Press Information
Innovative Marine-use Fuel Cell System Marks World First Passing Trial Operation in Actual Marine Setting
-- Commercialization of Compact, High-efficiency, High-reliability System Now Clearly in View --
-- Commercialization of Compact, High-efficiency, High-reliability System Now Clearly in View --
Tokyo, November 13, 2013 - An innovative closed-cycle fuel cell system jointly developed by Mitsubishi Heavy Industries, Ltd. (MHI) and the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) has become the world's first system of its kind to perform successfully in a test to supply power to observation equipment in actual use at sea. With this success, this compact fuel cell system, which has cleared earlier technical hurdles through the adoption of a new gas circulation system and other innovations, is expected to supersede conventional storage batteries and fill a major role as an underwater power supply for operating seabed-installed observation instruments and marine research vessels over long periods of time.
Today many different observation platforms are in use at sea, including deep-sea locations: for example, manned submersible ships, unmanned research vessels, towing units and landers. In recent years, however, as their equipment has become increasingly sophisticated and observation durations have lengthened, power requirements have grown to a level beyond the capacity of storage batteries having limited output capabilities. To supply the power needed, closed-cycle fuel cell systems have for some time been under development; but favorable results had not been obtained owing to issues such as the inability to achieve compact system size because of the need for gas circulation equipment and humidifiers to add dampness to the gas, compounded by the inability to prevent minuscule leaks of hydrogen gas.
The HEML fuel cell system newly developed by MHI and JAMSTEC has, through the adoption of a new structure in the gas circulation system, etc., resolved these various problems that until now impeded the creation of a viable system. Specifically, the structure uses valve operation to switch between the upstream and downstream sides of the fuel cell stack at fixed intervals – a configuration that has eliminated the need for a blower and humidifier, which together made large system size inevitable. Also, by making the fuel cell stack gastight, hydrogen gas leaks have been eliminated. The achievement of a compact-sized unit further enables reduction in the system's own energy consumption and enables faster startup time.
Now that commercialization of a compact, high-efficiency, high-reliability fuel cell system has come into view with the successful testing of MHI and JAMSTEC's new system, going forward development will proceed further toward the achievement of a fully practical closed-cycle fuel cell system offering output in the several kilowatt (kW) class.
* Note: Blower-less, humidifier-less and leak-less
■ Overview of the Closed-cycle HEML Fuel Cell System
Type | Standalone action type transportable marine fuel cell system |
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Operating temperature | 0-45°C | Condensation-free |
Storage temperature | 0-60°C |
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Vibration/shock | Onboard use possible |
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HEML fuel cell | Diameter: 600mm, Length: 800mm, | Not including pressure- resistant container |
Fuel | Pure hydrogen | Supplied from outside pressure-resistant container |
Oxidant | Pure oxygen | Supplied from outside pressure-resistant container |
About MHI Group
Mitsubishi Heavy Industries (MHI) Group is one of the world’s leading industrial groups, spanning energy, smart infrastructure, industrial machinery, aerospace and defense. MHI Group combines cutting-edge technology with deep experience to deliver innovative, integrated solutions that help to realize a carbon neutral world, improve the quality of life and ensure a safer world. For more information, please visit www.mhi.com or follow our insights and stories on spectra.mhi.com.