| 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 | 用于蓄热的中压储存系统 | CN201080023040.8 | 2010-03-26 | CN102449302B | 2014-06-04 | R.C.米里施; S.J.比塞 |
| 在一些实施方式中,本发明提供一种设备。该设备可包括第一蒸汽机,中间储存装置和第二蒸汽机。第一蒸汽机可包括第一入口和第一排气口,其中,第一入口从热能源接收蒸汽。该中间储存装置可联接到第一排气口,其中,该中间储存装置储存由自第一排气口的蒸汽提供的热能。第二蒸汽机可包括联接到中间储存装置的第二入口。此外,第一蒸汽机和第二蒸汽机中的至少一个可做功。而且,第一蒸汽机可由从热能源接收的蒸汽驱动,且第二蒸汽机可由来自中间储存装置和第一排气口中的至少一个的蒸汽驱动。还描述了相关的设备和方法。 | ||||||
| 2 | 传热和/或储热的系统及方法 | CN201080051419.X | 2010-09-17 | CN102822614A | 2012-12-12 | 项晓东; 张融 |
| 本发明公开了包括与系统、方法和计算机实施例相一致的发明均指向传热和/或储热。在某个实施例中,提供了一种传热/储热系统包含一个换热/储热装置,还包括一个腔室,一个适应高温的热输入装置将蒸气输入腔室。另一实施例中,包括下面一个或多个特征,通过工作媒介/流体的热输出装置,置于腔室之中的储热媒介,和/或一个将换热媒介/流体输送到储热材料表面的换热系统。 | ||||||
| 3 | 用于蓄热的中压储存系统 | CN201080023040.8 | 2010-03-26 | CN102449302A | 2012-05-09 | R.C.米里施; S.J.比塞 |
| 在一些实施方式中,本发明提供一种设备。该设备可包括第一蒸汽机,中间储存装置和第二蒸汽机。第一蒸汽机可包括第一入口和第一排气口,其中,第一入口从热能源接收蒸汽。该中间储存装置可联接到第一排气口,其中,该中间储存装置储存由自第一排气口的蒸汽提供的热能。第二蒸汽机可包括联接到中间储存装置的第二入口。此外,第一蒸汽机和第二蒸汽机中的至少一个可做功。而且,第一蒸汽机可由从热能源接收的蒸汽驱动,且第二蒸汽机可由来自中间储存装置和第一排气口中的至少一个的蒸汽驱动。还描述了相关的设备和方法。 | ||||||
| 4 | 传热和/或储热的系统及方法 | CN201080051419.X | 2010-09-17 | CN102822614B | 2017-02-08 | 项晓东; 张融 |
| 本发明公开了包括与系统、方法和计算机实施例相一致的发明均指向传热和/或储热。在某个实施例中,提供了一种传热/储热系统包含一个换热/储热装置,还包括一个腔室,一个适应高温的热输入装置将蒸气输入腔室。另一实施例中,包括下面一个或多个特征,通过工作媒介/流体的热输出装置,置于腔室之中的储热媒介,和/或一个将换热媒介/流体输送到储热材料表面的换热系统。 | ||||||
| 5 | 在太阳能水箱中聚积蒸汽的系统和方法 | CN201080027465.6 | 2010-06-18 | CN102803662B | 2015-02-25 | R·奥拉瓦里亚罗德里格斯-艾兰格; E·加西亚拉米雷斯; J·巴拉甘希梅内斯 |
| 本发明公开了一种在太阳能水箱中聚积蒸汽的系统和方法,该系统由两组路斯型水箱组成,分别为基本组水箱(1)和过热组水箱(2),基本组水箱(1)和过热组水箱(2)彼此相同并且每一组都具有:饱和蒸汽入口(3)、安装在水箱(1、2)内部的蒸汽注入器(10)、具有阀(13)的蒸汽出口(4、4’)和排出装置(11)。热交换器(6)安装在两组水箱(1、2)之间。存储的方法由水箱加载阶段和水箱排出阶段组成,水箱排出阶段包括两个排出步骤,第一步骤从最大压强降低到中间压强,第二步骤从中间压强降低到低压强。 | ||||||
| 6 | 在太阳能水箱中聚积蒸汽的系统和方法 | CN201080027465.6 | 2010-06-18 | CN102803662A | 2012-11-28 | R·奥拉瓦里亚罗德里格斯-艾兰格; E·加西亚拉米雷斯; J·巴拉甘希梅内斯 |
| 本发明公开了一种在太阳能水箱中聚积蒸汽的系统和方法,该系统由两组路斯型水箱组成,分别为基本组水箱(1)和过热组水箱(2),基本组水箱(1)和过热组水箱(2)彼此相同并且每一组都具有:饱和蒸汽入口(3)、安装在水箱(1、2)内部的蒸汽注入器(10)、具有阀(13)的蒸汽出口(4、4’)和排出装置(11)。热交换器(6)安装在两组水箱(1、2)之间。存储的方法由水箱加载阶段和水箱排出阶段组成,水箱排出阶段包括两个排出步骤,第一步骤从最大压强降低到中间压强,第二步骤从中间压强降低到低压强。 | ||||||
| 7 | Method for Operating a Combined Gas and Steam Power Plant | US15766130 | 2016-09-26 | US20180298787A1 | 2018-10-18 | Stefan Becker; Vladimir Danov; Uwe Lenk; Florian Reißner; Erich Schmid; Jochen Schäfer |
| The present disclosure relates to combined gas and steam power plants. Various embodiments may include methods for operating such plants, such as: generating hot steam with an exhaust gas of a gas turbine; driving a generator with the steam; diverting at least a part of the generated steam and storing the diverted steam in a steam accumulator; then, discharging at least a part of the steam stored in the steam accumulator from the steam accumulator; heating the steam discharged from the steam accumulator with heat released during an exothermic chemical reaction; and feeding the heated steam to drive the turbine device. | ||||||
| 8 | METHOD FOR OPERATING A STEAM TURBINE PLANT | US15023029 | 2014-09-10 | US20160222832A1 | 2016-08-04 | Uwe Lenk; Alexander Tremel |
| A method for operating a steam turbine plant including a steam turbine and a steam generator allows a power reserve to be provided whilst simultaneously maintaining a high level of efficiency in the normal mode of operation. The steam turbine plant includes a heat reservoir which is associated with the steam turbine, from which the steam is removed and is fed to the steam turbine. The steam is fed to the steam turbine when the steam generator is not in operation. | ||||||
| 9 | Steam boiler | US675860 | 1984-11-28 | US4556018A | 1985-12-03 | Akihiko Agata |
| A steam boiler having a steam accumulator connected between the boiler and a user, a flow meter provided on the inlet side of the steam accumulator, and a pressure detector provided on the steam accumulator for detecting the internal pressure thereof, wherein the steam boiler is arranged to detect by the flow meter the steam flow rate on the inlet side of the steam accumulator, which is varied in the fashion of following the mean value of steam load, to detect the internal pressure of the steam accumulator by the pressure detector, and to calculate the steam load on the outlet side of the steam accumulator by a steam load detector on the basis of signals of detected steam flow rate and pressure variation. | ||||||
| 10 | Steam power plant | US20335227 | 1927-07-05 | US1732587A | 1929-10-22 | PAGE CHARLES B; DEAN BURTON WARREN; MAYR KARL A; WHITE RAYMOND E |
| 11 | Steam accumulator plant | US2414425 | 1925-04-18 | US1587861A | 1926-06-08 | JOHANNES RUTHS |
| 12 | Steam-accumulator apparatus for steam plants | US59540122 | 1922-10-18 | US1558293A | 1925-10-20 | JOHANNES RUTHS |
| 13 | Steam plant | US65097823 | 1923-07-11 | US1550097A | 1925-08-18 | JOHANNES RUTHS; NILS FRENNE |
| 14 | JPH0241441Y2 - | JP18343883 | 1983-11-28 | JPH0241441Y2 | 1990-11-05 | |
| 15 | Steam supply device | JP6445983 | 1983-04-14 | JPS59190409A | 1984-10-29 | YASUGI MASAAKI |
| PURPOSE:To effectively utilize produced steam by connecting an accumulator and a steam driving device respectively to a main steam duct, which supplies steam produced in a boiler to each user, by means of a branch duct. CONSTITUTION:Steam produced in a boiler 1 is fed to steam users 3a-3e through a main steam duct 2, to which an accumulator 5 and a turbine 23 are respectively connected through a branch duct. When there is little demand for steam, surplus steam is reserved in the accumulator 5 or used for driving the turbine 23. When there is a large demand for steam, a steam outlet valve 9 and a main valve 19 are opened and a shortage of steam is released from the accumulator 5. Thus, the produced steam can be effectively utilized even if there is difference between the quantity of steam produced in a boiler and the quantity of use of steam on the users' side. | ||||||
| 16 | Highly efficient steam supply device | JP6446083 | 1983-04-14 | JPS59190408A | 1984-10-29 | SAITOU JINICHI |
| PURPOSE:To efficiently utilize all of the produced steam by connecting an accumulator to a steam duct, which joins a boiler to a user, and connecting a steam turbine to the steam duct through an auxiliary steam duct. CONSTITUTION:Steam produced in a boiler 1 is fed to steam users 3a-3e through a main steam duct 2. An accumulator 5 is connected to a main steam duct 2, while a steam turbine 23 is connected to said duct 2 through an auxiliary steam duct 20. In case of decrease in the quantity of use of the steam by the user side, unused steam is introduced into the accumulator 5, while in case of increase in said quantity, a steam outlet valve 9 and a master valve 19 are put in ON state to discharge steam in the accumulator 5, and a shortage of steam on each user is replenished. Thus, all of the steam produced in the boiler is efficiently utilized. | ||||||
| 17 | ガス・蒸気・コンバインドサイクル発電所の運転方法 | JP2018517793 | 2016-09-26 | JP2018534464A | 2018-11-22 | ベッカー、シュテファン; ダノフ、ヴラジミル; レンク、ウヴェ; シュミット、エリッヒ; シェーファー、ヨッヘン; トレメル、アレクサンダー |
| 本発明は、ガスタービン(12)から供給される排ガスが蒸気発生器(20)に供給される、ガス・蒸気・コンバインドサイクル発電所(10)の運転方法に関する。前記蒸気発生器(20)に供給された前記排ガス及び前記蒸気発生器(20)により高温蒸気が発生され、この蒸気を用いて少なくとも1つのタービン装置(22)により、電流を供給するための少なくとも1台の発電機が駆動され、この時、前記蒸気発生器(20)に供給された排ガスがこの蒸気発生器(20)から排出され、前記蒸気発生器(20)の下流で前記排ガスに含まれている熱の少なくとも一部が吸熱化学反応を惹き起こすために利用される。 【選択図】図1 |
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| 18 | ガス・蒸気・コンバインドサイクル発電所の運転方法 | JP2018517784 | 2016-09-26 | JP2018534463A | 2018-11-22 | ベッカー、シュテファン; ダノフ、ヴラジミル; レンク、ウヴェ; ライスナー、フローリアン; シュミット、エリッヒ; シェーファー、ヨッヘン |
| 本発明はガス・蒸気・コンバインドサイクル発電所(10)の運転方法に関する。ガスタービン(12)の排ガスにより高温の蒸気が発生され、この高温蒸気を用いて少なくとも1つのタービン装置(22)を介して、電気を供給するための少なくとも1台の発電機が駆動される方法において、以下のステップを含む: ・前記発生された蒸気の少なくとも一部を分岐し、この分岐された蒸気を蒸気蓄積器(34)に蓄えるステップ。 ・前記蒸気蓄積器(34)に蓄えられた前記蒸気の少なくとも一部を当該蒸気蓄積器(34)から排出するステップ。 ・前記蒸気蓄積器(34)から排出された前記蒸気を、発熱化学反応で解放される熱により加熱するステップ。 ・前記加熱された蒸気を前記タービン装置(22)に導き、このタービン装置を供給された前記加熱蒸気により駆動するステップ。 【選択図】図1 |
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| 19 | JPS6091903U - | JP18343883 | 1983-11-28 | JPS6091903U | 1985-06-24 | |
| 20 | Method for operating a steam turbine plant | US15023029 | 2014-09-10 | US09982569B2 | 2018-05-29 | Uwe Lenk; Alexander Tremel |
| A method for operating a steam turbine plant including a steam turbine and a steam generator allows a power reserve to be provided whilst simultaneously maintaining a high level of efficiency in the normal mode of operation. The steam turbine plant includes a heat reservoir which is associated with the steam turbine, from which the steam is removed and is fed to the steam turbine. The steam is fed to the steam turbine when the steam generator is not in operation. | ||||||
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