System for chilling inlet air for gas turbines
DC
First Claim
Patent Images
1. A method for chilling inlet air to a gas turbine power plant, comprising:
- a. providing a system of circulating chilling water including a chilling system that includes at least a first chiller and a second chiller, the first and second chillers being arranged in series, wherein water can pass through the first and second chillers, the water passing through the first chiller being lowered to a first temperature, the water passing through the second chiller being lowered to a second temperature that is lower than the first temperature, thus providing a staged temperature drop;
b. providing an inlet air chiller for lowering the temperature of the inlet air being fed to a gas turbine compressor through heat transfer between the circulating chilling water and the inlet air;
c. providing a thermal water storage tank which is operably connected to the system of circulating chilling water, the thermal water storage tank containing chilling water having a bottom;
d. during a charge cycle, removing chilling water from the thermal water storage tank, passing at least a portion of the removed water through the chilling system without passing that portion of chilling water through the inlet air chiller to lower the temperature of water passing through the chilling system and then introducing at least a portion of that chilled water into the thermal water storage tank at a point proximate the bottom of the tank, wherein the average temperature of the chilling water in the thermal water storage tank is lowered; and
e. during a discharge cycle, chilling the inlet air by removing chilling water from the thermal water storage tank, from a point proximate the bottom of the tank and then passing at least a portion of that removed chilling water to the inlet air chiller to make heat transfer contact between that portion of chilling water and the inlet air, such that the temperature of the inlet air is lowered from a high temperature of from about 80°
F. to about 115°
F. to a low temperature of from about 45°
F. to about 55°
F.
7 Assignments
Litigations
2 Petitions
Accused Products
Abstract
In a gas turbine power plant system having an air chiller for lowering the temperature of inlet air, a compressor for compressing the inlet air, a combustor for combusting the compressed air and fuel and a power turbine for providing useful power, a method and apparatus for chilling water delivered to the air chiller is provided, having a thermal water storage tank for storing chilling water, the tank having a bottom portion and a top portion, and a bottom inlet and a bottom outlet and a top inlet and a top outlet. A charge cycle is provided wherein the tank is filled with chilled water, and a discharge cycle is provided wherein the chilled water is fed to the air chiller, thereby chilling the inlet air to the power turbine.
53 Citations
11 Claims
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1. A method for chilling inlet air to a gas turbine power plant, comprising:
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a. providing a system of circulating chilling water including a chilling system that includes at least a first chiller and a second chiller, the first and second chillers being arranged in series, wherein water can pass through the first and second chillers, the water passing through the first chiller being lowered to a first temperature, the water passing through the second chiller being lowered to a second temperature that is lower than the first temperature, thus providing a staged temperature drop;
b. providing an inlet air chiller for lowering the temperature of the inlet air being fed to a gas turbine compressor through heat transfer between the circulating chilling water and the inlet air;
c. providing a thermal water storage tank which is operably connected to the system of circulating chilling water, the thermal water storage tank containing chilling water having a bottom;
d. during a charge cycle, removing chilling water from the thermal water storage tank, passing at least a portion of the removed water through the chilling system without passing that portion of chilling water through the inlet air chiller to lower the temperature of water passing through the chilling system and then introducing at least a portion of that chilled water into the thermal water storage tank at a point proximate the bottom of the tank, wherein the average temperature of the chilling water in the thermal water storage tank is lowered; and
e. during a discharge cycle, chilling the inlet air by removing chilling water from the thermal water storage tank, from a point proximate the bottom of the tank and then passing at least a portion of that removed chilling water to the inlet air chiller to make heat transfer contact between that portion of chilling water and the inlet air, such that the temperature of the inlet air is lowered from a high temperature of from about 80°
F. to about 115°
F. to a low temperature of from about 45°
F. to about 55°
F.- View Dependent Claims (3, 4, 5, 6, 7, 8, 9)
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2. In a gas turbine power plant system having at least one air chiller for lowering the temperature of inlet air, at least one air compressor for compressing the inlet air, at least one combustor for burning the compressed air and providing combustion gas, and at least one power turbine driven by the combustion gas for producing useful power, a method of chilling water delivered to the air chiller comprising the steps of:
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providing the at least one air chiller with an air chiller inlet that receives water, and an air chiller outlet that expels water;
providing a thermal water storage tank, having a bottom portion, a top portion, at least one bottom opening proximate the bottom portion and at least one top opening proximate the top portion, and containing a volume of stored water having an average temperature, and temperature of maximum water density;
providing a system of circulating chilling water including a chilling system that includes at least a first chiller and a second chiller, the first and second chillers being arranged in series, wherein water can pass through the first and second chillers, the water passing through the first chiller being lowered to a first temperature, the water passing through the second chiller being lowered to a second temperature that is lower than the first temperature, thus providing a staged temperature drop;
performing a charge cycle, by passing at least a portion of water through the chilling system without passing that portion of chilling water through the inlet air chiller, to lower the temperature of water passing through the first chiller to a first temperature, then to lower the temperature of water passing through the second chiller to a second temperature that is lower than the first temperature, to provide chilled water that is below the temperature of maximum water density, then introducing through the at least one bottom opening at least a portion of that chilled water, wherein the portion of chilled water being introduced through the bottom opening is sufficient to lower the average temperature of the volume of stored water to a temperature that is below the temperature of maximum water density; and
performing a discharge cycle by removing chilled water from the tank through the at least one bottom opening and passing at least a portion of the removed chilled water to the air chiller inlet, to lower the temperature of the inlet air, wherein the temperature of the chilled water is raised, to provide high temperature water, then introducing the high temperature water to the at least one top opening in the tank, wherein the inlet air temperature is lowered from a high temperature of from about 80°
F. to about 115°
F. to a low temperature of from about 45°
F. to about 55°
F.- View Dependent Claims (10, 11)
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Specification
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Litigation Data
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Current AssigneeTAS Energy Incorporated
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Original AssigneeTom L. Pierson
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InventorsPierson, Tom L.
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Primary Examiner(s)Freay, Charles G.
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Assistant Examiner(s)HAYES, ERIC D
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Application NumberUS09/369,788Time in Patent Office837 DaysField of Search607/28, 60/390.5, 60/391.82, 60/398.3, 60/390.2US Class Current60/783CPC Class CodesF01K 23/10 with exhaust fluid of one c...F02C 7/143 before or between the compr...F25B 27/02 using waste heat, e.g. from...Y02A 30/274 using waste energy, e.g. fr...Y02E 20/16 Combined cycle power plant ...
