• 제목/요약/키워드: membrane Electrode Assembly

검색결과 144건 처리시간 0.027초

Effects of Diffusion Layer (DL) and ORR Catalyst (MORR) on the Performance of MORR/IrO2/DL Electrodes for PEM-Type Unitized Regenerative Fuel Cells

  • Choe, Seunghoe;Lee, Byung-Seok;Jang, Jong Hyun
    • Journal of Electrochemical Science and Technology
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    • 제8권1호
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    • pp.7-14
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    • 2017
  • This study aims to examine the influences of substrates/diffusion layers (DL) and oxygen reduction reaction catalysts ($M_{ORR}$) on the performance of $M_{ORR}/IrO_2$/DL-type bifunctional oxygen electrodes for use in polymer electrolyte membrane (PEM)-type unitized regenerative fuel cells (URFC). The $M_{ORR}/IrO_2$/DL electrodes were prepared via two sequential steps: anodic electrodeposition of $IrO_2$ on various DLs and fabrication of $M_{ORR}$ layers (Pt, Pd, and Pt-Ru) by spraying on $IrO_2/DL$. Experiments using different DLs, with Pt as the $M_{ORR}$, revealed that the roughness factor of the DL mainly determined the electrode performance for both water electrolyzer (WE) and fuel cell (FC) operations, while the contributions of porosity and substrate material were insignificant. When Pt-Ru was utilized as the $M_{ORR}$ instead of Pt, WE performance was enhanced and the electrode performance was assessed by analyzing round-trip efficiencies (${\varepsilon}_{RT}$) at current densities of 0.2 and $0.4A/cm^2$. As a result, using Pt-Ru instead of Pt alone provided better ${\varepsilon}_{RT}$ at both current densities, while Pd resulted in very low ${\varepsilon}_{RT}$. Improved efficiency was related to the additional catalytic action by Ru toward ORR during WE operation.

기체확산층 압축률과 상대습도가 고분자전해질 연료전지 성능에 미치는 영향 (Effect of Gas Diffusion Layer Compression and Inlet Relative Humidity on PEMFC Performance)

  • 김준섭;김준범
    • 공업화학
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    • 제32권1호
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    • pp.68-74
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    • 2021
  • 고분자전해질 연료전지 성능에서 기체확산층 압축률은 계면 접촉 저항과 전극으로의 반응물 전달 및 전극 내 수분 포화도에 영향을 주는 중요한 변수이다. 본 연구에서는 국내 상용 제품인 JNT20-A3를 이용하여 기체확산층 압축률에 대한 연료전지의 성능 평가를 수행하였다. 전극면적 25 ㎠ 단위 전지를 이용하여 상대습도 조건과 압축률에 대한 전기화학 임피던스 분광법과 분극 곡선을 측정하였다. 기체확산층을 18.6%에서 38.1%으로 압축시켰을 때 상대습도 100, 25% 조건에서 ohmic 저항이 각각 8, 30 mΩ·㎠이 감소하여 기체확산층 압축률이 증가할수록 접촉 저항이 감소하는 것과 동시에 막의 수화도가 증가하는 것을 확인하였다. 상대습도 조건에 대한 ohmic 저항의 변화 경향을 통하여, 압축률을 증가시켰을 때 기체확산층의 기공이 감소하여 공기극에서의 물 역확산과 전해질 막의 수화도가 증가하는 것을 확인하였다.

고분자 전해질 연료전지의 활성화 (Activation of polymer electrolyte membrane fuel cells)

  • 고재준;고행진;송민규;양유창;이종현
    • 한국신재생에너지학회:학술대회논문집
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    • 한국신재생에너지학회 2005년도 춘계학술대회
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    • pp.330-334
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    • 2005
  • 고분자 전해질막 연료전지는 운전시 정상적인 성능을 발현하기 이해서 전지 본체 조립 후 초기 활성화 운전이 필요하다. 이러한 활성화 운전을 통해 전해질 사이의 수소이온이동 통로, 반응가스가 반응할 수 있는 촉매까지의 이동 통로, 촉매층내의 전기적 연속성을 확보함으로 연료전지는 최적의 성능을 나타낼 수 있다. 본 연구를 통해 연료전지 활성화에 영향을 미치는 요인을 찾았고, 이를 통해 효과적이고 빠른 활성화 절차에 관한 연구를 수행하였다.

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고분자 전해질 연료전지의 활성화 (Activation of polymer electrolyte membrane fuel cells)

  • 고재준;고행진;송민규;양유창;이종현
    • 신재생에너지
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    • 제1권2호
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    • pp.34-40
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    • 2005
  • 고분자 전해질막 연료전지는 운전시 정상적인 성능을 발현하기 위해서 전지 본체 조립 후 초기 활성화 운전이 필요하다. 이러한 활성화 운전을 통해 전해질 사이의 수소이온이동 통로, 반응가스가 반응할 수 있는 촉매까지의 이동 통로, 촉매층내의 전기적 연속성을 확보함으로 연료전지는 최적의 성능을 나타낼 수 있다. 본 연구를 통해 연료전지 활성화에 영향을 미치는 요인을 찾았고, 이를 통해 효과적이고 빠른 활성화 절차에 관한 연구를 수행하였다.

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Sulfonated PEEK Ion Exchange Membranes for Direct Methanol Fuel Cell Applications

  • Moon, Go-Young;Rhim, Ji-Won
    • Macromolecular Research
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    • 제15권4호
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    • pp.379-384
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    • 2007
  • Sulfonation of polyetheretherketones (PEEK) was carried out in order to fabricate commercial perfluorosulfonic acid membrane alternatives, which were characterized in terms of their ion exchange capacity, ionic conductivity, water swelling, methanol crossover and electrochemical performance in their direct application as a methanol fuel cell. A high ion exchange capacity, 1.88, was achieved with a sulfonation reaction time of 8 h, with a significantly low methanol crossover low compared to that of Nafion. However, the morphological stability was found to deteriorate for membranes with sulfonation reaction times exceeding 8 h. Electrochemical cell tests suggested that the fabrication parameters of the membrane electrode assembly based on the sulfonated PEEK membranes should be optimized with respect to the physicochemical properties of the newly prepared membranes.

A Review on Membranes and Catalysts for Anion Exchange Membrane Water Electrolysis Single Cells

  • Cho, Min Kyung;Lim, Ahyoun;Lee, So Young;Kim, Hyoung-Juhn;Yoo, Sung Jong;Sung, Yung-Eun;Park, Hyun S.;Jang, Jong Hyun
    • Journal of Electrochemical Science and Technology
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    • 제8권3호
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    • pp.183-196
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    • 2017
  • The research efforts directed at advancing water electrolysis technology continue to intensify together with the increasing interest in hydrogen as an alternative source of energy to fossil fuels. Among the various water electrolysis systems reported to date, systems employing a solid polymer electrolyte membrane are known to display both improved safety and efficiency as a result of enhanced separation of products: hydrogen and oxygen. Conducting water electrolysis in an alkaline medium lowers the system cost by allowing non-platinum group metals to be used as catalysts for the complex multi-electron transfer reactions involved in water electrolysis, namely the hydrogen and oxygen evolution reactions (HER and OER, respectively). We briefly review the anion exchange membranes (AEMs) and electrocatalysts developed and applied thus far in alkaline AEM water electrolysis (AEMWE) devices. Testing the developed components in AEMWE cells is a key step in maximizing the device performance since cell performance depends strongly on the structure of the electrodes containing the HER and OER catalysts and the polymer membrane under specific cell operating conditions. In this review, we discuss the properties of reported AEMs that have been used to fabricate membrane-electrode assemblies for AEMWE cells, including membranes based on polysulfone, poly(2,6-dimethyl-p-phylene) oxide, polybenzimidazole, and inorganic composite materials. The activities and stabilities of tertiary metal oxides, metal carbon composites, and ultra-low Pt-loading electrodes toward OER and HER in AEMWE cells are also described.

Determination of Properties of Ionomer Binder Using a Porous Plug Model for Preparation of Electrodes of Membrane-Electrode Assemblies for Polymer Electrolyte Fuel Cells

  • Park, Jin-Soo;Park, Seok-Hee;Park, Gu-Gon;Lee, Won-Yong;Kim, Chang-Soo;Moon, Seung-Hyeon
    • 전기화학회지
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    • 제10권4호
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    • pp.295-300
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    • 2007
  • A new characterization method using a porous plug model was proposed to determine the degree of sulfonation (DS) of ionomer binder with respect to the membrane used in membrane-electrode assemblies (MEAs) and to analyze the fraction of proton pathways through ionomer-catalyst combined electrodes in MEAs for polymer electrolyte fuel cells (PEFCs). Sulfonated poly(ether ether ketone) was prepared to use a polymeric electrolyte and laboratory-made SPEEK solution (5wt.%, DMAc based) was added to catalyst slurry to form catalyst layers. In case of the SPEEK-based MEAs in this study, DS of ionomer binder for catalyst layers should be the same or higher than that of the SPEEK membrane used in the MEAs. The porous plug model suggested that most of protons were via the ionomer binder (${\sim}92.5%$) bridging the catalyst surface to the polymeric electrolyte, compared with the pathways through the alternative between the interstitial water on the surface of ionomer binder or catalyst and the ionomer binder (${\sim}7.3%$) and through only the interstitial water on the surface of ionomer or catalyst (${\sim}0.2%$) in the electrode of the MEA comprising of the sulfonated poly(ether ether ketone) membrane and the 5wt.% SPEEK ionomer binder. As a result, it was believed that the majority of proton at both electrodeds moves through ionomer binder until reaching to electrolyte membrane. The porous plug model of the electrodes of MEAs reemphasized the importance of well-optimized structure of ionomer binder and catalyst for fuel cells.

URFC MEA 제작을 위한 분무법에 관한 수치 해석 연구 (A Numerical Study on the Spray Method for Manufacturing URFC MEA)

  • 김승환;서원학;서영진;황철민;이성희;정영관
    • 한국수소및신에너지학회논문집
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    • 제35권3호
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    • pp.345-351
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    • 2024
  • The unitized regenerative fuel cell (URFC) is a method that can reduce costs and increase system simplification by unitizing a fuel cell system and a water electrolysis system. The spray method is suitable as the membrane electrode assembly (MEA) manufacturing method for URFC because it is easy to control the amount of catalyst, the size of the system is small, and economical manufacturing is possible. In this study, a numerical analysis of the effect of solution concentration on the spray method was performed to use it as basic data for the spray method to be used in MEA manufacturing. As result, as the Nafion solution concentration decreases it was found that the spray speed and the mass flow rate and the discrete phase model concentration increases and the spray range widens.

이온당량(EW)이 다른 Nafion binder가 고분자 전해질 연료전지의 성능에 미치는 영향 (Effect of Nation binder with different equivalent weight on cell performance)

  • 김근호;김형준;임태훈;이관영
    • 한국신재생에너지학회:학술대회논문집
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    • 한국신재생에너지학회 2007년도 추계학술대회 논문집
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    • pp.129-132
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    • 2007
  • 고분자 전해질 연료전지의 성능에 영향을 주는 많은 인자들 중에서도 촉매층의 조성과 구조의 최적화는 성능변화에 큰 요인으로 작용 된다. 촉매층내 반응 활성점인 삼상계면을 형성시키기 위해 함침하는 Nafion binder를 anode와 cathode의 두 전극에 이온당량(Equivalent weight, EW)이 동일하게 함침시켜 그 성능을 확인하였다. 그 결과를 토대로 anode와 cathode에 이온당량을 각기 다르게 하여 각각의 전극마다 이온당량이 미치는 영향에 대해서도 살펴보았다. Anode와 cathode의 이온당량을 동일하게 EW1100, EW1000, EW900으로 변화 시켜주었을 경우 이온당량의 물성치가 상대적으로 향상된 EW900의 단위 전지 성능이 가장 우수하였으며, 이온당량이 EW900이었을 때 최적의 Nafion binder 함침량은 EW1100의 Nafion binder 함침량과 동일하였다. Anode와 cathode에 함침하는 Nafion binder의 이온당량을 각각 EW1100과 EW900, EW900과 EW1100으로 MEA를 제조하여 전극에 따라 이용당량이 미치는 영향을 살펴보았다.

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