Patent ID: 7603861
Filing Date: 2009-10-20
Classification: F01K

Abstract:
1. A system for recuperating, increasing and generating energy inherent within a heat source comprising: a container having an internal compartment that is partitioned forming a first section; a second section; a third section; and a fourth section; said first section containing a heat exchanger component, said second section containing an evaporative cooler component, said third section containing a condenser component, said fourth section containing a physical reaction system and a fan, each said section being in open communication with each other via an air coil arrangement associated with said heat exchanger, a ventilated fluid recycling membrane associated with said evaporative cooler component and an air coil arrangement associated with said condenser component each of which are installed inline within each said component, each said air coil arrangement and said ventilated fluid recycling membrane with said fan in combination allow outside ambient air to be drawn into and throughout each said component and forcibly directed outwardly from within said container via an opening located on said container, said physical reaction system including a housing, said housing being partitioned forming an evaporator expansion high pressure chamber and an accumulator compartment, said accumulator compartment having a motor mounted therein, said evaporator expansion high pressure chamber being in open communication with said motor, said evaporator expansion high pressure chamber having an inlet for receiving a hot oil and a liquid refrigerant therein, upon mixing of said hot oil and said liquid refrigerant within said evaporator expansion high pressure chamber a physical reaction occurs causing expansion in the form of a foam which in turn results in increased pressure/volume, due to said increased pressure/volume said foam is forcibly directed into said motor thus providing a compression force for operating said motor, upon said foam being ejected from within said motor into said accumulator chamber said foam is transformed into a vapor, within said accumulator chamber said vapor is separated allowing said oil to separate back into the original state and accumulate on the bottom of said accumulator, said oil is circulated full-flow via an oil pump from within said accumulator chamber throughout said heat exchanger then into said evaporator expansion high pressure chamber thus completing the oil circulating cycle, said vapor is directed from within said accumulator chamber into said condenser via a vapor delivery conduit, within said condenser said vapor when condensed transforms back into said liquid refrigerant, within said condenser said liquid refrigerant is directed outwardly there from through a liquid refrigerant delivery conduit via a refrigerant pump back into said evaporator expansion high pressure chamber thus completing the refrigerant circulating cycle and said motor having a rotary shaft extending there from for performing work.