子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于发电厂的辅助蒸汽生成器系统 | CN201280066966.4 | 2012-12-04 | CN104302975B | 2016-11-16 | H.埃德尔曼; M.莱西格; M.萨特尔伯格; A.西里夫 |
| 本发明涉及一种用于发电厂的辅助蒸汽生成器系统(1),该辅助蒸汽生成器系统带有包括凝结物管道(3)和给水管道(16)的水‑蒸汽回路(2),其中在凝结物管道(3)内连接有凝结物泵(4)且在给水管道(16)内连接有给水泵(5),且其中在凝结物泵(4)和给水泵(5)之间连接有压力存储容器(6),且其中在水‑蒸汽回路(2)上在压力存储容器(6)后在分支位置(7)处连接有给水抽取管道(8)。根据本发明,给水抽取管道(8)连接在压力存储容器(6)上且在给水抽取管道(8)内连接有加热设备(9)。 | ||||||
| 2 | 用于发电厂的辅助蒸汽生成器系统 | CN201280066966.4 | 2012-12-04 | CN104302975A | 2015-01-21 | H.埃德尔曼; M.莱西格; M.萨特尔伯格; A.西里夫 |
| 本发明涉及一种用于发电厂的辅助蒸汽生成器系统(1),该辅助蒸汽生成器系统带有包括凝结物管道(3)和给水管道(16)的水-蒸汽回路(2),其中在凝结物管道(3)内连接有凝结物泵(4)且在给水管道(16)内连接有给水泵(5),且其中在凝结物泵(4)和给水泵(5)之间连接有压力存储容器(6),且其中在水-蒸汽回路(2)上在压力存储容器(6)后在分支位置(7)处连接有给水抽取管道(8)。根据本发明,给水抽取管道(8)连接在压力存储容器(6)上且在给水抽取管道(8)内连接有加热设备(9)。 | ||||||
| 3 | 给水预热系统和方法 | CN201410599944.5 | 2014-10-31 | CN104595883A | 2015-05-06 | P.德劳沃特; T.斯坦斯特雷姆; J.迪伊茨曼恩; F.德劳西 |
| 本发明涉及给水预热系统和方法。给水预热系统(100)包括给水罐(110)和恒定容量再循环泵(120)。给水罐(110)适于存储给水。给水罐(110)包括馈送和返回管线(112、114)。馈送管线(112)适于将给水馈送到HRSG(200),而返回管线(114)使得能够使给水返回到给水罐(110)中。返回管线(114)不包括控制阀,并且设置成通到给水罐(110),以减少给水再循环时的构件损失。恒定容量再循环泵(120)设置在馈送管线(112)中,以使给水在HRSG(200)和给水罐(110)之间再循环。泵(120)能够使给水以恒定速度和体积再循环,以减少给水再循环时的热量损失,这与现有技术的给水预热系统相反。 | ||||||
| 4 | 発電所用補助蒸気発生器システム | JP2014552537 | 2012-12-04 | JP6069359B2 | 2017-02-01 | エーデルマン、ハイナー; ライシッヒ、マルク; ザッテルベルガー、マルク; シュリーフ、アンドレ |
| 5 | JPS517761B1 - | JP3763672 | 1972-04-14 | JPS517761B1 | 1976-03-11 | |
| 6 | 作動流体供給制御装置 | JP2018057234 | 2018-03-23 | JP2018165511A | 2018-10-25 | パク、サン シン; カン、セウン ギュ; ホワン、ジョン ホ; リー、ヒョ ソン |
| 【課題】作動流体供給制御装置を提供する。 【解決手段】本発明の作動流体供給制御装置は、作動流体を圧縮する圧縮機と、前記圧縮機へ供給される作動流体を冷却するプレクーラーが備えられたた発電サイクルへ作動流体を供給するための作動流体供給制御装置において、前記発電サイクルへ供給される前記作動流体を貯蔵する貯蔵タンクと、前記プレクーラーと前記圧縮機との間に配置され、前記作動流体が流動または一時貯蔵されるフローテーションタンクとを含み、前記圧縮機の入口および前記プレクーラーの出口の圧力に応じて前記フローテーションタンク内の圧力および前記作動流体の流量が制御されることを特徴とする。本発明によれば、高価なインベントリタンクを使用しなくても圧縮機の入出口の圧力を制御することができ、作動流体の流量を効率よく制御することができるので、サイクル構成費用の削減および経済性の向上を図るという効果がある。 【選択図】図1 |
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| 7 | 発電所用補助蒸気発生器システム | JP2014552537 | 2012-12-04 | JP2015510574A | 2015-04-09 | エーデルマン、ハイナー; ライシッヒ、マルク; ザッテルベルガー、マルク; シュリーフ、アンドレ |
| 本発明は、復水配管(3)および給水配管(16)を含む水・蒸気回路(2)を有する発電所用の補助蒸気発生器システム(1)であって、復水配管(3)中に復水ポンプ(4)が接続され、給水配管(16)中に給水ポンプ(5)が接続され、復水ポンプ(4)と給水ポンプ(5)との間に蓄圧タンク(6)が接続され、蓄圧タンク(6)の後の水・蒸気回路(2)における分岐点(7)に給水抜き取り配管(8)が接続されている補助蒸気発生器システム(1)に関する。本発明によれば、給水抜き取り配管(8)が蓄圧タンク(6)に接続され、給水抜き取り配管(8)中に加熱装置(9)が接続されている。【選択図】図1 | ||||||
| 8 | HILFSDAMPFERZEUGERSYSTEM FÜR EIN KRAFTWERK | EP12809644.3 | 2012-12-04 | EP2791576A2 | 2014-10-22 | EDELMANN, Heiner; REISSIG, Mark; SATTELBERGER, Marc; SCHRIEF, Andre |
| The invention relates to an auxiliary steam generator system (1) for a power plant, comprising a water-steam circuit (2), which has a condensate line (3) and a feed-water line (16), wherein a condensate pump (4) is connected in the condensate line (3) and a feed-water pump (5) is connected in the feed-water line (16), and wherein a pressure accumulating vessel (6) is connected between the condensate pump (4) and the feed-water pump (5), and wherein a feed-water take-off line (8) is connected to the water-steam circuit (2) at a branch-off point after the pressure accumulating vessel (6). According to the invention, the feed-water take-off line (8) is connected to the pressure accumulating vessel (6) and a heating device (9) is connected in the feed-water take-off line (8). | ||||||
| 9 | DEVICE FOR CONTROLLING SUPPLY OF WORKING FLUID | US15927097 | 2018-03-21 | US20180283222A1 | 2018-10-04 | Sang Sin Park; Seung Gyu Kang; Jeong Ho Hwang; Hyo Seong Lee |
| A device for controlling a supply of a working fluid to a power generation cycle with a compressor compressing the working fluid and a precooler cooling the working fluid supplied to the compressor comprises a storage tank storing the working fluid supplied to the power generation cycle and a flotation tank disposed between the precooler and the compressor to flow or temporarily store the working fluid, wherein a pressure within the flotation tank and a flow rate of the working fluid are controlled based on pressures at an inlet of the compressor and an outlet of the precooler. | ||||||
| 10 | Steam power plant with heat reservoir and method for operating a steam power plant | US13668220 | 2012-11-03 | US09399928B2 | 2016-07-26 | Ewald Kitzmann; Volker Schüle; Julia Heintz; Benjamin Bond |
| A steam power plant is suggested having, parallel to the low-pressure passage (VW1 to VW2), a heat reservoir (A) which is loaded with preheated condensate in weak-load times. This preheated condensate is taken from the heat reservoir (A) for generating peak-load and inserted downstream of the low-pressure preheater passage (VW1 to VW2) into the condensate line that contacts the feed water container (8). Thus it is possible to quickly control the power generation of the power plant in a wide range without significantly having to change the heating output of the boiler of the steam generator (1). A steam power plant equipped according to the invention can thus be operated with bigger load modifications and also provide more control energy. | ||||||
| 11 | AUXILIARY STEAM GENERATOR SYSTEM FOR A POWER PLANT | US14372223 | 2012-12-04 | US20150000276A1 | 2015-01-01 | Heiner Edelmann; Mark Reissig; Marc Sattelberger; Andre Schrief |
| An auxiliary steam generator system for a power plant, comprising a water-steam circuit, which has a condensate line and a feed-water line, wherein a condensate pump is connected in the condensate line and a feed-water pump is connected in the feed-water line, and wherein a pressure accumulating vessel is connected between the condensate pump and the feed-water pump, and wherein a feed-water take-off line is connected to the water-steam circuit at a branch-off point after the pressure accumulating vessel is provided. The feed-water take-off line is connected to the pressure accumulating vessel and a heating device is connected in the feed-water take-off line. | ||||||
| 12 | Steam accumulator and nozzle therefor | US27205952 | 1952-02-18 | US2800196A | 1957-07-23 | PERRY ARANT |
| 13 | Elastic fluid power plant | US43224230 | 1930-02-28 | US1889594A | 1932-11-29 | PAUL DETTENBORN |
| 14 | Bifluid boiler control | US32917728 | 1928-12-29 | US1888311A | 1932-11-22 | DOW HERBERT H |
| 15 | Steam generator | US2845725 | 1925-05-06 | US1603685A | 1926-10-19 | GEORGE GAYDOS |
| 16 | Steam power plant with an additional flexible solar system for the flexible integration of solar energy | US14101698 | 2013-12-10 | US10006310B2 | 2018-06-26 | Olivier Clement; Silvia Velm; Volker Schüle |
| A thermal power plant is described comprising a solar collector field and a heat storage to allow the use of the thermal energy collected by the solar field with a time delay for the production of electricity in the steam power plant. | ||||||
| 17 | STEAM POWER PLANT WITH HEAT RESERVOIR AND METHOD FOR OPERATING A STEAM POWER PLANT | US13668220 | 2012-11-03 | US20130298558A1 | 2013-11-14 | Ewald KITZMANN; Volker SCHÜLE; Julia HEINTZ; Benjamin BOND |
| A steam power plant is suggested having, parallel to the low-pressure passage (VW1 to VW2), a heat reservoir (A) which is loaded with preheated condensate in weak-load times. This preheated condensate is taken from the heat reservoir (A) for generating peak-load and inserted downstream of the low-pressure preheater passage (VW1 to VW2) into the condensate line (19.2) resp. the feed water container (8). Thus it is possible to quickly control the power generation of the power plant in a wide range without significantly having to change the heating output of the boiler of the steam generator (1). A steam power plant equipped according to the invention can thus be operated with bigger load modifications and also provide more control energy. | ||||||
| 18 | Fluid system | US3762607D | 1972-03-14 | US3762607A | 1973-10-02 | COLETTA E |
| A cylindrical tank, within which there is a ball float actuated water make-up valve, is supported on a saddle that is attached to a single pedestal fixed to a base. The base supports a pump connected fluidly to the tank by piping which includes a strainer and shut-off valve. A hinged cover on an acess opening in the tank affords access to the valve within the tank.
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| 19 | Apparatus for the storage and feeding of water to boilers | US3616609D | 1969-12-18 | US3616609A | 1971-11-02 | MELO ADELINO JOSE RODRIGUES SO |
| FROM THE DISCRIPTION GIVEN IT RESULTS THAT THE PRESENT PATENT APPLICATION RELATES TO IMPROVEMENTS IN THE ASSEMBLY OF DEVICES FOR FEEDING WATER TO BOILERS BRINGING ABOUT GREAT PRACTICAL ADVANTAGES. AMONG THESE, THE DESCRIPTION STRESSES THE POSSIBILITY OF MANUFACTURE, ASSEMBLY AND TRANSPORT OF THE APPARATUS AS A SINGLE BLOCK AND THE FACILITY OF AUTOMATIC REGULATION OF THE INTAKE PRESSURE IN THE MANIFOLD OF THE BOILER PUMPS.
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| 20 | Means for dissipating the energy of steam in large quantities | US84438059 | 1959-10-05 | US3070157A | 1962-12-25 | DROESCHER LE ROY A |
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