Thermal gradient hydroelectric power system and method

摘要

A thermal gradient hydroelectric power system and method is disclosed herein. Specifically, the method can comprise cycling through a submersed evaporator warm from a natural warm water source, said warm water source having a first temperature. The method also can comprise evaporating a working fluid using said evaporator, and routing the working fluid from the evaporator through a vapor line to a condenser above said evaporator. Finally, the method can also comprise cycling through a condenser cold water from a natural cold water source, the cold water source having a second temperature, and condensing the working fluid, the working fluid having a boiling point between said first temperature and said second temperature.

主权项

1. A submersible marine hydroelectric power plant comprising:
an evaporating heat exchanger assembly at more than one hundred meters below the ocean surface to evaporate a working fluid using a warm water extracted from the ocean surface by conventional heat exchange methods comprising
an evaporating heat exchanger warm water inlet connected to one or more pumps;said one or more pumps receiving water from a natural warm water source;one or more evaporating heat exchanger coils; andan evaporating heat exchanger working fluid discharge connected to said one or evaporating heat exchanger coils;a hydraulic turbine rotatable by a condensed working fluid having a turbine system inlet and discharging said condensed working fluid into said one or more evaporating heat exchanger coils;an electric generator rotatable by said hydraulic turbine; a vapor riser having
a vapor riser first end connected to said evaporator evaporating heat exchanger working fluid discharge; anda vapor riser second end; a condensing heat exchanger assembly at or near the ocean surface to condense said working fluid, as liquid potential energy used to drive said hydroelectric turbine in a conventional manner, using the cold water extracted from the deep ocean by conventional heat exchange methods comprising
a condensing heat exchanger cold water inlet connected to one or more pumps;said one or more pumps receiving water from a natural cold water source;a condensing heat exchanger working fluid inlet connected to said vapor riser second end;one or more condensing heat exchanger coils connected to said condensing heat exchanger working fluid inlet;anda condensing heat exchanger working fluid discharge connected to said one or more condensing heat exchanger coils; a liquid line having
a liquid line first end connected to said condensing heat exchanger working fluid discharge; anda liquid line second end connected to said turbine system inlet; and wherein the submersible marine hydroelectric power plant is located at an offshore location where the ocean thermal gradient is greater than eighteen degrees Celsius and the ocean depth is greater than five hundred meters to provide hydroelectric power by utilizing a natural thermocline of an ocean.