Patent attributes
The present invention features a rapid fire rapid response power conversion system comprising (a) a chamber having at least one fluid port configured to supply combustible fluid to the chamber, and an out-take port; (b) a compressor for supplying compressed combustible fuel to the chamber at a variable pressure to at least partially facilitate combustion therein; (c) a controller for initiating and controlling a combustion of the combustible fluid in a combustion portion of the chamber to generate energy; (d) a rapid response component in fluid communication with the chamber and situated adjacent the combustion portion of the chamber, wherein the rapid response component is configured to draw an optimized portion of the energy generated from the combustion and to convert this optimized portion of energy into kinetic energy; and (e) a dynamic mass structure situated between the rapid response component and an energy transfer component and allowing the rapid response component and the energy transfer component to be independent of one another, wherein the dynamic mass structure is configured to receive and store the kinetic energy from the rapid response component upon being acted upon by the rapid response component, wherein the dynamic mass structure is displaced a pre-determined distance and at a given velocity such that it is caused to impact the energy transfer component, thereby transferring substantially all of the kinetic energy stored therein into the energy transfer component. The transfer of stored kinetic energy into the energy transfer component by the dynamic mass structure effectively causes the energy transfer component to displace, wherein the displacement is used to perform work used to power the device or system operable with the energy transfer component.
