Of Accommodating, Fluctuating Or Peak Loads Patents (Class 60/652)
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Publication number: 20130227947Abstract: For increasing power plant efficiency during periods of variable heat input or at partial loads, a motive fluid is cycled through a Rankine cycle power plant having a vaporizer and a superheater such that the motive fluid is delivered to a turbine at a selected inlet temperature at full admission. A percentage of a superheated portion of the motive fluid is adjusted during periods of variable heat input or at partial loads while virtually maintaining the inlet temperature and power plant thermal efficiency.Type: ApplicationFiled: March 5, 2012Publication date: September 5, 2013Applicant: Ormat Technologies Inc.Inventors: Lucien Y. BRONICKI, David MACHLEV
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Publication number: 20130213041Abstract: In a method for increasing power plant efficiency during periods of variable heat input or at partial loads, a motive fluid is cycled through a Rankine cycle power plant having a vaporizer and a superheater such that the motive fluid is delivered to a turbine at a selected inlet temperature at full admission. A percentage of a superheated portion of the motive fluid during periods of variable heat input or at partial loads is adjusted while substantially maintaining the inlet temperature and a power plant thermal efficiency. A Rankine Cycle power plant includes a conduit circuit extending from a heat source to each of a vaporizer section and a superheater section for regulating flow therethrough of source heat fluid.Type: ApplicationFiled: February 21, 2012Publication date: August 22, 2013Applicant: Ormat Technologies Inc.Inventor: Lucien Y. Bronicki
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Publication number: 20130167504Abstract: A method for regulating a short-term power increase of a steam turbine with an upstream waste-heat steam generator is provided. The steam turbine has a number of economizer, evaporator and super heater heating surfaces forming a flow path for a flow medium. The flow medium is tapped off from the flow path in a pressure stage and is injected into the flow path on the flow-medium side between two super heater heating surfaces of the respective pressure stage. Amount of flow medium injected is regulated with a characteristic value which is a discrepancy between the outlet temperature of the final super heater heating surface and a predetermined temperature nominal value. The temperature nominal value is reduced and the characteristic value is temporarily increased more than in proportion to the discrepancy for a time period of the reduction for achieving a short-term power increase of the steam turbine.Type: ApplicationFiled: September 2, 2011Publication date: July 4, 2013Inventors: Jan Brückner, Frank Thomas
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Patent number: 8448439Abstract: An electric power plant supplies steam generated to a high-pressure turbine and a low-pressure turbine. The steam discharged from the low-pressure turbine is condensed with a condenser. Water generated with the condenser is heated with a low-pressure feed water heater and a high-pressure feed water heater. The steam extracted from the high-pressure turbine is supplied to the high-pressure feed water heater. The steam extracted from the low-pressure turbine is compressed with a steam compressor, and the steam whose temperature has been increased is then supplied to the high-pressure feed water heater. The feed water is heated in the high-pressure feed water heater by the steam extracted from the high-pressure turbine and the steam compressed with the steam compressor. Because the feed water is heated by the extracted steam and the compressed steam in the high-pressure feed water heater, the amount of power consumed by the steam compressor can be reduced.Type: GrantFiled: January 30, 2009Date of Patent: May 28, 2013Assignee: Hitachi-GE Nuclear Energy, Ltd.Inventors: Koji Namba, Shigeo Hatamiya, Fumio Takahashi, Koji Nishida, Susumu Nakano, Takanori Shibata
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Patent number: 8443605Abstract: An installation and methods for storing and returning electrical energy. First and second lagged enclosures containing porous refractory material are provided through which a gas is caused to flow by causing the gas to flow through first and second compression/expansion groups interposed in the pipe circuit between the top and bottom ends, respectively, of the first and second enclosures, each compression/expansion group having a piston moved in translation in a cylinder, each group operating in a different mode, either in compression mode or in expansion mode, one of the two compression/expansion groups receiving a gas at a temperature that is higher than the other group, such that in compression mode it is driven by an electric motor that consumes electrical energy for storage E1, and in a thermodynamic engine mode it drives an electricity generator enabling the electrical energy ER to be returned.Type: GrantFiled: October 3, 2008Date of Patent: May 21, 2013Assignee: Saipem S.A.Inventor: Jacques Ruer
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Publication number: 20120223532Abstract: A single shaft steam turbine plant is disclosed with a first and a second low pressure steam turbine located at either end of the shaft. A generator and at least one high-pressure steam turbine are located on the shaft between low pressure steam turbines.Type: ApplicationFiled: September 1, 2011Publication date: September 6, 2012Applicant: ALSTOM Technology LtdInventors: Maurus Herzog, Wilhelm Reiter
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Publication number: 20120117969Abstract: A method for operating a hybrid power plant comprising fuel-operated heating and solar energy heating of carrier fluids, wherein a first portion of total power provided by the power plant is based on fuel-operated heating of carrier fluids and a second portion of the total power is based on solar energy heating of carrier fluids, the heat absorbed by a solar energy heated carrier fluid is transferred to a carrier fluid circuit of a fuel-operated part of the power plant. When a sudden increase or reduction of the total power provided by the power plant is required as compared to a basic state, the second portion is first increased or reduced over a short time period in order to provide a positive or negative reserve power. Subsequently, the first portion is slowly increased or reduced and the second portion based on solar energy heating is correspondingly reduced or increased again.Type: ApplicationFiled: February 24, 2010Publication date: May 17, 2012Applicant: STEAG Energy Services GmbHInventors: Dirk Neumann, Marcus Kurth, Udo Sommer
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Publication number: 20120111008Abstract: A diaphragm for a steam turbine is disclosed that has at least one arc of admission. The arc of admission has a plurality of nozzles arranged about the circumference of the diaphragm and are configured to eject a working fluid at succeeding rotor blades axially-spaced from the diaphragm. The flow area of the first few nozzle vanes in the arc of admission is gradually increased along the arcuate length of the diaphragm, thereby mitigating the load impulse absorbed by each rotor blade as it enters the arc of admission. The flow area of the last few nozzle vanes in the arc of admission is gradually decreased so that each rotor blade does not suddenly go from full load impulse to zero and thereby contribute to the fatigue of the rotor blade and create unwanted noise.Type: ApplicationFiled: November 7, 2011Publication date: May 10, 2012Applicant: DRESSER-RAND COMPANYInventor: Joseph A. Tecza
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Publication number: 20120047891Abstract: During off-peak operation of a power plant operating on a thermodynamic cycle wherein heat is rejected to an ambient fluid, heat is removed from a cold temperature storage medium. The cold temperature storage medium is stored until the power plant is experiencing a peak period. During the peak period, the stored cold temperature storage medium is used to absorb heat from the ambient fluid prior to heat rejection from the thermodynamic cycle to the ambient fluid, to improve performance of the thermodynamic cycle. In another aspect, the stored cold temperature storage medium is mixed with the ambient fluid prior to heat rejection from the thermodynamic cycle to the ambient fluid. Corresponding systems, apparatuses, retrofit methods, design and control techniques are also disclosed.Type: ApplicationFiled: July 21, 2011Publication date: March 1, 2012Inventor: Matthew Rosenfeld
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Publication number: 20120047892Abstract: Various thermodynamic power-generating cycles employ a mass management system to regulate the pressure and amount of working fluid circulating throughout the working fluid circuits. The mass management systems may have a mass control tank fluidly coupled to the working fluid circuit at one or more strategically-located tie-in points. A heat exchanger coil may be used in conjunction with the mass control tank to regulate the temperature of the fluid within the mass control tank, and thereby determine whether working fluid is either extracted from or injected into the working fluid circuit. Regulating the pressure and amount of working fluid in the working fluid circuit helps selectively increase or decrease the suction pressure of the pump, which can increase system efficiency.Type: ApplicationFiled: October 21, 2011Publication date: March 1, 2012Applicant: ECHOGEN POWER SYSTEMS, LLCInventors: Timothy James Held, Stephen Hostler, Jason D. Miller
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Patent number: 8104282Abstract: A power generation complex plant has a control switch, an overall control unit and a steam bypass facility. The overall control unit determines that a desired steam volume has reached a limit value of the volume of steam to be generated by a steam generating facility. A steam bypass facility control unit adds a bias value B1 to a control command value V4 of the steam bypass facility to generate a new control command value V5 when the desired steam volume is determined to have reached the limit value. The steam bypass facility control unit then controls the volume and pressure of steam passing through the steam bypass facility on the basis of the new control command value V5 so that no switch of control may be made in the control switch.Type: GrantFiled: February 18, 2009Date of Patent: January 31, 2012Assignee: Kabushiki Kaisha ToshibaInventors: Akinori Tani, Akimasa Nakai, Masuo Yamasaki, Kazuo Nogami, Yoji Kubo
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Publication number: 20120000201Abstract: A system and method are provided for using the thermal mass of an ORC, the working fluid, the oil loop, the cooling fluid loop and all components, to provide additional transient power to an electrical grid. A pre-heater transfers heat from the cooling fluid to a low temperature (LT) ORC loop working fluid. A LT ORC loop expander generates transient power to support stabilization of the electrical grid. A heat exchanger transfers heat from the thermal oil to a high temperature (HT) ORC loop working fluid. A HT ORC loop expander generates transient power to support stabilization of the electrical grid.Type: ApplicationFiled: June 30, 2010Publication date: January 5, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Gabor Ast, Herbert Kopecek, Thomas Johannes Frey, Pierre Sebastien Huck
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Patent number: 8087246Abstract: A temperature fluctuation suppressing device for a heating medium is provided which is capable of sufficiently suppressing temperature fluctuations of the heating medium at the time of supplying collected solar heat for steam generation. The temperature fluctuation suppressing device includes a heating medium mixer provided on a heating medium supply passage configured to supply a liquid heating medium to a heat exchanging device, the heating medium mixer including: a heating medium passage forming member having plural heating medium passages; an inlet member and an outlet member provided separately from the inlet member, whereby the heating medium continuously flowing into the heating medium passage forming member through the inlet member passes through the plural heating medium passages with time-lags to form respective streams, which are then joined together before flowing out through the outlet member.Type: GrantFiled: June 16, 2006Date of Patent: January 3, 2012Assignee: Kawasaki Jukogyo Kabushiki KaishaInventor: Hideaki Ota
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Patent number: 8046998Abstract: The present invention relates to a waste heat auxiliary power unit. In one embodiment, the present invention is a heat exchange unit for an automobile including a core unit configured to be connected to a catalytic converter of the automobile, the core unit generating vapor, and a first energy generation module connected to the core unit, the first energy generation module receiving the vapor from the core unit and generating energy from the vapor.Type: GrantFiled: October 1, 2008Date of Patent: November 1, 2011Assignee: Toyota Motor Engineering & Manufacturing North America, Inc.Inventor: Woodson Wayne Samuel
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Publication number: 20110113781Abstract: A method, system, and apparatus including a compressed air energy storage (CAES) system including a compression train with a compressor path, a storage volume configured to store compressed air, a compressed air path configured to provide passage of compressed air egressing from the compression train to the storage volume, and a heat recovery system coupled to at least one of the compressor path and the compressed air path and configured to draw heat from at least one of the compressor path and the compressed air path to a first liquid. The compression train is configured to provide passage of compressed air from a first compressor to a second compressor. The heat recovery system includes a first evaporator configured to evaporate the first liquid to a first gas and a first generator configured to produce electricity based on an expansion of the first gas.Type: ApplicationFiled: November 13, 2009Publication date: May 19, 2011Inventors: Thomas Johannes Frey, Matthias Finkenrath, Gabor Ast, Stephanie Marie-Noelle Hoffmann, Matthew Lehar, Richard Aumann
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Publication number: 20110099972Abstract: A method of increasing output of a combined cycle power plant with supplemental duct firing from a heat recovery steam generator (HRSG) during select periods includes guiding a reheat steam flow to at least one reheat attemperator fluidly connected to the HRSG during the select period. The method further includes increasing reheat attemperation water flow through the at least one reheat attemperator, decreasing a set point temperature of the at least one reheat attemperator for the select period to a lower set point temperature, and raising power output of the combined cycle power plant during the select period.Type: ApplicationFiled: November 2, 2009Publication date: May 5, 2011Applicant: GENERAL ELECTRIC COMPANYInventors: Virginia Wen-Chi Yang, Gordon Raymond Smith
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Publication number: 20110100611Abstract: A system and method are provided for thermoelectric energy storage. A thermoelectric energy storage system having at least one hot storage unit is provided. In an exemplary embodiment, each hot storage unit includes a hot tank and a cold tank connected via a heat exchanger and containing a thermal storage medium. The thermoelectric energy storage system also includes a working fluid circuit for circulating working fluid through each heat exchanger for heat transfer with the thermal storage medium. Improved roundtrip efficiency is achieved by minimizing the temperature difference between the working fluid and the thermal storage medium in each heat exchanger during heat transfer. Exemplary embodiments realize this improved roundtrip efficiency through modification of thermal storage media parameters.Type: ApplicationFiled: January 12, 2011Publication date: May 5, 2011Applicant: ABB RESEARCH LTDInventors: Christian OHLER, Mehmet Mercangoez
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Publication number: 20110100010Abstract: An adiabatic compressed air energy storage (ACAES) system includes a compressor system, an air storage unit, and a turbine system. The ACAES system further includes a thermal energy storage (TES) system that includes a container, a plurality of heat exchangers, a liquid TES medium conduit system fluidly coupling the container to the plurality of heat exchangers, and a liquid TES medium stored within the container. The TES system also includes a plurality of pumps coupled to the liquid TES medium conduit system and configured to transport the liquid TES medium between the plurality of heat exchangers and the container, and a thermal separation system positioned within the container configured to thermally isolate a first portion of the liquid TES medium at a lower temperature from a second portion of the liquid TES medium at a higher temperature.Type: ApplicationFiled: October 30, 2009Publication date: May 5, 2011Inventors: Sebastian W. Freund, Matthias Finkenrath, Cristina Botero, Clarissa S.K. Belloni, Miguel Angel Gonzalez Salazar, Stephanie Marie-Noelle Hoffmann
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Publication number: 20110088406Abstract: This invention discloses systems and methods for control of a gas turbine or a gas turbine generator, where the gas turbine is connected to a dryer vessel in which gas turbine exhaust gases are used to heat treat a material in the dryer vessel. The control system comprises one or more sensors for temperature, moisture and/or flow rate in the dryer vessel and/or of the material inside, entering and/or exiting the dryer vessel and a controller responsive to the sensor for controlling the fuel and/or air flow into the gas turbine. This control system and method enables providing the appropriate heat output from the gas turbine to meet the process heat required for the desired material treatment. Optionally, the gas turbine can be a liquid fuel turbine engine, or a reciprocating engine can be substituted for the turbine engine.Type: ApplicationFiled: April 12, 2010Publication date: April 21, 2011Applicant: EarthRenew, Inc.Inventors: Brian N. Gorell, Christianne Carin, Alvin W. Fedkenheuer, John S. Jonasson, Alexander Starosud
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Publication number: 20110016864Abstract: A compressed air energy storage (CAES) system encompassing direct heating. The compressed air energy storage system includes a compressor for compressing ambient air, an air storage reservoir, and a thermal energy storage system. The air storage reservoir is adapted to store compressed air from the compressor. The thermal energy storage system is adapted to supply heat to the compressed air energy storage system such that the compressed air is heated to increase work production of the compressed air. The thermal energy storage system is heated using off-peak electricity.Type: ApplicationFiled: July 23, 2009Publication date: January 27, 2011Applicant: ELECTRIC POWER RESEARCH INSTITUTE, INC.Inventors: Sean Edward Wright, Richard Joseph Lordan, Robert B. Schainker
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Publication number: 20100242475Abstract: Systems and methods are disclosed related to utilization of energy including utilization of latent energy from electricity generating processes. According to one exemplary implementation, steam is produced from thermal energy, such as fossil fuel energy, nuclear energy and solar thermal energy; generating electricity from the steam using a turbine; and directing steam exhausted from the turbine to an absorption chiller or desalination apparatus as a condenser to drive an industrial process therein. In one exemplary implementation the absorption chiller may be an atmospheric control system to produce a gas of a desired temperature such as in an air-conditioning system. In another exemplary implementation the heat exchange apparatus is a desalination system employed to produce water of a desired purity.Type: ApplicationFiled: March 9, 2010Publication date: September 30, 2010Inventors: Xiao Dong Xiang, Rong Zhang
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Publication number: 20100083660Abstract: A Compressed Air Energy Storage (CAES) system includes a first combustion turbine assembly (42) having a shaft (52) coupled to a motor (54), a compressor (44) and a debladed turbine element (46). A second combustion turbine assembly (68) has a shaft (74) coupled to an electrical generator (80), a turbine (70) and a debladed compressor (72). A first interconnection (58) is from an output of the compressor (44) of the first combustion turbine assembly to an air storage (66). A second interconnection (87) is from the air storage to the turbine (70) of the second combustion turbine assembly for producing power. An expander (88) and an electrical generator (94) are provided. A third interconnection (90) is from the air storage (66) to the expander (88). A source of heat preheats compressed air in the third interconnection. A fourth interconnection (96) is from the expander to the turbine (70).Type: ApplicationFiled: December 8, 2009Publication date: April 8, 2010Inventor: Michael Nakhamkin
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Patent number: 7693402Abstract: A thermal storage unit having at least one conduit around which a cast is made is provided. The thermal storage unit uses conventional piping or tubing to create conduits that economically maximize the surface area of flow in contact with the thermal mass by proving multiple passes for the fluid through the cast. This enables the thermal storage unit to economically provide heat storage as well as effective heat delivery and pressure containment for a fluid flowing through the conduit.Type: GrantFiled: November 19, 2004Date of Patent: April 6, 2010Assignee: Active Power, Inc.Inventors: Robert S. Hudson, David E. Perkins, Donald M. Hudson, David J. Beatty, Donald L. Stamets, Joseph F. Pinkerton
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Publication number: 20100000216Abstract: A steam turbine operating system includes at least a high pressure turbine section and a low pressure section; one or more control valves arranged to admit steam from a boiler to the high pressure turbine section; a condenser arranged to receive steam exhausted from the low pressure section and to convert the steam to a liquid; a top heater arranged to receive liquid from the condenser and to heat the liquid via heat exchange with steam from the high pressure section, and to return the heated liquid to the boiler; and an overload bypass valve arranged to supply steam bypassed around the one or more control valves directly to the top heater.Type: ApplicationFiled: July 1, 2008Publication date: January 7, 2010Applicant: General Electric CompanyInventors: Douglas C. Hofer, Gregory L. DiAntonio, William Parry
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Publication number: 20090301089Abstract: The invention relates to systems and methods for rapidly and isothermally expanding gas in a cylinder. The cylinder is used in a staged hydraulic-pneumatic energy conversion system and includes a gas chamber (pneumatic side) and a fluid chamber (hydraulic side) and a piston or other mechanism that separates the gas chamber and fluid chamber while allowing the transfer of force/pressure between each opposing chamber. The gas chamber of the cylinder includes ports that are coupled to a heat transfer subassembly that circulates gas from the pneumatic side and exchanges its heat with a counter flow of ambient temperature fluid from a reservoir or other source.Type: ApplicationFiled: June 9, 2009Publication date: December 10, 2009Inventor: Benjamin R. Bollinger
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Publication number: 20090282840Abstract: The present invention concerns systems for storing energy and using the stored energy to generate electrical energy or drive a propeller (505). In particular, the present invention provides a method of storing energy comprising: providing a gaseous input, producing a cryogen from the gaseous input; storing the cryogen; expanding the cryogen; using the expanded cryogen to drive a turbine (320) and recovering cold energy from the expansion of the cryogen. The present invention also provides a cryogenic energy storage system comprising: a source of cryogen; a cryogen storage facility (370); means for expanding the cryogen; a turbine (320) capable of being driven by the expanding cryogen; and means (340, 350) for recovering cold energy released during expansion of the cryogen.Type: ApplicationFiled: February 27, 2007Publication date: November 19, 2009Applicant: HIGHVIEW ENTERPRISES LIMITEDInventors: Haisheng Chen, Yulong Ding, Toby Peters, Ferdinand Berger
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Patent number: 7458418Abstract: A heat pump system includes a compressor, a heat rejecting heat exchanger, an expansion device, and a heat accepting heat exchanger. A storage tank stores the water that cools the refrigerant in the heat rejecting heat exchanger. A mechanical interface plate positioned between a hot water reservoir and a cold water reservoir in the storage tank reduces heat transfer between the hot water and the cold water. During a water heating mode, cold water from the cold reservoir flows into the heat sink to cool the refrigerant in the heat rejecting heat exchanger. As the water exchanges heat with the refrigerant, the water is heated in the heat sink, exits the heat sink, and flows into the hot reservoir of the storage tank. During a water discharge mode, the hot water in the hot reservoir is removed from the storage tank and flows into a hot water discharge. Cold water from a water source flows into the cold reservoir of the storage tank to refill the storage tank.Type: GrantFiled: May 16, 2005Date of Patent: December 2, 2008Assignee: Carrier CorporationInventor: Tobias H. Sienel
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Patent number: 7444817Abstract: An optical micromotor having a rotor the rotation whereof can be controlled flexibly and freely through simple arrangement, and a micropump that uses this micromotor. The optical micromotor and the micropump have a rotor (15) that rotates about a central axis. The rotor (15) has an optical trap (bead) (2), which is trapped by a light beam (4), provided at least at one location thereon. When the optical trap (2) is irradiated with the laser beam (4), the rotor is held at a prescribed position together with the optical trap (2). When the laser beam (4) is moved or changed over, the rotor (15) rotates about the central axis together with the optical trap (2).Type: GrantFiled: June 10, 2004Date of Patent: November 4, 2008Assignee: Canon Kabushiki KaishaInventor: Hirohito Ito
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Patent number: 7436922Abstract: Disclosed herein is a method comprising heating helium in a core of a nuclear reactor; extracting heat from the helium; superheating water to steam using the heat extracted from the helium; expanding the helium in a turbine; wherein the turbine is in operative communication with an electrical generator; and generating electricity in the electrical generator.Type: GrantFiled: December 21, 2005Date of Patent: October 14, 2008Assignee: General Electric CompanyInventor: Andrew Maxwell Peter
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Patent number: 7155912Abstract: The invention relates to an energy storing method and apparatus for use by end-users of energy, such as commercial property owners and operators. The system differs from past systems, insofar as it is not intended to be used by and in connection with energy suppliers, such as large utility and power supply plants and grids. The system preferably relates to the manner in which an end-user of energy can implement energy and costs savings, by using energy storage and time-shifting methods, to control and regulate the consumption of energy in a manner that achieves a cost savings over a period of time.Type: GrantFiled: October 27, 2004Date of Patent: January 2, 2007Inventors: Ben M. Enis, Paul Lieberman
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Patent number: 7157833Abstract: A tool has a tool insert and an electrically operated drive unit oscillatingly driving the tool insert. The drive unit has a piezo actuator and an adjusting travel enlarger coupled to the piezo actuator. The adjusting travel enlarger has a master piston, at least one slave piston, and at least one pressure chamber. The master piston acts through the at least one pressure chamber on the at least one slave piston. The piezo actuator and the master piston are fixedly connected to one another.Type: GrantFiled: February 23, 2005Date of Patent: January 2, 2007Assignee: Atlas Copco Electric Tools GmbHInventor: Achim Hess
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Patent number: 7150154Abstract: A compressed air energy storage power station comprises a first shafting (1) and a second shafting (2). A gas turbo group (11), an electrical machine (12) and a compressor (13) are arranged on the first shafting (1). Switchable clutch elements (14, 15) are arranged between the electrical machine and the gas turbo group or the compressor. The clutch elements allow a connection to be selectively made between the electrical machine and the gas turbo group (11) or the compressor (13). An expansion machine (21) for the power generating expansion of a pressurized storage fluid, an electrical machine (22) and a compressor (23) are arranged on the second shafting (2). Switchable clutch elements (24, 25) are arranged between the electrical machine and the expansion machine or the compressor and allow the electrical machine to be optionally connected to the expansion machine and to the compressor. The electrical machines are operable both as generators and as electric motors.Type: GrantFiled: April 8, 2004Date of Patent: December 19, 2006Assignee: Alstom Technology Ltd.Inventors: Rolf Althaus, Martin Koller
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Patent number: 7036315Abstract: In a waste heat recovery system having a superheat controller, a reference superheat controller operating trajectory is established and compared with operational superheat controller trajectories from time to time and measuring the deviation therebetween to determine whether a low charge condition exists. If such a condition does exist, warning steps and possibly shut down steps can be taken. As a verification of a low charge condition, the absence or presence of oscillations in the pressure and/or pump power conditions can be observed.Type: GrantFiled: December 19, 2003Date of Patent: May 2, 2006Assignee: United Technologies CorporationInventors: Pengju Kang, Frederick James Cogswell
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Patent number: 6986251Abstract: In a waste heat recovery system wherein an organic rankine cycle system uses waste heat from the fluids of a reciprocating engine, provision is made to continue operation of the engine even during periods when the organic rankine cycle system is inoperative, by providing an auxiliary pump and a bypass for the refrigerant flow around the turbine. Provision is also made to divert the engine exhaust gases from the evaporator during such periods of operation. In one embodiment, the auxiliary pump is made to operate simultaneously with the primary pump during normal operations, thereby allowing the primary pump to operate at lower speeds with less likelihood of cavitation.Type: GrantFiled: June 17, 2003Date of Patent: January 17, 2006Assignee: UTC Power, LLCInventors: Thomas D. Radcliff, Duane McCormick, Joost J. Brasz
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Patent number: 6955050Abstract: A thermal storage unit having at least one annular flow channel formed between an inner and outer member is provided. The thermal storage unit uses conventional mill products to create annular flow channels that economically maximize the surface area of flow in contact with the thermal mass included in the inner and outer members. This enables the thermal storage unit to economically provide heat storage as well as effective heat delivery and pressure containment for a fluid flowing through the annular channel.Type: GrantFiled: December 16, 2003Date of Patent: October 18, 2005Assignee: Active Power, Inc.Inventors: David E. Perkins, Robert S. Hudson
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Patent number: 6907923Abstract: A heat pump system includes a compressor, a heat rejecting heat exchanger, an expansion device, and a heat accepting heat exchanger. A storage tank stores the water that cools the refrigerant in the heat rejecting heat exchanger. A mechanical interface plate positioned between a hot water reservoir and a cold water reservoir in the storage tank reduces heat transfer between the hot water and the cold water. During a water heating mode, cold water from the cold reservoir flows into the heat sink to cool the refrigerant in the heat rejecting heat exchanger. As the water exchanges heat with the refrigerant, the water is heated in the heat sink, exits the heat sink, and flows into the hot reservoir of the storage tank. During a water discharge mode, the hot water in the hot reservoir is removed from the storage tank and flows into a hot water discharge. Cold water from a water source flows into the cold reservoir of the storage tank to refill the storage tank.Type: GrantFiled: January 13, 2003Date of Patent: June 21, 2005Assignee: Carrier CorporationInventor: Tobias H. Sienel
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Patent number: 6792756Abstract: The present invention relates to a gas storage power plant (1) with a gas store (8), a turbogroup (2) and a gas supply line (9) which leads from the gas store (8) to the turbogroup (2). A gas supply control device (12) is arranged in the gas supply line (9). So that a gas flow cam be provided, even in an emergency, the gas supply control device (12) has a main line (14) and a bypass line (19). The main line (14) forms a section of the gas supply line (9). In the main line (14) is arranged a main valve arrangement (15) which shuts off the main line (14) in an emergency. The bypass line (19) bypasses the main valve arrangement (15). In the bypass line (19) is arranged a bypass valve arrangement (20) which opens the bypass line (19) in an emergency.Type: GrantFiled: August 15, 2002Date of Patent: September 21, 2004Assignee: Alstom Technology LTDInventors: Velimir Bakran, Ralf Gerdes, Peter Keller-Sornig, Bozidar Seketa
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Patent number: 6711903Abstract: A power plant generates electricity from carbonaceous material and fuel provided by a syngas plant such that clean electric power is generated and flue gas emissions are minimized. The syngas plant produces liquid fuel and unreacted syngas in a Fischer-Tropsch reactor, and the unreacted syngas is conducted to a combustion chamber of the power plant for use as a clean fuel moiety of the carbonaceous material burned in the combustion chamber. The unreacted syngas enables the electric power plant to operate below acceptable environmental limits in producing steam to generate electricity.Type: GrantFiled: February 19, 2003Date of Patent: March 30, 2004Inventor: John W. Rich, Jr.
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Patent number: 6062017Abstract: A steam generator for a combined gas/steam power station plant has a gas-turbine circuit and a steam-turbine circuit, the exhaust gases of a gas turbine (4) giving off their residual heat to a steam turbine via the working medium flowing in a multi-pressure steam generator, each pressure system of the steam generator essentially comprising an economizer (21), an evaporator (22) and a superheater (23). To control the steam temperatures, a steam/steam heat exchanger (58), which can be shut off, is arranged in such a way that heat can be transferred from the hotter vaporous medium to a colder vaporous medium. To this end, the heat exchanger (58) is connected in the region of the respective superheaters (23, 19) between the high-pressure system as hotter heat-exchange area and the low-pressure system as colder heat-exchange area.Type: GrantFiled: August 12, 1998Date of Patent: May 16, 2000Assignee: Asea Brown Boveri AGInventor: Erhard Liebig
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Patent number: 6012290Abstract: A large electrical power plant includes two operating units, one of which is more efficient and is run as a base load unit. The less efficient operating unit is run only during periods of peak demand or when the more efficient unit is down. Hot condensate from the more efficient unit is cooled in the condenser of the less efficient unit and then sprayed into the turbine outlet of the more efficient unit. This condenses steam more efficiently, at a lower pressure, and allows the more efficient unit to produce more electricity because there is a greater pressure differential across the turbine. In addition, cool condensate is sprayed into the duct connecting the turbine and the condenser to reduce choking flow, when it is prone to occur. In addition, cool make up water is sprayed into the condenser of the operating unit.Type: GrantFiled: June 19, 1998Date of Patent: January 11, 2000Inventor: Jaime G. Garcia
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Patent number: 5914537Abstract: A method for quickly controlling the output of a power plant having a turbo-generator set with a steam turbine and a generator, activates energy storage present during a plant process in order to set an additional generator output. In order to achieve a particularly effective control, fuzzy logic is used for the controlled activation of the energy storage. Fuzzy-logic rules from experience at the plant are used in this process. An apparatus for carrying out the method includes a fuzzy-logic system having inputs which include the additional generator output and an energy situation of the activatable storage, and outputs that specify desired setting values for the degree of activation of the individual energy storage.Type: GrantFiled: May 14, 1998Date of Patent: June 22, 1999Assignee: Siemens AktiengesellschaftInventors: Oldrich Zaviska, Christian Fricke, Herbert Furumoto
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Patent number: 5873251Abstract: To attain a high efficiency plant production activity and further to contribute to the earth environment protection, the disclosed plant operation control system, comprises means for producing energy in a plant; means for producing products in the plant by use of the energy produced by the energy producing means; means for scheduling energy production on the basis of the production schedule of the products; means for adjusting the energy production scheduled by the energy production scheduling means on the basis of information relative to the energy; and means for outputting the energy outside of the plant according to the energy production schedule adjusted by the energy production schedule adjusting means.Type: GrantFiled: September 13, 1996Date of Patent: February 23, 1999Assignee: Kabushiki Kaisha ToshibaInventor: Yutaka Iino
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Patent number: 5867988Abstract: Extracted geothermal fluid (which may comprise geothermal liquid or brine) is used to operate a power plant by applying the extracted geothermal fluid to a vaporizer containing pre-heated working fluid for producing vaporized working fluid and from which heat depleted geothermal fluid is extracted. A portion of the heat depleted geothermal fluid is applied to a pre-heater containing liquid working fluid for producing the pre-heated working fluid, and for producing further heat depleted geothermal fluid. The vaporized working fluid is expanded in a turbogenerator for generating power and producing expanded vaporized working fluid; and, the expanded vaporized working fluid produced by the turbogenerator is condensed into liquid working fluid that is pre-heated. The portion of said heat depleted geothermal fluid that is not applied to said pre-heater and the further heat depleted geothermal fluid are separately re-injected into the ground.Type: GrantFiled: June 30, 1997Date of Patent: February 9, 1999Assignee: Ormat Industries Ltd.Inventor: Uri Kaplan
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Patent number: 5778675Abstract: The invention provides a stand-alone, hybrid combustion turbine derivative power generation system sized for the most efficient and cost-effective base load operation that is also capable of providing, using air storage techniques, short-duration peak power, which is approximately 200% of the base load rating, and short-duration intermediate load power over a whole a range of loads between a base load and a peak load. The peak/intermediate power is also delivered with the best practical efficiency possible. The hybrid system may employ a variety of combustion turbine thermal cycles, including a simple cycle combustion turbine plant, combustion turbine plants with intercooling, reheat, recuperation, steam injection and humidification, and combined cycle power plants.Type: GrantFiled: June 20, 1997Date of Patent: July 14, 1998Assignee: Electric Power Research Institute, Inc.Inventor: Michael Nakhamkin
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Patent number: 5755102Abstract: A hygroscopic power plant utilizes low salinity liquid (e.g., sea water having a salinity of about 4%) and a source of high salinity liquid (e.g., brine having a salinity of about 38%) for generating electricity. The plant includes a flash chamber to which liquid is supplied and within which water in the liquid is flashed into steam producing more concentrated liquid. A steam turbine is responsive to the steam for generating electricity and producing heat depleted steam. A condenser is provided to which high salinity liquid and the heat depleted steam are supplied for directly contacting the steam with the high salinity liquid whereby the steam condenses on the liquid producing diluted high salinity liquid. A regenerator is provided for evaporating water from the diluted high salinity liquid to produce the high salinity liquid supplied to the condenser.Type: GrantFiled: February 22, 1996Date of Patent: May 26, 1998Assignee: Ormat Industries LtdInventors: Gad Assaf, Lucien Y. Bronicki, Uriyel Fisher
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Patent number: 5740672Abstract: A transportation system is based on battery powered vehicles operating in an isolated geographic area within which a base electrical load during the day exceeds the normal electrical load during the night. The system is operated by generating power for the load by using a geothermal power plant that operates day and night at a substantially constant power output. The vehicles are operated during the day; and power generated by the power plant supplies the base electrical load. Recharging of the batteries of the vehicles occurs only at night when power generated by the power plant in excess of the normal electrical load is available for recharging purposes.Type: GrantFiled: December 18, 1996Date of Patent: April 21, 1998Assignee: Ormat Turbines (1965) Ltd.Inventor: Lucien Y. Bronicki
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Patent number: 5704209Abstract: An externally fired gas turbine system has a compressor for compressing ambient air and producing compressed air, an indirect-contact air heat exchanger for heating the compressed air to produce heated compressed air, an air turbine for expanding the heated and compressed air to produce expanded air, and a generator connected to the turbine for generating electricity that is supplied to a load. The system also includes a source of energy including solar energy, oil shale, solid waste fuel, land fill gas, biomass, or combinations thereof, and/or solid, liquid, or gaseous hydrocarbon fuels, for adding heat to the compressed air in the air heat exchanger and producing heat depleted gases that exit the air heat exchanger.Type: GrantFiled: February 22, 1995Date of Patent: January 6, 1998Assignee: Ormat Industries LtdInventors: Lucien Y. Bronicki, Daniel Goldman, Joseph Sinai
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Patent number: 5699666Abstract: A steam generating power plant includes a generator connected to a network, a steam turbine driving the generator, a steam bleeder line being connected to the steam turbine and having a load-dependently adjustable valve, a system having a superconducting magnetic energy accumulator and being connected electrically parallel to the generator, and a control unit. The control unit furnishes electrical power directly from the superconducting energy accumulator to level a power deficit lasting on the order of several seconds in the network and the control unit at the same time adjusts the valve to increase steam available to the steam turbine. A process for operating a steam generating power plant, an interlocking electrical network in combination with a number of steam generating power plants, and a process for operating the interlinking network in combination with the steam generating power plants, are also provided.Type: GrantFiled: January 11, 1996Date of Patent: December 23, 1997Assignee: Siemens AktiengesellschaftInventors: Heribert Kurten, Uwe Radtke, Wolfgang Taube, Horst Vollmar
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Patent number: 5685155Abstract: A method for energy conversion and storage includes the steps of providing a supply of processed natural gas. The natural gas is compressed and stored in a sub-surface storage reservoir. The compressed natural gas is then delivered from the reservoir to an electrical power generator to thereby generate electrical energy.Type: GrantFiled: January 31, 1995Date of Patent: November 11, 1997Inventors: Charles V. Brown, James S. Coleman
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Patent number: 5634340Abstract: One aspect of the present invention relates to a process of cogeneration utilizing a compressed gas energy storage system which includes a gas storage area, a compression train for pressurizing a gas to be stored in the gas storage area, and an expansion train for depressurizing high pressure gas released from the gas storage area. The process includes operating the compression train during off-peak electricity utilization periods to produce a compressed gas. The compressed gas is stored in the gas storage area and later released during peak electricity utilization periods through the expansion train to generate electricity. This reduces the compressed gas pressure and temperature. The gas can then be used for refrigeration by contacting it with a material to be chilled with that gas. One aspect of this invention involves generating electricity and effecting refrigeration by depressurization of natural gas from high pipeline transmission pressures to lower distribution pressures.Type: GrantFiled: October 14, 1994Date of Patent: June 3, 1997Assignee: Dresser Rand CompanyInventor: Charles W. Grennan