Dynamic heat sink engine
First Claim
1. A dynamic heat sink engine, comprising:
- a. a storage vessel, having a working fluid outlet, a working fluid inlet, a vapor outlet, and a liquid inlet, a lower portion of said storage vessel containing a working fluid in liquid form, at or near its boiling point;
b. a first working fluid circuit extending between said working fluid outlet and said working fluid inlet;
c. a liquid pump having an inlet and an outlet, a first stream of said first working circuit extending between said working fluid outlet and said pump inlet;
d. a vaporizer having a liquid line and a vapor line passing therethrough, said vaporizer including heat exchanger means therein in thermal communication with said liquid line and said vapor line, a second stream of said first working circuit extending between said pump outlet and a first end of said liquid line;
e. a heater having an inlet and an outlet, a third stream of said first working circuit extending between a second end of said liquid line and said inlet of said heater;
f. an expansion engine having an inlet, an outlet, and a rotary output shaft a fourth stream of said first working circuit extending between said outlet of said heater and said inlet of said expansion engine;
g. an electrical generator connected to said rotary output shaft of said expansion engine;
h. a fifth stream of said first working circuit extending between said outlet of said expansion engine and a first end of said vapor line;
i. a sixth stream of said first working circuit extending between a second end of said vapor line and said working fluid inlet, whereby working liquid is pumped to a higher pressure by said pump, vaporized by said heat exchanger means, further heated by said heater, expanded isentropically in said expansion engine whereby said rotary output shaft drives said generator producing electricity, and whereby said working fluid passes through said fifth stream of said first working circuit in a super-heated state and at a pressure that is higher than the pressure in said storage vessel, said working fluid is partially cooled passing through said heat exchanger means and passes through said sixth stream of said first working circuit and expanded adiabiatically into said storage vessel for its temperature to match that of the fluid in said vessel.
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Abstract
A dynamic heat sink engine including a storage vessel having a working fluid outlet and a working fluid inlet. The lower portion of the storage vessel contains a cryogenic working fluid, such as liquid hydrogen, at a temperature at near its boiling point. The engine further includes a working fluid circuit extending between the working fluid outlet and the working fluid inlet of the storage vessel. The working fluid circuit includes the serial connection of the following components from the working fluid outlet to the working fluid inlet: a fluid pump; a vaporizer having a liquid line passing therethrough; a heater; an expansion engine having a rotary output shaft; an electrical generator connected to the rotary output shaft of the expansion engine; a vapor line passing through the vaporizer, the vaporizer including a heat exchanger providing thermal communication between the liquid line and the vapor line.
112 Citations
27 Claims
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1. A dynamic heat sink engine, comprising:
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a. a storage vessel, having a working fluid outlet, a working fluid inlet, a vapor outlet, and a liquid inlet, a lower portion of said storage vessel containing a working fluid in liquid form, at or near its boiling point; b. a first working fluid circuit extending between said working fluid outlet and said working fluid inlet; c. a liquid pump having an inlet and an outlet, a first stream of said first working circuit extending between said working fluid outlet and said pump inlet; d. a vaporizer having a liquid line and a vapor line passing therethrough, said vaporizer including heat exchanger means therein in thermal communication with said liquid line and said vapor line, a second stream of said first working circuit extending between said pump outlet and a first end of said liquid line; e. a heater having an inlet and an outlet, a third stream of said first working circuit extending between a second end of said liquid line and said inlet of said heater; f. an expansion engine having an inlet, an outlet, and a rotary output shaft a fourth stream of said first working circuit extending between said outlet of said heater and said inlet of said expansion engine; g. an electrical generator connected to said rotary output shaft of said expansion engine; h. a fifth stream of said first working circuit extending between said outlet of said expansion engine and a first end of said vapor line; i. a sixth stream of said first working circuit extending between a second end of said vapor line and said working fluid inlet, whereby working liquid is pumped to a higher pressure by said pump, vaporized by said heat exchanger means, further heated by said heater, expanded isentropically in said expansion engine whereby said rotary output shaft drives said generator producing electricity, and whereby said working fluid passes through said fifth stream of said first working circuit in a super-heated state and at a pressure that is higher than the pressure in said storage vessel, said working fluid is partially cooled passing through said heat exchanger means and passes through said sixth stream of said first working circuit and expanded adiabiatically into said storage vessel for its temperature to match that of the fluid in said vessel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A dynamic heat sink engine, comprising:
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a. a storage vessel, having a working fluid outlet and a working fluid inlet, a vapor outlet, a liquid inlet, and a liquifier, said liquifier having an inlet in fluid communication with said vapor outlet and an outlet in fluid communication with said liquid inlet of said storage vessel, a lower portion of said storage vessel containing a working fluid in liquid form, at or near its boiling point; b. a working fluid circuit extending between said working fluid outlet and said working fluid inlet, said working fluid circuit including, in serial connection therein;
a pump;
a vaporizer having a liquid line passing therethrough;
a heater;
an expansion engine having a rotary output shaft;
an electrical generator connected to said rotary output shaft of said expansion engine;
a vapor line passing through said vaporizer, said vaporizer including heat exchanger means therein in thermal communication with said liquid line and said vapor line, whereby working liquid is pumped to a higher pressure by said pump, vaporized by said heat exchanger means, further heated by said heater, expanded isentropically in said expansion engine whereby said rotary output shaft drives said generator producing electricity, and whereby said working fluid exits from said expansion engine in a super-heated state and at a pressure that is higher than a pressure within said storage vessel, said working fluid is partially cooled passing through said heat exchanger means and is expanded adiabiatically into said storage vessel for its temperature to match that of the working fluid in said vessel and a fraction of said adiabiatically expanded fluid flashes to vapor phase and passes through said liquifier, and is returned to said storage vessel as a liquid. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A dynamic heat sink engine, comprising:
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a. a storage vessel, having a working fluid outlet, a working fluid inlet, and a vapor outlet, a lower portion of said storage vessel containing a working fluid in liquid form, at or near its boiling point; b. a working fluid circuit extending between said working fluid outlet and said working fluid inlet, said working fluid circuit including, in serial connection therein;
a pump;
a vaporizer having a liquid line passing therethrough;
a heater;
an expansion engine having a rotary output shaft;
an electrical generator connected to said rotary output shaft of said expansion engine;
a vapor line passing through said vaporizer, said vaporizer including heat exchanger means therein in thermal communication with said liquid line and said vapor line, and said vaporizer further including a vapor flash line therein, said vapor flash line being in thermal communication with said heat exchanger, and said vapor outlet and said vapor flash line being in fluid communication, whereby working liquid is pumped to a higher pressure by said pump, vaporized by said heat exchanger means, further heated by said heater, expanded isentropically in said expansion engine whereby said rotary output shaft drives said generator producing electricity, and whereby said working fluid exits from said expansion engine in a super-heated state and at a pressure that is higher than a pressure within said storage vessel, said working fluid is partially cooled passing through said heat exchanger means and is expanded adiabiatically into said storage vessel for its temperature to match that of the working fluid in said vessel, and whereby vapor heated within said flash line is further heated in said vaporizer and outputted as fuel. - View Dependent Claims (25, 26, 27)
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Specification