The present invention relates to a fuel cell module with heat exchange and electricity
exchange functions, consisting of one heat dissipation module and one electricity
exchange module. The heat dissipation module is composed of several hydrogen cans
and one heat dissipation base contacted with the CPU and the electricity exchange
module contains the hydrogen release pressure platen, the flow rate control valve
and the Proton Exchange Membrane Systems. The flow rate control valve controls
the hydrogen released from the hydrogen cans that absorbs the heat generated by
the CPU rapidly for heat exchange. The released hydrogen is transmitted to the
Proton Exchange Membrane Systems that converts chemical energy into electric energy
and is then utilized by the computer. Such heat exchange of the CPU provides the
computer with D.C. power, clears up the heat dissipation problem, and substitutes
the portable power for current notebooks.
