GORE-SELECT® Membranes(PEM) for Fuel Cells
Gore's PEM fuel cell membrane helps OEMs worldwide lower total cost of ownership while increasing fuel efficiency, enabling smaller stacks, and offering greater design flexibility.
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Industry Articles
Gore is a pioneer in the proton exchange membranes (PEMs) fuel cell industry, and a leader in membrane characterization and testing. We spoke to Simon Cleghorn, global product specialist, about how Gore's holistic testing capabilities can benefit customers and accelerate the transition to net-zero.
Overview
Hydrogen fuel cell technology addresses the challenges OEMs across the automotive and heavy-duty transportation sectors face as they transition to more sustainable and efficient clean energy sources. Proton exchange membrane (PEM) technology has been increasingly used in passenger vehicles due to its high-power density, durability, and efficiency.
With a 50% decline in total cost of ownership (TCO) forecast over the next decade for fuel cell electric vehicles, PEM will play a pivotal role in the transition to clean transportation.
For heavy-duty vehicles (HDV), fuel cell membranes address the increasing demands for higher power output, extended operation lifecycle, and smaller systems while approaching cost parity with diesel. With the right PEM fuel cell membrane manufacturer, OEMs can minimize trade-offs in achieving minimal TCO.
PEM fuel cell membranes help OEMs lower total cost of ownership in the long-term.
Gore: A Leader in PEM Fuel Cell Technology
For over 25 years, Gore has partnered with nearly all the major fuel cell system developers and OEMs worldwide.
Gore has:
R&D leaders can rely on Gore’s extensive expertise and TCO approach to identify efficient, cost-effective solutions for the global transportation industry.
High performing, durable fuel cell membranes.
25 years fuel cell manufacturing expertise and consultation.
Proven, stable supply chain with reliable delivery.
Consistent product uniformity - ISO 9001 and 14001 certified.
Features & Benefits
PEM fuel cell design can have a significant impact on overall system costs. Designs must consider both the upfront capital expenditure (CAPEX) and operating costs (OPEX) over the vehicle lifetime. Our reinforced, thinner GORE-SELECT® Membrane PEM reduces the trade-off between power density, durability, and gas crossover.
Minimizing Trade-Offs While Reducing TCO
OEMs can leverage Gore’s expertise and product leadership in identifying pathways to lower total cost of ownership in heavy-duty fuel cell applications.
Key Advantages
With the unique thinner, ePTFE-reinforced design of GORE-SELECT® Membrane PEM, manufacturers can be confident their requirements for performance, reliability, and cost are met with minimal compromises.
REDUCE OVERALL STACK COSTS
GORE-SELECT® Membranes offer lower proton resistance (high proton conductivity) to help reduce overall upfront and operational stack costs.
IMPROVE FUEL EFFICIENCY
Lower proton resistance (high proton conductivity) enables fuel cell stacks to operate at higher voltage and deliver the same power output. This can result in improved fuel efficiency and lower operating costs.
MITIGATE MECHANICAL DEGRADATION AND CHEMICAL CONTAMINATION
Even in extreme operating conditions, our strong, long-lasting PEM ensures high mechanical and chemical durability resulting in long-term reliability that contributes to lower overall costs and TCO.
Applications
Fuel cells’ higher energy density offers greatest value to applications that are of higher weight and require higher power and greater range, such as commercial vehicles and diesel replacement applications.
Technical Specs
The GORE-SELECT® Membrane: Product Line Up
| Membrane Name | Lead Application / Market | Value |
|---|---|---|
| M775.15 | Commercial vehicle and other heavy-duty applications | High chemical durability & high power density |
| M788.12 | Automotive, back-up power, range extender, fork-lift and portable | High mechanical durability & low gas permeance & cost-effective |
| M765.08 | Passenger vehicle | High power density under dry condition & cost-effective |
| M665.12 | Stable power generation | High chemical and mechanical durability |
For information about GORE-SELECT® Membranes M735.18 and M740.18, please contact your local Gore representative.
GORE-SELECT® Membrane Attributes
Each GORE-SELECT Membrane achieves these key characteristics to varying degrees, according to operational requirements and customer-defined specifications. This allows us to offer solutions that are optimized for multiple industries and applications.
Resources
Data Sheet: Driving Fuel Cell Industry Change with GORE-SELECT® Membranes
Data Sheets, 641.29 KB
White Paper: GORE® Fuel Cell Technologies: Consistent Quality at Scaled-Up Volumes
White Papers, 827.83 KB
White Paper: GORE® Fuel Cell Technologies: Supply Security and High Capacity
White Papers, 581.71 KB
View all resources for GORE-SELECT Membranes(PEM) for Fuel Cells
最新ニュース
Hyundai Motor Company(以下、Hyundai Motor )、Kia Corporation(以下、Kia)、W. L. Gore & Associates(以下、ゴア)は、韓国の麻北(マブク)エコフレンドリーR&Dセンターにおいて、水素燃料電池システム用の先進的な高分子電解質膜(PEM)の共同開発に関する契約を締結しました。
液式鉛バッテリーの充電中に発生する水の電気分解による電解液減少は劣化要因の一つです。新開発のゴア® 触媒デバイスは水の電気分解で発生する水素と酸素を瞬時に水に再結合することにより減液を抑制し、バッテリーの寿命を延ばします。
ゴアは、高度な材料工学と信頼できるサプライチェーンにより、燃料電池業界のリーダーと協力し、純水素型燃料電池を利用して発電する「RE100化ソリューション」*1の開発を支援しています。
本日、バラード・パワー・システムズ社とW. L. Gore & Associatesが複数年の燃料電池供給契約の締結を発表しました。第6回国際水素燃料電池自動車会議(FCVC 2021)にて行われた署名式では、両社のこれまでの提携と供給関係を称えるものとなりました。
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Not for use in food, drug, cosmetic or medical device manufacturing, processing, or packaging operations.
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