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    • 2. 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。
    • 3. 发明授权
    • Solar power tower system operation and control
    • 太阳能发电塔系统运行和控制
    • US08327840B2
    • 2012-12-11
    • US12841335
    • 2010-07-22
    • Yoel GilonIsrael Kroizer
    • Yoel GilonIsrael Kroizer
    • F24J2/38
    • F03G6/06F24S20/20F24S50/40F24S2023/87Y02E10/41Y02E10/46
    • A solar energy collection system includes a primary solar receiver and a secondary solar receiver. The secondary solar receiver generates steam using energy from solar radiation incident thereon. The primary solar receiver receives the generated steam from the secondary solar receiver and superheats the steam using energy from solar radiation incident thereon. A plurality of heliostat-mounted mirrors reflects incident solar radiation onto one of the primary and secondary solar receivers. A controller aims a portion of the heliostat-mounted mirrors at the primary solar receiver such that a predetermined thermal profile is provided on a surface of the primary solar receiver.
    • 太阳能收集系统包括主太阳能接收器和次级太阳能接收器。 二次太阳能接收器使用从其上入射的太阳辐射的能量产生蒸汽。 主太阳能接收器接收来自次级太阳能接收器的产生的蒸汽,并且使用来自太阳辐射的能量过热蒸汽。 多个定日光镜安装的反射镜将入射的太阳辐射反射到主太阳能和次级太阳能接收器中的一个上。 控制器将定日镜安装的反射镜的一部分设置在主太阳能接收器处,使得在主太阳能接收器的表面上提供预定的热分布。
    • 5. 发明授权
    • Method and control system for operating a solar power tower system
    • 运行太阳能发电塔系统的方法和控制系统
    • US08365718B2
    • 2013-02-05
    • US13192858
    • 2011-07-28
    • Yoel GilonIsrael KroizerGil Kroyzer
    • Yoel GilonIsrael KroizerGil Kroyzer
    • F24J2/40
    • F03G6/06F24S20/20F24S50/40F24S2023/87Y02E10/41Y02E10/46
    • A solar energy collection system includes a primary solar receiver and a secondary solar receiver. The secondary solar receiver generates steam using energy from solar radiation incident thereon. The primary solar receiver receives the generated steam from the secondary solar receiver and superheats the steam using energy from solar radiation incident thereon. A plurality of heliostat-mounted mirrors reflects incident solar radiation onto one of the primary and secondary solar receivers. A controller aims a portion of the heliostat-mounted mirrors at the primary solar receiver such that a predetermined thermal profile is provided on a surface of the primary solar receiver.
    • 太阳能收集系统包括主太阳能接收器和次级太阳能接收器。 二次太阳能接收器使用从其上入射的太阳辐射的能量产生蒸汽。 主太阳能接收器接收来自次级太阳能接收器的产生的蒸汽,并且使用来自太阳辐射的能量过热蒸汽。 多个定日光镜安装的反射镜将入射的太阳辐射反射到主太阳能和次级太阳能接收器中的一个上。 控制器将定日镜安装的反射镜的一部分设置在主太阳能接收器处,使得在主太阳能接收器的表面上提供预定的热分布。
    • 6. 发明申请
    • DISTRIBUTED POWER TOWERS WITH DIFFERENTIATED FUNCTIONALITIES
    • 具有差异功能的分布式电源
    • US20100191378A1
    • 2010-07-29
    • US12532942
    • 2008-03-26
    • Yoel GilonIsrael KroizerGabriel Kaufmann
    • Yoel GilonIsrael KroizerGabriel Kaufmann
    • G05B15/00F24J2/38F24J2/40F03G6/06
    • F24S50/00F24S50/20Y02E10/46Y02E10/47
    • A concentrating solar system has multiple receivers, in some embodiments mounted on multiple towers, on which solar energy is concentrating using heliostats. At least some heliostats are controlled such that they may direct energy onto different receivers to achieve any of various control goals, such as temperature or flux uniformity of the receiver. In preferred embodiments, the receivers or receiver portions are fluidly connected in stages such that there are high temperature targets, e.g., superheated receivers or portions, and low temperature targets, e.g. evaporating receivers or targets. By doing so, it is possible to selectively control heliostats to track for directing energy on the targets to, for example, achieve temperature uniformity of the high temperature target by selecting heliostats for that control goal under varying circumstances.
    • 集中太阳能系统具有多个接收器,在一些实施例中,安装在多个塔上,太阳能利用定日镜来集中。 至少一些定日镜被控制,使得它们可以将能量引导到不同的接收器上,以实现各种控制目标中的任何一个,例如接收器的温度或通量均匀性。 在优选实施例中,接收器或接收器部分分级地流体连接,使得存在高温目标,例如过热接收器或部分,以及低温目标,例如, 蒸发接收器或目标。 通过这样做,可以选择性地控制定日镜以跟踪目标上的能量,例如通过在不同情况下选择用于该控制目标的定日镜来实现高温目标的温度均匀性。