• Title/Summary/Keyword: Electrochemical hydrogen compressor

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Series Stacking Techniques of Electrochemical Hydrogen Compressors (전기화학식 수소 압축기 직렬 스택 기술)

  • SANG HOON CHO;CHANG JONG KIM;MIN SOO KIM;DONG KYU KIM
    • Journal of Hydrogen and New Energy
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    • v.35 no.2
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    • pp.168-174
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    • 2024
  • The electrochemical hydrogen compressor was run under diverse operating conditions in order to probe its capabilities and limitations. It was found that, unlike single-cell operations, the electrochemical hydrogen compressor stack performance improved with a rise in temperature. This improvement in performance was attributed to the gradual weakening of the electro-osmotic drag over time, impacting membrane resistance. As a result of these experiments, compression levels, up to an impressive 120 bar, using the electrochemical hydrogen serial stack were achieved.

Study on Thermodynamic Performance of Electrochemical Hydrogen Compressor (전기화학적 수소 압축기의 열역학적 성능에 관한 연구)

  • TEAHEON KIM;DONGYUN KIM;DONGKEUN LEE;YOUNGSANG KIM;KOOKYOUNG AHN;YONGGYUN BAE;JINYOUNG PARK;YOUNG KIM
    • Journal of Hydrogen and New Energy
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    • v.34 no.2
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    • pp.141-148
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    • 2023
  • The thermodynamic performance of the electrochemical hydrogen compressor was analyzed to perform a comparative analysis with the performance of the mechanical compressor. The performance was analyzed through the applied current and the measured voltage value. The test results showed that the efficiency of the electrochemical hydrogen compressor was high in the low current density range. In addition, it was confirmed that the amount of increasing compress work of the electrochemical hydrogen compressor is smaller than that of the mechanical compressor. Therefore, it is expected to have higher efficiency than mechanical compression when compressed with a sufficiently high-pressure range.

A Review of Electrochemical Hydrogen Compressor Technology (전기화학적 수소 압축기 기술)

  • KIM, SANG-KYUNG
    • Journal of Hydrogen and New Energy
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    • v.31 no.6
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    • pp.578-586
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    • 2020
  • There is growing interest worldwide in a hydrogen economy that uses hydrogen as an energy medium instead of hydrocarbon-based fossil fuels as a way to combat climate change. Since hydrogen has a very low energy density per unit volume at room temperature, hydrogen must be compressed and stored in order to use as an energy carrier. There are mechanical and non-mechanical methods for compressing hydrogen. The mechanical method has disadvantages such as high energy consumption, durability problems of moving parts, hydrogen contamination by lubricants, and noise. Among the non-mechanical compression methods, electrochemical compression consumes less energy and can compress hydrogen with high purity. In this paper, research trends are reviewed, focusing on research papers on electrochemical hydrogen compression technology, and future research directions are suggested.

Study on Electrochemical Hydrogen Separation of Hydrogen and Nitrogen Mixture Gas (수소와 질소 혼합 가스의 전기화학적 수소 분리에 관한 연구)

  • DONGYUN KIM;TEAHEON KIM;DONGKEUN LEE;YOUNGSANG KIM;KOOKYOUNG AHN;YONGGYUN BAE;JINYOUNG PARK;YOUNG KIM
    • Journal of Hydrogen and New Energy
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    • v.34 no.2
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    • pp.149-154
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    • 2023
  • In the Fourth Industrial Revolution, hydrogen energy is in the spotlight. There is a difficulty in commercialization due to the lack of hydrogen infrastructure. Therefore, a lot of hydrogen should be imported and a method using ammonia is the most useful. In this study, using the mixed gas of hydrogen and nitrogen generated when ammonia is decomposed, the hydrogen separation performance is to be tested. Hydrogen was separated using an electrochemical hydrogen compressor based on a fuel cell and the experiment was conducted by changing the ratio of hydrogen and nitrogen. In addition, the performance was also compared by the difference both the pressure and the membrane.

Ammonia-fueled Solid Oxide Fuel Cell Recirculation Systems for Power Generation (암모니아 활용 고체산화물 연료전지 재순환 발전 시스템)

  • JIN YOUNG PARK;THAI-QUYEN QUACH;JINSUN KIM;YONGGYUN BAE;DONGKEUN LEE;YOUNGSANG KIM;SUNYOUP LEE;YOUNG KIM
    • Journal of Hydrogen and New Energy
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    • v.35 no.1
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    • pp.40-47
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    • 2024
  • Ammonia is drawing attention as carbon free fuel due to its ease of storage and transportation compared to hydrogen. This study suggests ammonia fueled solid oxide fuel cell (SOFC) system with electrochemical hydrogen compressor (EHC)-based recirculation. Performance of electrochemical hydrogen pump is based on the experimental data under varying hydrogen and nitrogen concentration. As a result, the suggested system shows 62.04% net electrical efficiency. The efficiency is 10.33% point higher compared to simple standalone SOFC system (51.71%), but 0.02% point lower compared to blower-based recirculation system (62.06%). Further improvement in the EHC-based SOFC recirculation system can be achieved with EHC performance improvement.