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Fuel Cells

Applications

Fuel-Cell-Powered Electric Car


Hydrogen is difficult to store in a car. However by adding a reformer methanol can be converted to hydrogen, and can thus be used for the fuel cell. To convert the electrical energy into mechanical work an electric motor and inverter are used. After the consumption and production of electricity the overall efficiency drops to about 24 to 32 percent

Portable Power

Fuel cells can be used for portable electronics like laptop computers, cellular phones or even hearing aids. In these applications, the fuel cell will provide much longer life than a battery would, and you should be able to” recharge" it quickly with a liquid or gaseous fue

Buses

The bus was one of the first applications of the fuel cell because initially, fuel cells needed to be quite large to produce enough power to drive a vehicle. In the first fuel-cell bus, about one-third of the vehicle was filled with fuel cells and fuel-cell equipment. The power density has increased to the point that a bus can run on a much smaller fuel cell.

Home Power Generation

This system uses a natural gas or propane reformer and produces up to seven kilowatts of power (which is enough for most houses). A system like this produces electricity and significant amounts of heat, so it is possible that the system could heat your water and help to heat your house without using any additional energy.

Large Power Generation Some fuel-cell technologies have the potential to replace conventional combustion power plants. Large fuel cells will be able to generate electricity more efficiently than today's power plants. The fuel-cell technologies being developed for these power plants will generate electricity directly from hydrogen in the fuel cell, but will also use the heat and water produced in the cell to power steam turbines and generate even more electricity. There are already large portable fuel-cell systems available for providing backup power to hospitals and factories. A new application is combined heat and power (CHP) for family home, office buildings and factories. This type of system generates constant electric power (selling excess power back to the grid when it is not consumed), and at the same time produce hot air and water from the waste heat. Phosphoric-acid fuel cells (PAFC) comprise the largest segment of existing CHP products worldwide and can provide combined efficiencies close to 80% (45-50% electric + remainder as thermal).
Fuel Cells		References