Panasonic launched the Panasonic Fuel Cell Development Office Europe (PFCOE) in Langen, Germany. The facility, situated in Panasonic’s European R&D center in Germany (PRDCG), will focus on developing residential fuel cells for the European market in close collaboration with leading European utility companies.
Panasonic has been developing residential fuel cells micro CHP (combined heat and power system) since 1999 and launched the world’s first system, the ENE FARM, in May 2009 in Japan.
The center in Langen will focus on developing and adapting the fuel cells to reflect the different operational conditions between Europe and Japan. As the operation of fuel cells depends on the composition of natural gas, it is necessary for the fuel cell to be adapted to European gas conditions. The fuel cell micro CHP generates electricity through a chemical reaction between oxygen in the atmosphere and hydrogen extracted from natural gas (methane, CH4). The heat generated as a by-product of this process is also used for home heating and hot water supplies. In Japan, a house powered by an ENE FARM fuel cell can expect to save about 1.5 tons of CO2 emissions per year compared with a house powered by electricity from thermal power station and a gas heating system.
Laurent Abadie, Chairman and CEO, of Panasonic Europe said: “We have a global goal to become the ‘number one green innovation company in the consumer electronics industry’ by 2018. As part of this goal, we in Europe are committed to providing products to the market that enable our customers, around the world, to live in a more sustainable way.”
“Our fuel cell micro CHP are already used in our “eco ideas house” in Japan which is a concept house that shows how with the right technology we can all have homes that store, create and save energy with virtually zero CO2 emissions. We haven’t brought the fuel cells to the European market before but with our new R&D center dedicated to the advancement of fuel cell technology in Europe, we are one step closer to realising our goal for 2018 and ensuring that our customers have access to green technologies globally while building on Panasonic’s green energy business and sales.”
This blog is focused on trends in battery technology and other types of energy storage that are used for smart grid load leveling and stabilization, and as back-up power for renewable energy sources such as photovoltaics/solar power, hydro and wind energy. Trends in lithium ion batteries, lead-acid, metal-air, NaS (sodium sulfur), ZnBr (zinc-bromine) batteries will be covered, as well as compressed air energy storage (CAES), flywheels, fuel cells and supercapacitors.
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