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    • 1. 发明申请
    • THERMAL STORAGE SYSTEM AND METHODS
    • 热存储系统和方法
    • US20130285380A1
    • 2013-10-31
    • US13976925
    • 2012-01-03
    • Leon Afremov
    • Leon Afremov
    • F03G6/06F24J2/34F01D15/10F24J2/30
    • F03G6/065F01D15/10F24S10/30F24S20/20F24S60/00Y02E10/41Y02E10/46Y02P80/156Y02P80/24
    • Insolation can be used to heat a solar fluid for use in generating electricity. During periods of relatively higher insolation, excess enthalpy in a superheated solar fluid can be stored in a thermal storage system for subsequent use during periods of relatively lower insolation or at times when supplemental electricity generation is necessary. Enthalpy from superheated solar fluid can be transferred to the thermal storage system so as to heat a storage medium therein, but the enthalpy transfer can be limited such that the superheated solar fluid does not condense or only partially condenses. The remaining enthalpy in the de-superheated solar fluid can be used for other applications, such as, but not limited to, preheating the solar fluid for an evaporating solar receiver, supplementing the input to a superheating solar receiver, industrial applications, resource extraction, and/or fuel production.
    • 绝热可用于加热用于发电的太阳能流体。 在相对较高的日照期间,过热太阳能流体中的过量焓可以储存在热存储系统中,用于随后在相对较低的日照期间或在需要补充发电的时间期间使用。 来自过热太阳能流体的焓可以转移到热存储系统以便加热其中的存储介质,但是可以限制焓传递,使得过热太阳能流体不会冷凝或仅部分冷凝。 脱过热太阳能流体中的剩余焓可用于其他应用,例如但不限于预热用于蒸发太阳能接收器的太阳能流体,补充过热太阳能接收器的输入,工业应用,资源提取, 和/或燃料生产。
    • 2. 发明申请
    • SOLAR ENERGY STORAGE SYSTEM INCLUDING THREE OR MORE RESERVOIRS
    • 太阳能储存系统,包括三个或更多的储存
    • US20130307273A1
    • 2013-11-21
    • US13977691
    • 2011-11-29
    • Leon AfremovGideon Goldwine
    • Leon AfremovGideon Goldwine
    • H02K7/18
    • H02K7/18F03G6/02Y02E10/46
    • A first period may be characterized by relatively high insolation, while a second period may be characterized by relatively low insolation. At the first period, steam is generated using insolation. A portion of the steam produces electricity, while a second portion of the steam is directed to a heat exchanger in thermal communication with thermal reservoirs. A storage fluid is flowed through the heat exchanger from a first reservoir to a second reservoir and/or from the second reservoir to a third reservoir such that enthalpy in the steam second portion is transferred to the storage fluid. At a second period, the storage fluid is reverse-flowed through the heat exchanger from the third to the second reservoir and/or from the second to the first reservoir such that enthalpy in the storage fluid generates steam to produce electricity. Enthalpy during high insolation periods can thus be stored for use during low insolation periods.
    • 第一时期的特征可以是相对较高的日晒,而第二时期的特征可以是日照相对较低。 在第一个时期,使用日晒产生蒸汽。 蒸汽的一部分产生电力,而蒸汽的第二部分被引导到与热储存器热连通的热交换器。 存储流体通过热交换器从第一储存器流到第二储存器和/或从第二储存器流到第三储存器,使得蒸汽第二部分中的焓被转移到储存流体。 在第二时段,存储流体通过热交换器从第三储存器和/或从第二储存器反向流动,使得存储流体中的焓产生蒸汽以产生电力。 因此,在高日照期间的焓值可以在低日照期间储存使用。
    • 4. 发明申请
    • SYSTEMS, METHODS, AND DEVICES FOR OPERATING A SOLAR THERMAL ELECTRICITY GENERATING SYSTEM
    • 用于操作太阳能热发电系统的系统,方法和装置
    • US20130091842A1
    • 2013-04-18
    • US13695145
    • 2011-05-03
    • Gabriel KaufmannLeon AfremovYona Magen
    • Gabriel KaufmannLeon AfremovYona Magen
    • F03G6/00
    • F03G6/003F01K13/02F02C1/05F03G6/065F22B1/006F22B35/08F22B35/14Y02E10/46
    • In a startup period for a solar thermal electricity generating system, a non-solar source of steam heats a downstream receiver (for example, a superheating receiver) prior to insolation being available. Insolation, once available, heats an upstream receiver (for example, an evaporator). The upstream receiver can be arranged in a recirculation loop with a steam separation drum, which may be bypassed during the initial heating of the upstream receiver by insolation. Once sufficient temperature and pressure have been reached, steam from the upstream receiver is directed to the downstream receiver by way of the steam separation drum to replace the non-solar source of steam. Heating of the downstream receiver using steam from the upstream receiver continues until a threshold temperature and pressure are reached. Insolation is then directed at both the upstream and downstream receivers to generate steam for electricity production by a turbine.
    • 在太阳能热发电系统的启动期间,非太阳能蒸汽源在日照之前加热下游接收器(例如,过热接收器)。 一旦可用,绝热加热上游接收器(例如蒸发器)。 上游接收器可以布置在具有蒸汽分离鼓的再循环回路中,蒸汽分离鼓可以在通过日照在上游接收器的初始加热期间被旁路。 一旦已经达到足够的温度和压力,来自上游接收器的蒸汽通过蒸汽分离鼓被引导到下游接收器,以取代非太阳能蒸汽源。 使用来自上游接收器的蒸汽对下游接收器进行加热,直到达到阈值温度和压力。 然后,将上游和下游接收器的绝缘指示到涡轮机产生用于电力生产的蒸汽。
    • 6. 发明授权
    • Systems, methods, and devices for operating a solar thermal electricity generating system
    • 用于操作太阳能热发电系统的系统,方法和装置
    • US09255569B2
    • 2016-02-09
    • US13695145
    • 2011-05-03
    • Gabriel KaufmannLeon AfremovYona Magen
    • Gabriel KaufmannLeon AfremovYona Magen
    • F03G6/06F03G6/00F01K13/02F02C1/05F22B1/00F22B35/08F22B35/14
    • F03G6/003F01K13/02F02C1/05F03G6/065F22B1/006F22B35/08F22B35/14Y02E10/46
    • In a startup period for a solar thermal electricity generating system, a non-solar source of steam heats a downstream receiver (for example, a superheating receiver) prior to insolation being available. Insolation, once available, heats an upstream receiver (for example, an evaporator). The upstream receiver can be arranged in a recirculation loop with a steam separation drum, which may be bypassed during the initial heating of the upstream receiver by insolation. Once sufficient temperature and pressure have been reached, steam from the upstream receiver is directed to the downstream receiver by way of the steam separation drum to replace the non-solar source of steam. Heating of the downstream receiver using steam from the upstream receiver continues until a threshold temperature and pressure are reached. Insolation is then directed at both the upstream and downstream receivers to generate steam for electricity production by a turbine.
    • 在太阳能热发电系统的启动期间,非太阳能蒸汽源在日照之前加热下游接收器(例如,过热接收器)。 一旦可用,绝热加热上游接收器(例如蒸发器)。 上游接收器可以布置在具有蒸汽分离鼓的再循环回路中,蒸汽分离鼓可以在通过日照在上游接收器的初始加热期间被旁路。 一旦已经达到足够的温度和压力,来自上游接收器的蒸汽通过蒸汽分离鼓被引导到下游接收器,以取代非太阳能蒸汽源。 使用来自上游接收器的蒸汽对下游接收器进行加热,直到达到阈值温度和压力。 然后,将上游和下游接收器的绝缘指示到涡轮机产生用于电力生产的蒸汽。
    • 8. 发明授权
    • Solar receiver
    • 太阳能接收器
    • US08544272B2
    • 2013-10-01
    • US12664038
    • 2008-06-11
    • Israel KroizerGabriel KaufmannLeon AfremovYoel Gilon
    • Israel KroizerGabriel KaufmannLeon AfremovYoel Gilon
    • F03G6/06F01K7/34
    • F03G6/003F03G6/065F22B1/006F24S20/20Y02E10/41Y02E10/46
    • A method for generating steam for a turbine electric power plant uses solar radiation. Solar radiation is directed onto a solar receiver. The solar receiver includes a first section, which receives feedwater input and is arranged to heat the feedwater input to generate steam using the directed solar radiation. Feedwater flows through a feedwater vessel to serve as feedwater input to an inlet of the first section of the receiver. Water is separated from the steam in steam separation vessel, which is in fluid communication with an outlet of the first section of the receiver. The feedwater input may be selectively preheated by a source of preheat other than solar energy in response to system operating conditions, predicted insolation schedule, or an electrical energy tariff schedule.
    • 一种用于产生用于涡轮发电厂的蒸汽的方法使用太阳辐射。 太阳辐射被引导到太阳能接收器上。 太阳能接收器包括第一部分,其接收给水输入并且被布置成使用定向的太阳辐射来加热给水输入以产生蒸汽。 给水流过给水容器以用作输入到接收器第一部分入口的给水。 水与蒸汽分离容器中的蒸汽分离,蒸汽分离容器与接收器的第一部分的出口流体连通。 供水输入可以响应于系统操作条件,预测的日照时间表或电能关税表,由除太阳能之外的预热源预选择。
    • 9. 发明申请
    • SOLAR RECEIVER
    • 太阳能接收器
    • US20100236239A1
    • 2010-09-23
    • US12664038
    • 2008-06-11
    • Israel I. KroizerGabriel KaufmannLeon AfremovYoel Gilon
    • Israel I. KroizerGabriel KaufmannLeon AfremovYoel Gilon
    • F03G6/06F01K7/34
    • F03G6/003F03G6/065F22B1/006F24S20/20Y02E10/41Y02E10/46
    • A method for generating steam for a turbine electric power plant uses solar radiation. Solar radiation is directed onto a solar receiver. The solar receiver includes a first section, which receives feedwater input and is arranged to heat the feedwater input to generate steam using the directed solar radiation. Feedwater flows through a feedwater vessel to serve as feedwater input to an inlet of the first section of the receiver. Water is separated from the steam in steam separation vessel, which is in fluid communication with an outlet of the first section of the receiver. The feedwater input may be selectively preheated by a source of preheat other than solar energy in response to system operating conditions, predicted insolation schedule, or an electrical energy tariff schedule.
    • 一种用于产生用于涡轮发电厂的蒸汽的方法使用太阳辐射。 太阳辐射被引导到太阳能接收器上。 太阳能接收器包括第一部分,其接收给水输入并且被布置成使用定向的太阳辐射来加热给水输入以产生蒸汽。 给水流过给水容器以用作输入到接收器第一部分入口的给水。 水与蒸汽分离容器中的蒸汽分离,蒸汽分离容器与接收器的第一部分的出口流体连通。 供水输入可以响应于系统操作条件,预测的日照时间表或电能关税表,由除太阳能之外的预热源预选择。