BRAMBLE ENERGY REVEALS SOLUTION TO CREATING WORLD’S LOWEST COST HYDROGEN FUEL CELL TECHNOLOGY

BRAMBLE ENERGY REVEALS SOLUTION TO CREATING WORLD’S LOWEST COST HYDROGEN FUEL CELL TECHNOLOGY

  • Bramble Energy’s latest whitepaper reveals its solution to achieving game-changing $100 per kilowatt fuel cell stack
  • Stack cost is ten-times lower than existing technology and world’s cheapest to date
  • Bramble reveals a $60/kW stack can be brought to market at speed through scalability
  • Current fuel cell costs remain major barrier to mass hydrogen adoption
  • Whitepaper highlights ground breaking printed circuit board fuel cell (PCBFC™) innovation as solution to reducing cost per kW for fuel cells
  • Bramble’s technology leverages existing PCB industry, eliminating need for capital investments
  • Digitally tooled fuel cell design empowers customers to control their own supply chain
  • Revolutionary technology provides a viable route for accessing the hydrogen economy as its PCBFC™ can be manufactured in almost any size or arrangement at much greater speed and scale than traditional electrochemical stacks, at a much lower cost
  • High-res media images: https://bit.ly/BrambleEnergy

Crawley, UK, October 03, 2023: Bramble Energy, a leading innovator in fuel cell technology, has published a pivotal whitepaper identifying a clear path to creating the world’s lowest cost fuel cell – an innovation which will revolutionise the hydrogen economy and drive mass adoption across mobility and energy sectors.

The whitepaper reveals Bramble Energy’s solution to creating a $100 per kilowatt stack achievable today – ten times cheaper than current traditional fuel cell costs – and has identified it could reach as low as $60 at unprecedented speed to market as a result of scale. 

Dropping below industry price targets within such a game-changing timeframe will eradicate the high costs of fuel cell technology which remain the major barrier to wide hydrogen adoption, particularly in sectors such as transportation.

Current fuel cell technologies exceed $1000/kW, so it is a major leap to achieve $100/kW. The paper presents Bramble Energy’s ground breaking patented printed circuit board (PCB) fuel cell technology to bring industry towards this goal through innovative design, materials selection, and manufacturing processes.

The company’s whitepaper highlights with manufacturing volume increases, achieving economies of scale in terms of purchasing power and optimisation of process flows it has the potential to achieve a PCB cost of $60/kW at 1.5 Wcm-2 power rating should production be in the hundreds of megawatts.

Bramble continues to innovate and has developed a new stack structure, with this latest evolution in structure enabling this significant cost reduction.

Currently in early phase testing and in-work through its UK supply chain, short stack testing of this technology will be conducted in Q4 2023 after further core module optimisation; with full stack testing expected in Q2 2024.

Dr Tom Mason, Bramble Energy co-founder and CEO, said: “Industries are in desperate need of attainable, sustainable, clean energy solutions, so our mission at Bramble Energy is removing the biggest barriers to hydrogen adoption. With high cost hindering the hydrogen fuel cell industry for years, this whitepaper demonstrates how our printed circuit board fuel cell technology can deliver fuel cells at an achievable cost and the speed at which it be realised compared to existing technology. We hope this paper will provide industries from mobility to energy storage the encouragement for fuel cell technology to reach mass adoption as quickly as possible, and as a result, begin decarbonising immediately.”

Innovation overcomes barriers to hydrogen fuel cell adoption

The whitepaper details overcoming the primary challenge of reducing the cost of fuel cells with Bramble leveraging standardised PCB materials and an existing manufacturing route, eliminating the need for capital investments (CAPEX). This approach enables Bramble to reduce the cost per kW, a critical factor in achieving cost-competitive fuel cells.

Unlike traditional fuel cell technologies, Bramble’s PCB-based approach allows for high-volume production within existing facilities. The throughput of a UK prototyping PCB facility is in the region of 250 panels per day. Larger facilities will typically handle 25,000 panels per day. High-volume facilities also work with larger panel sizes, which are more cost-effective and allow further freedom of design. PCB factories worldwide adhere to manufacturing standards such as ISO9001, ensuring consistent quality and production capacity.

Printed circuit boards (PCBs) are widely used in various applications from mobile phones to televisions and laptops, with a global manufacturing base worth over $70 billion annually. Bramble Energy leverages this extensive PCB manufacturing network, utilising standard production methods and materials to deliver fuel cells of various shapes and sizes for diverse applications.

The core substrate of Bramble’s PCB fuel cell is a standard PCB laminate, which serves as a bipolar plate, providing structural integrity and fulfilling all typical and complex fuel cell functional roles including gasketing, current collection, sealing and more. These standardised materials are widely used across the PCB industry, and this has resulted in significant economies of scale, accessible even at the smallest production and prototype values.

Bramble Energy’s digitally tooled fuel cell design enables the production of fuel cells in various sizes and power outputs, empowering customers to control their own supply chain. Through joint development agreements (JDAs), Bramble collaborates with customers to develop customised solutions, and customers can then manufacture the products using PCB factories within their existing supply chain.

Bramble Energy’s technology is providing a generational leap in the global transition to hydrogen as a clean energy source. The company’s breakthroughs in cost-effective fuel cell technology have the potential to accelerate the adoption of hydrogen across industries, contributing to a sustainable and green future.

The full whitepaper can be accessed here:

Discover The Pathway to The Lowest Cost Fuel Cell

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