Wartsila,Versa Power to develop fuel cell technology

A key target of the agreement is to develop commercial Wartsila fuel cell products that generate power and heat for various applications in the distributed energy and marine markets

Helsinki, Finland, June 6, 2011 — Wartsila, a provider of power solutions to both the marine and energy markets, and Versa Power Systems, a leading developer of environmentally friendly, high-power solid oxide fuel cells, announced a co-operative agreement to develop and integrate Versa Power's SOFC technology into Wartsila products.

A key target of the agreement is to develop commercial Wartsilafuel cell products that generate power and heat for various applications in the distributed energy and marine markets.

The agreement allows Wartsila to integrate VPS fuel cell stack modules, especially for larger power range products. For VPS, the agreement provides a dedicated partner with the ability to commercialize fuel cell products in large markets around the globe.

Advancing and commercializing fuel cell products is part of Wartsila's long-term development strategy. Offering customers environmentally sound and sustainable energy production technologies is an essential part of the company's strategy.

This co-operation with VPS supports the commercialization of fuel cell products by strengthening the development and supply partnerships.

Wartsila has already launched successful pilot projects using fuel cell technology supplied by Topsoe Fuel Cell A/S headquartered in Denmark, and this co-operation will continue as planned. In 2008, Wartsila delivered a unique fuel cell unit that operates on landfill gas and produces electricity and heat for the city of Vaasa in Finland.

In the summer of 2010, a WFC20 fuel cell unit was installed onboard the Undine, a car carrier owned by Sweden's Wallenius Lines, for tests associated with the METHAPU project. Additionally, Wartsila has developed 50 kW WFC50 power units for internal validation.

Fuel cells are electro-chemical devices that combine a fuel source gas with oxygen to produce electricity, heat, and water. The absence of combustion processes reduces harmful emissions of nitrogen and sulphur oxides and particulate emissions are essentially zero.

As electricity is generated directly and involves no intermediate mechanical or thermal processes, fuel cells can also be more efficient than conventional combustion-based technologies.

Fuel cells are considered to be one of the most exciting energy technologies for the future. Power solutions based on fuel cell technology are expected to offer benefits in power generation applications as well as in the shipping industry, where international emission regulations are becoming increasingly stringent.

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