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公开(公告)号:US07644582B2
公开(公告)日:2010-01-12
申请号:US12075625
申请日:2008-03-13
CPC分类号: F01K11/00
摘要: An external combustion engine including a container 10 sealed with a working medium 14 in liquid phase adapted to flow, a multiplicity of evaporators 201 to 204 for heating and evaporating part of the liquid-phase working medium 14, a multiplicity of condensers 221 to 224 for cooling and condensing the working medium 14 evaporated in the evaporators 201 to 204, and an output unit 11 for outputting by converting the displacement of the liquid-phase portion of the working medium 14 into mechanical energy. The multiplicity of the evaporators 201 to 204 share a heat source from which heat is supplied thereto. The engine further includes an influent liquid amount regulation unit whereby the liquid-phase portion of the working medium 14 in a greater amount flows into the evaporators nearer the heat source upon displacement of the liquid-phase portion of the working medium 14 toward the multiplicity of the evaporators 201 to 204 from the output unit 11, while the influent liquid amount is smaller for the evaporators farther from the heat source. In this way, heat loss is reduced resulting in improved efficiency.
摘要翻译: 一种外部燃烧发动机,其特征在于,包括以适于流动的液相的工作介质14密封的容器10,用于加热和蒸发所述液相工作介质14的一部分的多个蒸发器201〜204,多个冷凝器221〜224, 冷却和冷凝在蒸发器201至204中蒸发的工作介质14,以及通过将工作介质14的液相部分的位移转换为机械能而输出的输出单元11。 蒸发器201〜204的多个共用一个热源,供给热源。 发动机还包括流入液量调节单元,其中工作介质14的液相部分在工作介质14的液相部分朝向多个位置移动时流入更靠近热源的蒸发器 来自输出单元11的蒸发器201至204,而与离热源更远的蒸发器的进水液量较小。 以这种方式,热损失降低,从而提高效率。
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公开(公告)号:US07073331B2
公开(公告)日:2006-07-11
申请号:US11132669
申请日:2005-05-19
IPC分类号: F01B1/00
CPC分类号: F01K27/005
摘要: In a steam engine having a heating device, a cooling device, and an output device, the output device comprises a piston reciprocally moving by a self-excited fluid vibration of a working fluid in a fluid container. The piston is reciprocally moved by the output device for a certain period before starting an operation of the steam engine, so that the working fluid is moved to an inside space of the heating device. Since the working fluid is surely heated and vaporized by the heating device, the fluid vibration is stably started, and as a result, the operation of the steam engine can be smoothly started.
摘要翻译: 在具有加热装置,冷却装置和输出装置的蒸汽机中,输出装置包括通过流体容器中的工作流体的自激流体振动往复运动的活塞。 在开始蒸汽发动机的运转之前,活塞由输出装置往复移动一定时间,使得工作流体移动到加热装置的内部空间。 由于工作流体被加热装置确实地加热和蒸发,因此能够稳定地开始流体振动,结果能够平稳地开始蒸汽发动机的运转。
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公开(公告)号:US20050257526A1
公开(公告)日:2005-11-24
申请号:US11132669
申请日:2005-05-19
CPC分类号: F01K27/005
摘要: In a steam engine having a heating device, a cooling device, and an output device, the output device comprises a piston reciprocally moving by a self-excited fluid vibration of a working fluid in a fluid container. The piston is reciprocally moved by the output device for a certain period before starting an operation of the steam engine, so that the working fluid is moved to an inside space of the heating device. Since the working fluid is surely heated and vaporized by the heating device, the fluid vibration is stably started, and as a result, the operation of the steam engine can be smoothly started.
摘要翻译: 在具有加热装置,冷却装置和输出装置的蒸汽发动机中,输出装置包括通过流体容器中的工作流体的自激流体振动往复运动的活塞。 在开始蒸汽发动机的运转之前,活塞由输出装置往复移动一定时间,使得工作流体移动到加热装置的内部空间。 由于工作流体被加热装置确实地加热和蒸发,因此能够稳定地开始流体振动,结果能够平稳地开始蒸汽发动机的运转。
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公开(公告)号:US07424802B2
公开(公告)日:2008-09-16
申请号:US11132653
申请日:2005-05-19
CPC分类号: F01K27/005
摘要: A steam engine has a pipe shaped fluid container, a heating and cooling devices respectively provided at a heating and cooling portions of the fluid container, and an output device connected to the fluid container, so that the output device is operated by the fluid pressure change in the fluid container, to generate an electric power. In such a steam engine, an inner radius “r1” of the cooling portion is made to almost equal to a depth “δ1” of thermal penetration, which is calculated by the following formula (1); δ 1 = 2 a 1 ω ( 1 ) wherein, “a1” is a heat diffusivity of the working fluid at its low pressure, and “ω” is an angular frequency of the movement of the working fluid.
摘要翻译: 蒸汽发动机具有管状流体容器,分别设置在流体容器的加热和冷却部分处的加热和冷却装置以及连接到流体容器的输出装置,使得输出装置由流体压力变化 在流体容器中产生电力。 在这种蒸汽机中,冷却部分的内半径“r 1”几乎等于通过下式(1)计算的热穿透深度“delta1”;
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公开(公告)号:US20050193735A1
公开(公告)日:2005-09-08
申请号:US11070031
申请日:2005-03-01
摘要: A liquid pump for circulating working fluid (water) in a Rankine cycle comprises a U-shaped fluid vessel having a bending pipe portion and a pair of straight pipe portions, wherein a heating device and a cooling device are provided at one of the straight pipe portions for heating and cooling the water in the fluid vessel. The liquid pump further has a discharge pipe portion and an inlet pipe portion, and check valves are respectively provided in the discharge and inlet pipe portions. The water is vaporized by a heating operation of the heating device to increase pressure of the working fluid in the pump, so that the working fluid is discharged. The vaporized working fluid is then cooled down by the cooling device to decrease the pressure of the working fluid in the pump, so that the working fluid is sucked into the pump.
摘要翻译: 用于在兰金循环中循环工作流体(水)的液体泵包括具有弯曲管部分和一对直管部分的U形流体容器,其中加热装置和冷却装置设置在直管 用于加热和冷却流体容器中的水的部分。 液体泵还具有排出管部分和入口管部分,并且止回阀分别设置在排出和入口管部分中。 通过加热装置的加热操作使水蒸发,以增加泵中的工作流体的压力,从而排出工作流体。 蒸发的工作流体然后通过冷却装置冷却,以降低泵中的工作流体的压力,使得工作流体被吸入泵中。
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公开(公告)号:US07905090B2
公开(公告)日:2011-03-15
申请号:US12228414
申请日:2008-08-11
IPC分类号: F01B29/10
CPC分类号: F01K27/005
摘要: A steam engine has a pipe shaped fluid container, a heating and cooling devices respectively provided at a heating and cooling portions of the fluid container, and an output device connected to the fluid container, so that the output device is operated by the fluid pressure change in the fluid container, to generate an electric power. In such a steam engine, an inner radius “r1” of the cooling portion is made to almost equal to a depth “δ1” of the thermal penetration, which is calculated by the following formula (1); δ 1 = 2 a 1 ω ( 1 ) wherein, “a1” is a heat diffusivity of the working fluid at its low pressure, and “ω” is an angular frequency of the movement of the working fluid.
摘要翻译: 蒸汽发动机具有管状流体容器,分别设置在流体容器的加热和冷却部分处的加热和冷却装置以及连接到流体容器的输出装置,使得输出装置由流体压力变化 在流体容器中产生电力。 在这样的蒸汽机中,冷却部的内半径“r1”与通过下式(1)计算出的热贯穿深度“δ1”大致相等。 δ1 = 2a 1ω(1)其中,“a1”是工作流体在其低压下的热扩散率,“ω”是工作流体的运动的角频率。
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公开(公告)号:US20080178595A1
公开(公告)日:2008-07-31
申请号:US11973364
申请日:2007-10-05
IPC分类号: F01K19/04
CPC分类号: F01K11/00
摘要: An external combustion engine formed with a plurality of heaters for improving output, provided with a container in which a working medium is sealed flowable in a liquid state, the container being formed with heaters for heating part of a working medium to generate vapor of the working medium and coolers for cooling the vapor to liquefy, the generation and liquefaction of the vapor causing the working medium to change in volume and the displacement of the liquid part of the working medium caused by the change in volume of the working medium being converted to mechanical energy for output, wherein at least the parts of the container connected with the heaters being branched into pluralities of tubular parts, a plurality of heaters are formed so as to be connected with the plurality of tubular parts, a plurality of vapor reservoirs for storing the vapor of the working medium are formed so as to be connected with the plurality of heaters, and the plurality of vapor reservoirs are connected with each other.
摘要翻译: 一种形成有多个用于提高输出的加热器的外燃机,设置有容器,其中工作介质被密封在液体状态下可流动,该容器形成有加热器,用于加热工作介质的一部分以产生工作的蒸气 介质和冷却器,用于冷却蒸气以液化,产生和液化蒸气,导致工作介质的体积变化和由工作介质的体积变化引起的工作介质的液体部分的变化被转换成机械 用于输出的能量,其中至少与加热器相连的容器的部分分支成多个管状部件,多个加热器形成为与多个管状部件连接,多个蒸气容器用于存储 工作介质的蒸气形成为与多个加热器连接,并且多个蒸气容器连接 d彼此。
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公开(公告)号:US06976360B1
公开(公告)日:2005-12-20
申请号:US11070407
申请日:2005-03-01
申请人: Shinichi Yatsuzuka , Shuzo Oda , Katsuya Komaki
发明人: Shinichi Yatsuzuka , Shuzo Oda , Katsuya Komaki
摘要: A steam engine has a fluid container, a heating device and a cooling device provided at the fluid container for heating and cooling working fluid filled in the fluid container, so that a part of the working fluid is heated and vaporized to move the liquid-phase working fluid in one direction. When the vaporized steam is cooled and liquidized, the pressure of the working fluid in the fluid container is decreased, to thereby move the liquid-phase working fluid in the backward direction. Kinetic energy is thereby generated by using the back and forth movement of the working fluid. The heating device has multiple through-holes, through which the working fluid flows and heated by a heating surface (an inner surface of the through-holes) of the heating device, wherein a diameter “d” of the through-hole is made almost equal to or smaller than a depth of heat penetration “δ”, which is determined by the following formula: δ=√{square root over (2a/ω)} wherein “a” is a heat diffusivity of the working fluid, and “ω” is an angular frequency of the working fluid during the working fluid is periodically moved back and forth.
摘要翻译: 蒸汽机具有流体容器,加热装置和设置在流体容器处的用于加热和冷却填充在流体容器中的工作流体的冷却装置,使得一部分工作流体被加热和蒸发以使液相 工作流体在一个方向。 当蒸发的蒸汽冷却并液化时,流体容器中的工作流体的压力降低,从而使液相工作流体向后移动。 因此通过使用工作流体的前后运动来产生动能。 加热装置具有多个通孔,工作流体通过该通孔由加热装置的加热表面(通孔的内表面)流动并加热,其中通孔的直径“d”几乎形成 等于或小于热穿透深度“delta”,其由以下公式确定:<?in-line-formula description =“In-line Formulas”end =“lead”?> delta =√{square root (2a /ω)} <?in-line-formula description =“In-line Formulas”end =“tail”?>其中“a”是工作流体的热扩散率,“ω”是角频率 在工作流体中的工作流体周期性地前后移动。
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公开(公告)号:US20050193736A1
公开(公告)日:2005-09-08
申请号:US11070407
申请日:2005-03-01
申请人: Shinichi Yatsuzuka , Shuzo Oda , Katsuya Komaki
发明人: Shinichi Yatsuzuka , Shuzo Oda , Katsuya Komaki
摘要: A steam engine has a fluid container, a heating device and a cooling device provided at the fluid container for heating and cooling working fluid filled in the fluid container, so that a part of the working fluid is heated and vaporized to move the liquid-phase working fluid in one direction. When the vaporized steam is cooled and liquidized, the pressure of the working fluid in the fluid container is decreased, to thereby move the liquid-phase working fluid in the backward direction. Kinetic energy is thereby generated by using the back and forth movement of the working fluid. The heating device has multiple through-holes, through which the working fluid flows and heated by a heating surface (an inner surface of the through-holes) of the heating device, wherein a diameter “d” of the through-hole is made almost equal to or smaller than a depth of heat penetration “δ”, which is determined by the following formula: δ={square root}{square root over (2a/ω)}wherein “a” is a heat diffusivity of the working fluid, and “ω” is an angular frequency of the working fluid during the working fluid is periodically moved back and forth.
摘要翻译: 蒸汽机具有流体容器,加热装置和设置在流体容器处的用于加热和冷却填充在流体容器中的工作流体的冷却装置,使得一部分工作流体被加热和蒸发以使液相 工作流体在一个方向。 当蒸发的蒸汽冷却并液化时,流体容器中的工作流体的压力降低,从而使液相工作流体向后移动。 因此通过使用工作流体的前后运动来产生动能。 加热装置具有多个通孔,工作流体通过该通孔由加热装置的加热表面(通孔的内表面)流动并加热,其中通孔的直径“d”几乎形成 等于或小于热穿透深度“delta”,其由以下公式确定:<?in-line-formula description =“In-line Formulas”end =“lead”?> delta = {square root} {平方根(2a /ω)} <?in-line-formula description =“In-line Formulas”end =“tail”?>其中“a”是工作流体的热扩散率,“ω” 在工作流体期间工作流体的角频率周期性地前后移动。
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公开(公告)号:US07503176B2
公开(公告)日:2009-03-17
申请号:US11070031
申请日:2005-03-01
IPC分类号: F01K1/00
摘要: A liquid pump for circulating working fluid (water) in a Rankine cycle comprises a U-shaped fluid vessel having a bending pipe portion and a pair of straight pipe portions, wherein a heating device and a cooling device are provided at one of the straight pipe portions for heating and cooling the water in the fluid vessel. The liquid pump further has a discharge pipe portion and an inlet pipe portion, and check valves are respectively provided in the discharge and inlet pipe portions. The water is vaporized by a heating operation of the heating device to increase pressure of the working fluid in the pump, so that the working fluid is discharged. The vaporized working fluid is then cooled down by the cooling device to decrease the pressure of the working fluid in the pump, so that the working fluid is sucked into the pump.
摘要翻译: 用于在兰金循环中循环工作流体(水)的液体泵包括具有弯曲管部分和一对直管部分的U形流体容器,其中加热装置和冷却装置设置在直管 用于加热和冷却流体容器中的水的部分。 液体泵还具有排出管部分和入口管部分,并且止回阀分别设置在排出和入口管部分中。 通过加热装置的加热操作使水蒸发,以增加泵中的工作流体的压力,从而排出工作流体。 蒸发的工作流体然后通过冷却装置冷却,以降低泵中的工作流体的压力,使得工作流体被吸入泵中。
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