) of $932,556h^{-1}$. This is mainly due to high Ni dispersion, small Ni size and high reducibility.

An Experimental Study on the Performances of a Coupled Reactor with Catalytic Combustion and Steam Reforming for SOFC and MCFC (SOFC와 MCFC에 적용하기 위한 촉매연소-수증기 개질이 통합된 반응기의 성능에 관한 실험적 연구)

  • Ghang, Taegyu;Kim, Yongmo;Lee, Sangmin;Ahn, Kookyoung
    • Journal of Hydrogen and New Energy
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    • v.25 no.4
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    • pp.364-377
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    • 2014
  • The performances of a coupled reactor in which a steam reformer and a catalytic combustor were mounted simultaneously had been investigated and compared. The combustible offgas exhausted from the anode of SOFC and MCFC were utilized as heat sources for the endothermic steam methane reforming. The catalytic combustion was used in order to burn the combustible offgas. Thermal energy released by the catalytic combustion is directly transferred to the reformer surrounding the combustor. The various operational conditions such as fuel utilization rate, steam to carbon ratio, amount of catalysts, fuel cell loads were changed. And operating variables were comprehensively identified by sensitivity analysis. The fundamental results from this experimental study show the potential abilities of the coupled reactor. Therefore the results will be of help to design and manufacture the more better coupled reactor in the future.

Status for the Technology of Hydrogen Production from Natural Gas (천연가스를 이용한 수소 제조 기술 현황)

  • Bak, Young-Cheol;Cho, Kwang-Ju
    • Korean Chemical Engineering Research
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    • v.43 no.3
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    • pp.344-351
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    • 2005
  • Hydrogen energy will be considered one of the most important energy carries for the future not only as raw material of petroleum chemical industry but also as the fuel of the fuel cell. The hydrogen production based upon the water electrolysis system combined renewable energy or atomic power energy is being watched as long-term hydrogen sources. Hydrogen from fossil fuel, especially natural gas steam reforming, is the economical mass production method at this time. But the cost of $CO_2$ reduction is added in the economic analysis of hydrogen production processes. Therefore many different results are suggested from these analyses about old processes, and modified schemes are studying for the efficient development. In this review, status for the technology of hydrogen production from natural gas are summarized.

Study on the Pressurized Steam Reforming of Natural Gas and Biogas Mixed Cokes Oven Gas (코크스오븐가스 기반 천연가스, 바이오가스가 혼합된 연료의 가압 수증기 개질 반응에 관한 연구)

  • CHEON, HYUNGJUN;HAN, GWANGWOO;BAE, JOONGMYEON
    • Journal of Hydrogen and New Energy
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    • v.30 no.2
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    • pp.111-118
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    • 2019
  • Greenhouse gas emissions have a profound effect on global warming. Various environmental regulations have been introduced to reduce the emissions. The largest amount of greenhouse gases, including carbon dioxide, is produced in the steel industry. To decrease carbon dioxide emission, hydrogen-based iron oxide reduction, which can replace carbon-based reduction has received a great attention. Iron production generates various by-product gases, such as cokes oven gas (COG), blast furnace gas (BFG), and Linz-Donawitz gas (LDG). In particular, COG, due to its high concentrations of hydrogen and methane, can be reformed to become a major source of hydrogen for reducing iron oxide. Nevertheless, continuous COG cannot be supplied under actual operation condition of steel industry. To solve this problem, this study proposed to use two alternative COG-based fuel mixtures; one with natural gas and the other with biogas. Reforming study on two types of mixed gas were carried out to evaluate catalyst performance under a variety of operating conditions. In addition, methane conversion and product composition were investigated both theoretically and experimentally.

Activity test of post-reforming catalyst for removing the ethylene in diesel ATR reformate (디젤 자열개질 가스 내 포함된 $C_2H_4$ 제거를 위한 후개질기 촉매 활성 실험)

  • Yoon, Sang-Ho;Bae, Joong-Myeon;Lee, Sang-Ho
    • 한국신재생에너지학회:학술대회논문집
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    • 2009.11a
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    • pp.218-221
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    • 2009
  • Solid oxide fuel cells (SOFCs), as high-temperature fuel cells, have various advantages. In some merits of SOFCs, high temperature operation can lead to the capability for internal reforming, providing fuel flexibility. SOFCs can directly use CH4 and CO as fuels with sufficient steam feeds. However, hydrocarbons heavier than CH4, such as ethylene, ethane, and propane, induce carbon deposition on the Ni-based anodes of SOFCs. In the case of the ethylene steam reforming reaction on a Ni-based catalyst, the rate of carbon deposition is faster than among other hydrocarbons, even aromatics. In the reformates of heavy hydrocarbons (diesel, gasoline, kerosene and JP-8), the concentration of ethylene is usually higher than other low hydrocarbons such as methane, propane and butane. It is importatnt that ethylene in the reformate is removed for stlable operation of SOFCs. A new methodology, termed post-reforming was introduced for removing low hydrocarbons from the reformate gas stream. In this work, activity tests of some post-reforming catalysts, such as CGO-Ru, CGO-Ni, and CGO-Pt, are investigated. CGO-Pt catalyst is not good for removing ethylene due to low conversion of ethylene and low selectivity of ethylene dehydrogenation. The other hand, CGO-Ru and CGO-Ni catalysts show good ethylene conversion, and CGO-Ni catalyst shows the best reaction selectivity of ethylene dehydrogenation.

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Experimental Study of Steam Reforming Assisted by Catalytic Combustion in Concentric Annular Reactor (촉매연소를 이용한 동심 원관형 반응기 내의 수증기 개질 반응에 관한 실험적 연구)

  • Ghang, Tae-Gyu;Yu, Sang-Seok;Kim, Yong-Mo;Ahn, Kook-Young
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.34 no.4
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    • pp.375-381
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    • 2010
  • In this paper, the heat-transfer characteristics of steam reforming in an annular reactor are presented. Heat is supplied by the catalytic combustion of syn-gas. The thermal behaviors of exothermic and endothermic reactions in a directly coupled concentric-tube packed-bed reactor were investigated experimentally. The gas mixture supplied for catalytic combustion consisted of the off-gas emitted from MCFC anode. Methane in steam at a suitable S/C (steam-to-carbon) ratio was used in the reforming reactions. On the basis of the experimental results, a simple simulation was performed to predict the temperature profile required in the reforming side of the reactor to achieve optimum hydrogen yield. The results of this study may be utilized as reference data in future studies for further development of coupled reactors.