Power conversion systems
First Claim
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1. A power plant, comprising:
- a compressed air storage system including an air compressor and a compressed air storage vessel;
two or more distributed power modules fluidically coupled in parallel to the compressed air storage system, each of said two or more distributed power modules further including a heat source;
an expander device having an inlet fluidically coupled to said compressed air storage system, and an outlet fluidically said two or more distributed power modules, said expander for converting energy of a gas received at said inlet to mechanical power;
a heat exchanger fluidically coupled to the expander device inlet and the expander device outlet for effecting a transfer of heat from gas exiting the expander device to gas entering the turbine expander;
a generator connected to said expander device for converting mechanical power to electrical power;
said expander device comprising a turbine expander having a rotatable shaft, an inlet fluidically coupled to said compressed air storage system, and an outlet fluidically said two or more distributed power modules, said turbine expander for converting energy of a gas received at said inlet to rotary shaft power;
a controller for optimizing a speed of the turbine expander responsive to any one or more of temperature of an inlet gas, temperature of an outlet gas, pressure or an inlet gas, or pressure of an outlet gas; and
a supplementary hydrogen or hydrocarbon-based selectable heat supply for heating a gas to be delivered to the inlet of said turbine expander.
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Abstract
Power generation systems and methods are provided with features directed to various innovations including ones relating to the conversion of concentrated solar and biomass energy to electricity, load-shifting of electrical power supply systems, gas turbine devices and cycles, and power plant control systems.
31 Citations
8 Claims
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1. A power plant, comprising:
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a compressed air storage system including an air compressor and a compressed air storage vessel; two or more distributed power modules fluidically coupled in parallel to the compressed air storage system, each of said two or more distributed power modules further including a heat source; an expander device having an inlet fluidically coupled to said compressed air storage system, and an outlet fluidically said two or more distributed power modules, said expander for converting energy of a gas received at said inlet to mechanical power; a heat exchanger fluidically coupled to the expander device inlet and the expander device outlet for effecting a transfer of heat from gas exiting the expander device to gas entering the turbine expander; a generator connected to said expander device for converting mechanical power to electrical power; said expander device comprising a turbine expander having a rotatable shaft, an inlet fluidically coupled to said compressed air storage system, and an outlet fluidically said two or more distributed power modules, said turbine expander for converting energy of a gas received at said inlet to rotary shaft power; a controller for optimizing a speed of the turbine expander responsive to any one or more of temperature of an inlet gas, temperature of an outlet gas, pressure or an inlet gas, or pressure of an outlet gas; and a supplementary hydrogen or hydrocarbon-based selectable heat supply for heating a gas to be delivered to the inlet of said turbine expander.
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2. A power plant, comprising:
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a source of compressed air including a compressed air storage vessel and one or more air compressors for charging said storage vessel; a first power generator module including a first recuperative heat exchanger, a first heat source, and a first expander turbine module; said first recuperative heat exchanger fluidicly coupled to said storage vessel for preheating compressed air received from said storage vessel; said first heat source fluidicly coupled to said first recuperative heat exchanger for heating preheated compressed air received from said first recuperative heat exchanger; said first expander turbine module fluidicly coupled to said first heat source for receiving heated compressed air from said first heat source and generating rotary mechanical power from said heated compressed air, said first expander turbine module including a first shaft for power extraction; a second power generation module including a second recuperative heat exchanger, a second heat source, and a second expander turbine module; said second recuperative heat exchanger fluidicly coupled to said first expander turbine module for preheating air received from said first expander turbine module; said second heat source fluidicly coupled to said second recuperative heat exchanger for heating preheated air received from said second recuperative heat exchanger; and said second expander turbine module fluidicly coupled to said second heat source for receiving heated air from said second heat source and generating rotary mechanical power from said heated air, said second expander turbine module including a second shaft connected to an electrical generator or alternator. - View Dependent Claims (3, 4, 5, 6, 7, 8)
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Specification
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Current AssigneeBrayton Energy, LLC
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Original AssigneeSouthwest Solar Technologies Inc.
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InventorsKesseli, James B., Wolf, Thomas L.
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Primary Examiner(s)Nguyen; Hoang M
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Application NumberUS12/026,134Time in Patent Office1,316 DaysField of Search606/12, 606/051, 60677-679US Class Current60/677CPC Class CodesF01D 17/143 the shiftable member being ...F02C 1/05 characterised by the type o...F02C 3/28 using a separate gas produc...F02C 6/16 for storing compressed airF05D 2220/74 a gas turbineF05D 2220/76 an electrical generatorF05D 2240/40 Use of a multiplicity of si...F05D 2270/301 PressureY02E 50/10 Biofuels, e.g. bio-dieselY02E 60/16 Mechanical energy storage, ...Y02E 70/30 Systems combining energy st...
