1.4MW Direct Fuel Cell co-generation plant now in operation at Cal State San Bernardino 7 November 2013 A new 1.4-megawatt utility-owned fuel cell is now in full operation at Cal State San Bernardino. The commissioning of a Direct Fuel Cell DFC1500 power plant, a joint project with Southern California Edison, was recently completed. Now integrated into the campus? central plant, the fuel cAdditionally, the fuel cell is highly efficient, generating more power from a given unit of fuel and lower greenhouse gas emissions compared to combustion-based power sources in a similar size range. Cogeneration DFC power plants can achieve total thermal efficiencies up to 90%, depending on the application.
The distributed generation attribute of fuel cells also enables power-generating capacity at the point of use without a commensurate investment in the transmission and distribution grid, improving energy security by reducing the need to transport electricity from remote sources.
In the spring of 2010, the California Public Utilities Commission authorized the pursuit of utility-owned fuel cell installations at California universities, recognizing fuel cells as preferred resources.
Cal State San Bernardino is the fifth California university with a Direct FuelCell installation, representing eight megawatts in total power generation capacity. This fuel cell power plant was manufactured by Fuel Cell Energy Inc. and is owned by SCE.ll is generating electricity to the utility grid with waste heat to the campus.
Electricity generated by the fuel cell is going straight into the Edison grid, and the university will be able to utilize the waste heat it produces to preheat the campus heating system, resulting in an estimated annual savings of $120,000 from avoided natural gas costs.
?Tony Simpson, senior director of facilities services at Cal State San Bernardino The combined heat and power co-generation configuration of the fuel cell will reduce the campus?s carbon dioxide emissions by reducing reliance on the high temperature hot water generators currently in operation. The fuel cell will continue to use natural gas to generate electricity through an electrochemical reaction, but because there is no combustion, emissions are significantly reduced.
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