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    • 12. 发明申请
    • SOLAR POWER PLANT PART OF A SOLAR THERMAL POWER PLANT AND SOLAR THERMAL POWER PLANT PROVIDED WITH SOLAR COLLECTOR SURFACES FOR A HEAT TRANSFER MEDIUM AND WORKING MEDIUM
    • 甲太阳热能发电设施和太阳能热发电厂与太阳能收集器用于热传递介质与工作介质的太阳能发电站PART
    • WO2011138215A3
    • 2012-03-15
    • PCT/EP2011056711
    • 2011-04-28
    • SIEMENS AGBRUECKNER JANFRANKE JOACHIM
    • BRUECKNER JANFRANKE JOACHIM
    • F03G6/00F03G6/06F22B1/00
    • F03G6/067F01K3/18F01K7/22F22B1/006Y02E10/46
    • The invention relates to a solar power plant part (23) of a solar thermal power plant (22), comprising a first solar collector surface (24) which is arranged in one section of a heat transfer medium circuit (29). A second solar collector surface (25) is arranged in the solar power plant part (23) as a super heater for a working medium which can be released for technical work in a turbine (12). The invention also relates to a solar thermal power plant (22) comprising a solar power plant part (23), a working medium circuit (31) which comprises a steam turbine (12), a first hear exchanger (8) for transferring heat from the heat transfer medium circuit (29) to the working medium circuit (31). The first heat exchanger (8) is connected on the primary side in the heat exchanger medium circuit (29) and on the secondary side in the working medium circuit (31), the second solar collector surface (25) being connected behind the first heat exchanger (8) in the working medium circuit (31) as a super heater in the direction of flow of the working medium. The invention also relates to a method for operating a solar thermal power plant (22).
    • 本发明涉及一种设置在传热介质回路(29),的一个腿的太阳能热电厂的太阳能发电站部分(23)(22)具有第一太阳收集器(24),其中第二太阳收集器(25),用于工作介质过热器 即detensioned,释放技术工作在一个涡轮机(12),在太阳能发电站部分(23)被布置。 本发明还涉及一种太阳热能发电设施(22),其包括太阳能发电站部分(23),一个工作介质回路(31),在该蒸汽涡轮机(12)布置,在第一热交换器(8),用于从所述热传递介质回路的热传递 (29)到工作介质回路(31),其特征在于,在与该第二太阳收集器(25),过热器连接在所述载热体回路(29)和在所述工作介质循环的次级侧(31)的一次侧的第1热交换器(8) 在工作介质循环回路的第一热交换器(8)后的工作介质的流动方向(31)连接。 本发明还涉及一种操作太阳能热电设备(22)的方法。
    • 13. 发明申请
    • WASTE HEAT STEAM GENERATOR
    • 热回收蒸汽发生器
    • WO2010029033A3
    • 2010-06-10
    • PCT/EP2009061521
    • 2009-09-07
    • SIEMENS AGBRUECKNER JANFRANKE JOACHIMSCHMIDT HOLGERTHOMAS FRANK
    • BRUECKNER JANFRANKE JOACHIMSCHMIDT HOLGERTHOMAS FRANK
    • F22B15/00F22B21/00F22B37/26
    • F22B15/00F22B21/00F22B37/26
    • The invention relates to a waste heat steam generator (1) having a plurality of evaporator tubes (4) which are connected in parallel on the flow medium side, a plurality of overheating tubes (26) being mounted downstream of the evaporator tubes by means of a water separation system. Said water separation system comprises a number of water separating elements (12), each water separation element being respectively mounted downstream of a plurality of evaporator tubes (4) and/or upstream of a plurality of overheating tubes (26). Each water separating element (12) comprises an inlet pipe (14) which is respectively connected upstream to the evaporator tubes (4), said inlet pipe extending into a water evacuation pipe when seen in the longitudinal direction. A plurality of outflow pipes (18) branch off in the transitional area, said pipes being connected to a inlet collector (28) of the overheating tubes (26) which are respectively connected downstream. The aim of the invention is to provide said type of waste heat steam generator which is characterised in that it has a particularly high level of operational flexibility with comparatively low construction and reparation complexity. As a result, a distribution element (34) is arranged on the steam side between the respective water separating element (12) and the inlet collector (28).
    • 具有多个流动介质侧并联蒸发管(4)的热回收蒸汽发生器(1),其一些过热器管道(26)通过水分离器相连,水分离器包括多个Wasserabscheideelementen(12),其每一个的数中的每一个的 被蒸发器管(4)连接的下游和/或多个过热器管道(26),每一个的上游侧,所述Wasserabscheideelemente(12)包括一个与(4)连接Einströmrohrstück(14)看到的在其纵向方向(在Wasserableitrohrstück的相应的上游的蒸发器管 16)通过,其特征在于,在过渡区域中分支的数Abströmrohrstücken被连接(18)(与相应的下游的过热器管(26)的入口集管28),在特别高的操作灵活性,使与它相对低的建造和维修成本。 为了这个目的,各个Wasserabscheideelement(12)和所述入口集电体(28)之间的蒸汽侧被布置在分配器元件(34)。
    • 15. 发明申请
    • CONTINUOUS EVAPORATOR
    • PASS式蒸发器
    • WO2010102869A3
    • 2011-07-07
    • PCT/EP2010051534
    • 2010-02-09
    • SIEMENS AGBRUECKNER JANFRANKE JOACHIMSCHLUND GERHARD
    • BRUECKNER JANFRANKE JOACHIMSCHLUND GERHARD
    • F22B29/06F01K23/10F22B21/02F22B37/62
    • F01K23/10F22B1/1815F22B21/02F22B29/061F22B37/62Y02E20/16Y10T29/4935
    • The invention relates to a continuous evaporator (1) for a horizontally constructed waste heat steam generator (2), which comprises a first evaporator heating surface (8) having a plurality of essentially vertically arranged first steam generator tubes (13) through which a flow medium can flow from bottom to top, and a second evaporator heating surface (10) which is mounted downstream of the first evaporator heating surface (8) on the flow medium side. Said second evaporator heating surface comprises a plurality of additional essentially vertically arranged second steam generator tubes (14) through which a flow medium can flow from bottom to top. The aim of the invention is to produce a continuous evaporator which is simple to construct and which has a long service life. As a result, the second steam generator tubes (14) are designed in such a manner that the average mass flow density which can be controlled in the full load operation does not fall below a predetermined minimum mass flow density in the second steam generator tubes (14).
    • 一次通过蒸发器(1)的热回收蒸汽发生器(2)在水平施工与第一蒸发器加热表面(8)基本上布置了许多垂直的,从下到上通过其流动的第一蒸汽发生器管(13),并且进一步地,所述第一蒸发器 (8)在流动介质侧下游的第二蒸发器加热表面(10)包括多个另外的,基本上垂直布置的,从底部穿过该顶部流过的第二蒸汽发生器管(14)应允许在具有特别高的使用寿命特别简单的结构。 为此,第二蒸汽发生器管(14)被设计成使得所述调整是在满负荷质量平均电流密度没有落在预定的最小质量流量密度低于在所述第二蒸汽发生器管(14)。
    • 16. 发明申请
    • CONTINUOUS EVAPORATOR
    • PASS式蒸发器
    • WO2010142495A2
    • 2010-12-16
    • PCT/EP2010055886
    • 2010-04-30
    • SIEMENS AGBRUECKNER JANFRANKE JOACHIM
    • BRUECKNER JANFRANKE JOACHIM
    • F22B37/103F22B1/1815F22B29/062
    • The invention relates to a continuous evaporator (1) for a horizontal waste heat steam generator comprising a first evaporator heating surface (8) that has a number of essentially vertically arranged first steam generating tubes (13) wherein the circulation takes place from the bottom to the top, and another second evaporator heating surface (10) located downstream of the first evaporator heating surface on the side of the flow medium, said second evaporator heating surface comprising a number of other essentially vertically arranged second steam generating tubes wherein the circulation takes place from the bottom to the top. The aim of the invention is to provide said continuous evaporator with an especially simple structure and an especially long service life. To this end, a number of second steam generating tubes (14) have an inner profiled element (22).
    • 一次通过蒸发器(1)的热回收蒸汽发生器(2)在水平施工与第一蒸发器加热表面(8)基本上布置了许多垂直的,从下到上通过其流动的第一蒸汽发生器管(13),并且进一步地,所述第一蒸发器 (8)在流动介质侧下游的第二蒸发器加热表面(10)包括多个另外的,基本上垂直布置的,从底部穿过该顶部流过的第二蒸汽发生器管(14)应允许在具有特别高的使用寿命特别简单的结构。 为了这个目的,多个在其内轮廓(22)的第二蒸汽发生器管(14)的。
    • 17. 发明申请
    • CONTINUOUS STEAM GENERATOR
    • 直流式蒸汽发生器
    • WO2010029022A2
    • 2010-03-18
    • PCT/EP2009061468
    • 2009-09-04
    • SIEMENS AGEFFERT MARTINTHOMAS FRANKFRANKE JOACHIM
    • EFFERT MARTINTHOMAS FRANKFRANKE JOACHIM
    • F22B37/26F22B21/345F22B29/06
    • The invention relates to a continuous steam generator (1) comprising a number of burners for fossil fuels, the outside wall thereof being fully or partially formed from steam generator tubes welded together in a gas-tight manner. The burners are arranged in a combustion chamber, and a vertical gas slope (8) being mounted downstream of said combustion chamber, above a horizontal gas slope, on the hot gas side. A first part of the steam generating tubes forms a system of evaporation tubes mounted upstream of a water separator system (22), on the flow medium side, and a second part of the steam generating tubes forms a system of superheater tubes mounted downstream of the water separator system (22), on the flow medium side. According to the invention, said continuous steam generator has comparatively low repair costs and a comparatively long service life. To this end, superheater tubes adjacent and parallel to evaporation tubes are mounted directly downstream of the water separator system (22), on the flow medium side.
    • 具有具有环绕壁化石燃料许多燃烧器的一次通过蒸汽发生器(1)完全或部分地形成气密焊接在一起蒸汽发生器管,其中,所述燃烧器被布置在燃烧室的形成,经由水平(6),一个垂直气体烟道热气侧(8) 下游连接,蒸发器管,其中所述蒸汽发生器管道的作为水分离器的系统中的第一部分(22)上游流动介质侧形成和蒸汽发生器管的作为形成(22)流动介质侧下游的过热器管中的水分离器的系统的第二部分,将被指定的,一个 维修成本相对较低,且使用寿命相对较长。 为此,邻接蒸发器管的过热器管直接连接在流动介质侧的水分离系统(22)的下游。
    • 18. 发明申请
    • CONTINUOUS EVAPORATOR
    • PASS式蒸发器
    • WO2010102865A3
    • 2012-06-07
    • PCT/EP2010051425
    • 2010-02-05
    • SIEMENS AGBRUECKNER JANFRANKE JOACHIMSCHLUND GERHARD
    • BRUECKNER JANFRANKE JOACHIMSCHLUND GERHARD
    • F22B1/18F22B29/06
    • F22B1/1815F22B29/062Y02E20/16
    • The invention relates to a continuous evaporator (1) for a horizontally constructed waste heat steam generator (2), which comprises a first evaporator heating surface (8) having a plurality of essentially vertically arranged first steam generator tubes (13) through which a flow medium can flow from bottom to top, and a second evaporator heating surface (10) which is mounted downstream of the first evaporator heating surface (8) on the flow medium side. Said second evaporator heating surface comprises a plurality of additional essentially vertically arranged second steam generator tubes (14) through which a flow medium can flow from bottom to top. The aim of the invention is to produce a continuous evaporator which is simple to construct and which has a particularly high degree of operational safety. As a result, the first steam generator tubes (13) are designed in such a manner that the average mass flow density which can be controlled in the full load operation does not fall below a predetermined minimum mass flow density in the first steam generator tubes (13).
    • 一次通过蒸发器(1)的热回收蒸汽发生器(2)在水平施工与第一蒸发器加热表面(8)基本上布置了许多垂直的,从下到上通过其流动的第一蒸汽发生器管(13),并且进一步地,所述第一蒸发器 (8)在流动介质侧下游的第二蒸发器加热表面(10)包括多个另外的,基本上垂直布置的,从底部穿过该顶部流过的第二蒸汽发生器管(14)的目的是具有特别高的操作安全性在一个特别简单的结构。 对于这一点,在第一蒸汽发生器管(13)被设计成使得所述调节是在满负荷运转是指在所述第一蒸汽发生器管(13)质量流密度没有落在预定的最小质量流量密度的下方。
    • 19. 发明申请
    • CONTINUOUS EVAPORATOR
    • PASS式蒸发器
    • WO2010102864A2
    • 2010-09-16
    • PCT/EP2010051361
    • 2010-02-04
    • SIEMENS AGBRUECKNER JANFRANKE JOACHIMSCHLUND GERHARD
    • BRUECKNER JANFRANKE JOACHIMSCHLUND GERHARD
    • F01K23/10F22B1/1815F22B21/02F22B29/06F22B37/74Y02E20/16
    • The invention relates to a continuous evaporator (1) for a horizontally constructed waste heat steam generator (2), which comprises a first evaporator heating surface (8) having a plurality of essentially vertically arranged first steam generator tubes (13) through which a flow medium can flow from bottom to top, and another second evaporator heating surface (10) which is mounted downstream of the first evaporator heating surface (8) on the flow medium side. Said second evaporator heating surface comprises a plurality of additional essentially vertically arranged second steam generator tubes (14) through which a flow medium can flow from bottom to top. The aim of the invention is to produce a continuous evaporator which is simple to construct and which has a long service life. As a result, an opening system (22) is arranged downstream of the second steam generator tubes (14) on the flow medium side.
    • 一次通过蒸发器(1)的热回收蒸汽发生器(2)在水平施工与第一蒸发器加热表面(8)基本上布置了许多垂直的,从下到上通过其流动的第一蒸汽发生器管(13),并且进一步地,所述第一蒸发器 (8)在流动介质侧下游的第二蒸发器加热表面(10)包括多个进一步的,基本上垂直布置的,从底部穿过顶部流动的第二蒸汽发生器管(14)应允许在具有特别高的使用寿命特别简单的结构。 用于此目的的隔膜系统(22)连接在所述第二蒸汽发生器管(14)中流动介质侧的下游。
    • 20. 发明申请
    • METHOD FOR OPERATING A CONTINUOUS FLOW STEAM GENERATOR
    • 方法操作连续蒸汽发生器和强制连续蒸汽发生器
    • WO2009150055A2
    • 2009-12-17
    • PCT/EP2009056469
    • 2009-05-27
    • SIEMENS AGBRUECKNER JANTHOMAS FRANKFRANKE JOACHIM
    • BRUECKNER JANTHOMAS FRANKFRANKE JOACHIM
    • F22B35/10
    • The invention relates to a method for operating a continuous flow steam generator comprising an evaporator heating surface (4), whereby a target value (Ms) for a supply water mass flow (M) is fed to a device for adjusting the supply water mass flow (M). In order to improve the quality of a predictive supply water or mass flow control and to maintain the enthalpy of the flow medium at the evaporator outlet particularly stable especially when load changes occur, a correction factor (K) is taken into consideration during production of the target value (Ms) for the supply water mass flow (M), said correction factor being characteristic of the temporal derivative of enthalpy or the density of the flow medium at the input of one or more heating surfaces (2, 4).
    • 在用蒸发器加热表面(4),其中,用于设置给水质量流量(M),所希望的值(MS),用于给水质量流量(M)的装置被提供操作连续蒸汽发生器的方法,预测给水流量或质量流量调节的质量是进一步 提高,流动介质的焓特别是在负荷变化的情况下被保持在蒸发器出口特别稳定。 为了这个目的,根据本发明中所希望的值(MS),用于给水质量流量(M),用于或者在一个或多个加热表面(2,4)被认为是特性校正值(K)的输入端的流动介质的密度的焓的时间导数的制备。