HPM-80
Genevos
Boats
The HPM-80 provides a hydrogen solution for high energy needs that can be stacked to achieve multi-MW output for auxiliary, hybrid or full H2 power. Application examples include large motor yachts, chase boats, service vessels, CTVs, high speed ferries, fishing vessels, cargo ships, cruise ships, large service vessels. HPM-80 kW Product characteristics: HYDROGEN POWER MODULES Genevos offers a scalable solution based on three marine fuel cell packs to meet customised power needs across the maritime sector. The HPM base power options include 15 kW, 40 kW and 80 kW modules. These modules can be connected in parallel or stacked to provide power solutions up to multi-megawatt scale. The HPM-80 provides a hydrogen solution for high energy needs that can be stacked to achieve multi-MW output for auxiliary, hybrid or full H2 power. Application examples include large motor yachts, chase boats, service vessels, CTVs, high speed ferries, fishing vessels, cargo ships, cruise ships, large service vessels. Certified to the highest standards of commercial operation and fully-integrated with Balance of Plant, our award-winning technology revolutionises maritime power by offering a low weight and low volume zero emissions solution with high scalability and redundancy. This modular solution can be applied across the maritime sector to decarbonise vessels through primary, hybrid or auxiliary integration in small to large vessels including yachts, ferries, service vessels, inland transport and shipping. PRODUCT FEATURES Zero emissions: no vibration and low noise
Practical: compact and low weight
Stackable: to high power
Modular: enabling high redundancy
Marinised: protection against humidity & salinity
Durable: resistant graphite plate technology
Certified: for use on commercial vessels
Plug & play: fully integrated balance of plant
Efficient: adaptive power management HIGH POWER SYSTEM ADDITIONAL FEATURES Stackability: 80kW stackable to create 160kW to 1MW+ systems High redundancy: failure of one module does not impact system functionality
Optimised durability: through advanced system control
Optimised fuel cell efficiency: through advanced system control