MEA Cost Reduction through Manufacturing Approaches and Material-Level Innovation

IF 4.3 3区 工程技术 Q2 ENERGY & FUELS
Dustin Banham, Ye Peng, Kyoung Bai, Ja-Yeon Choi, Huancheng Wang
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Abstract

Globally, the demand for proton exchange membrane fuel cells (PEMFCs) has been growing exponentially. For this growth to continue, it is imperative that the cost of PEMFC technology continues to decrease. While most cost reduction strategies focus on a reduction in the loading of platinum group metals (PGMs), for a large portion of the fuel cell community, these approaches are not yet viable as they require advanced system strategies and unification of the system, stack, membrane electrode assembly (MEA), and component teams which is not widely achieved in the broader fuel cell market. Unlike prior discussions on this topic which depend upon the incorporation of novel materials or significantly larger manufacturing volumes, in this overview, more immediately achievable cost reduction methods are examined to determine a reasonable cost target that can be achieved without having to target ultralow PGM loadings. It will be shown that through rational selection of available Pt/C catalysts for specific applications, sourcing of core materials within China, and improvements in the production process to reduce waste, the MEA price can reach levels of <USD 0.06 W−1 even with conventional PGM loadings (e.g., 0.07 mg cm−2 anode and 0.3 mg cm−2 cathode).

Abstract Image

通过制造方法和材料层面的创新降低 MEA 成本
在全球范围内,质子交换膜燃料电池(PEMFC)的需求呈指数级增长。要继续保持这种增长势头,就必须继续降低 PEMFC 技术的成本。虽然大多数降低成本的策略都集中在减少铂族金属(PGM)的装载量上,但对于大部分燃料电池社区来说,这些方法还不可行,因为它们需要先进的系统策略以及系统、堆栈、膜电极组件(MEA)和组件团队的统一,而这在更广泛的燃料电池市场上还没有广泛实现。与以往关于这一主题的讨论不同的是,以往的讨论依赖于新型材料的加入或显著扩大的制造量,而在本综述中,我们将研究更多可立即实现的降低成本方法,以确定无需超低 PGM 负载即可实现的合理成本目标。研究表明,通过合理选择适用于特定应用的 Pt/C 催化剂、在中国境内采购核心材料以及改进生产工艺以减少浪费,即使采用传统的 PGM 负载(例如 0.07 mg cm-2 阳极和 0.3 mg cm-2 阴极),MEA 的价格也能达到 0.06 美元 W-1 的水平。
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来源期刊
International Journal of Energy Research
International Journal of Energy Research 工程技术-核科学技术
CiteScore
9.80
自引率
8.70%
发文量
1170
审稿时长
3.1 months
期刊介绍: The International Journal of Energy Research (IJER) is dedicated to providing a multidisciplinary, unique platform for researchers, scientists, engineers, technology developers, planners, and policy makers to present their research results and findings in a compelling manner on novel energy systems and applications. IJER covers the entire spectrum of energy from production to conversion, conservation, management, systems, technologies, etc. We encourage papers submissions aiming at better efficiency, cost improvements, more effective resource use, improved design and analysis, reduced environmental impact, and hence leading to better sustainability. IJER is concerned with the development and exploitation of both advanced traditional and new energy sources, systems, technologies and applications. Interdisciplinary subjects in the area of novel energy systems and applications are also encouraged. High-quality research papers are solicited in, but are not limited to, the following areas with innovative and novel contents: -Biofuels and alternatives -Carbon capturing and storage technologies -Clean coal technologies -Energy conversion, conservation and management -Energy storage -Energy systems -Hybrid/combined/integrated energy systems for multi-generation -Hydrogen energy and fuel cells -Hydrogen production technologies -Micro- and nano-energy systems and technologies -Nuclear energy -Renewable energies (e.g. geothermal, solar, wind, hydro, tidal, wave, biomass) -Smart energy system
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