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    • 1. 发明申请
    • SYSTEM AND METHOD FOR PRODUCING HOT WATER AND/OR STEAM AND FOR STORING WATER IN LIQUID AND/OR GASEOUS FORM FOR USE FOR A GAS TURBINE POWER PLANT
    • 系统和方法热水的生产和/或蒸汽和液体和/或气体形式FOR USE FOR A燃机电厂水调蓄
    • WO2012136201A4
    • 2013-07-04
    • PCT/DE2012100080
    • 2012-03-28
    • UNIV CHEMNITZ TECHURBANECK THORSTENPLATZER BERND
    • URBANECK THORSTENPLATZER BERND
    • F02C1/00F01K3/18F01K21/04F02C1/05F02C1/06
    • F01K3/185F01K3/186F01K21/047F02C1/007F02C1/05F02C1/06F02C6/18F22B1/006Y02E20/14
    • The invention relates to a system and a method for producing hot water and/or steam and for storing water in liquid and/or gaseous form for use for a gas turbine power plant (1) having a compressor (1.2) and a turbine (1.5), using a system (2) for producing hot water and/or steam that comprises at least one storage system having at least one storage container (2.1, 2.2) for storing the water, in which storage container the water is heated by supplying energy, wherein the energy is provided from at least one external energy source that is arranged outside the gas turbine power plant (1) and/or the system (2), and wherein the hot water and/or the steam is used for injecting into a fluid flow between the compressor and the turbine and/or into the turbine (1.5) of the gas turbine power plant, and wherein according to the method the hot water and/or the steam is injected into a fluid flow between the compressor (1.2) and the turbine (1.5) and/or into the turbine (1.5) of the gas turbine power plant (1) in an open process. The supplied energy for heating the water is advantageously provided from negative reserve power or excess electricity.
    • 本发明涉及一种方法,用于生产热水和/或蒸汽和水在液态和/或气态形式的存储装置,系统和用于燃气涡轮发电设备使用(1)与下一个压缩机(1.2)和涡轮机(1.5) 使用的植物(2)用于产生热水和/或蒸汽的至少一个存储器系统与至少一个存储容器(2.1,2.2)的是用于存储水的,加热的,其中由能量的供给,水,能量至少 提供外部电源,其设置在气体涡轮发电设备(1)外和/或所述系统(2),并且其中所述热水和/或蒸汽用于注入流体的压缩机和涡轮机和/或之间的流动(在涡轮机 1.5),并且根据该方法在开放过程中,热水和/或蒸汽进入流体 注入燃气轮机发电设备(1)的压缩机(1.2)和涡轮机(1.5)之间和/或涡轮机(1.5)之间的气流。 所提供的用于加热水的能量由此有利地由负控制功率或剩余电力提供。
    • 3. 发明申请
    • SYSTEM AND METHOD FOR PRODUCING HOT WATER AND/OR STEAM AND FOR STORING WATER IN LIQUID AND/OR GASEOUS FORM FOR USE FOR A GAS TURBINE POWER PLANT
    • 系统和方法热水的生产和/或蒸汽和液体和/或气体形式FOR USE FOR A燃机电厂水调蓄
    • WO2012136201A3
    • 2013-05-10
    • PCT/DE2012100080
    • 2012-03-28
    • UNIV CHEMNITZ TECHURBANECK THORSTENPLATZER BERND
    • URBANECK THORSTENPLATZER BERND
    • F02C1/00F01K3/18F01K21/04F02C1/05F02C1/06
    • F01K3/185F01K3/186F01K21/047F02C1/007F02C1/05F02C1/06F02C6/18F22B1/006Y02E20/14
    • The invention relates to a system and a method for producing hot water and/or steam and for storing water in liquid and/or gaseous form for use for a gas turbine power plant (1) having a compressor (1.2) and a turbine (1.5), using a system (2) for producing hot water and/or steam that comprises at least one storage system having at least one storage container (2.1, 2.2) for storing the water, in which storage container the water is heated by supplying energy, wherein the energy is provided from at least one external energy source that is arranged outside the gas turbine power plant (1) and/or the system (2), and wherein the hot water and/or the steam is used for injecting into a fluid flow between the compressor and the turbine and/or into the turbine (1.5) of the gas turbine power plant, and wherein according to the method the hot water and/or the steam is injected into a fluid flow between the compressor (1.2) and the turbine (1.5) and/or into the turbine (1.5) of the gas turbine power plant (1) in an open process. The supplied energy for heating the water is advantageously provided from negative reserve power or excess electricity.
    • 本发明涉及一种方法,用于生产热水和/或蒸汽和水在液态和/或气态形式的存储装置,系统和用于燃气涡轮发电设备使用(1)与下一个压缩机(1.2)和涡轮机(1.5) 使用的植物(2)用于产生热水和/或蒸汽的至少一个存储器系统与至少一个存储容器(2.1,2.2)的是用于存储水的,加热的,其中由能量的供给,水,能量至少 提供外部电源,其设置在气体涡轮发电设备(1)外和/或所述系统(2),并且其中所述热水和/或蒸汽用于注入流体的压缩机和涡轮机和/或之间的流动(在涡轮机 1.5)的燃气涡轮机被用于发电设备和同样的操作,在打开的过程中,热水和/或蒸汽引入的流体的 压缩机(1.2)和所述涡轮机(1.5)之间流/或在气体涡轮发电设备(1)的涡轮机(1.5)被注入。 用于加热水供应的能量,然后从阴性对照功率或电流盈余提供有利。
    • 4. 发明申请
    • METHOD AND DEVICE FOR THERMAL SPRAYING
    • 方法和设备热喷涂
    • WO2012048703A4
    • 2012-10-18
    • PCT/DE2011075229
    • 2011-09-22
    • UNIV CHEMNITZ TECHPACZKOWSKI GERDRUPPRECHT CHRISTIANWIELAGE BERNHARD
    • PACZKOWSKI GERDRUPPRECHT CHRISTIANWIELAGE BERNHARD
    • C23C4/12B05B7/22B05B15/02
    • B05B7/224B05B7/203C23C4/131
    • The invention relates to a method and a device for thermal spraying, in particular for arc spraying using a filler material (3), which is melted by an arc generated by means of electrodes, wherein the compressed gas (8) flows out through a nozzle (7) at high velocity and sprays the molten filler material (3) onto a prepared surface (1a), and wherein, according to the invention, the compressed gas (8) is generated with a modulated/pulsating gas flow having high velocity, whereby an undesirably developing eddy region of the molten material in the region of the ends of the filler material (3) is restricted or prevented. The device comprises a unit for generating the compressed gas (8) having high velocity and means by which the modulated/pulsating gas flow having high velocity can be generated such that particles/drops of the molten material are prevented from depositing or staying on the nozzle (7) and/or on the filler material (3) and/or particles/drops that have been deposited thereon are detached.
    • 本发明涉及一种用于热喷涂的方法和设备,特别是用于弧用填充材料(3),其通过由电极的电弧的装置产生熔融喷涂,压力气体(8)在通过喷嘴高速(7)流动,并且该组Schmolze 所述填充材料(3)上的准备好的表面(1a)的材料注入,并且其中根据本发明,压缩气体(8)与以高速的调制/脉动气流,熔融材料的从而不希望的合成代谢涡流的区域(在填充材料的端部的区域中产生 被限制或防止3)。 该装置包括一个装置用于产生(8)以高速以及装置,通过该调制/脉动气流高速产生这样的压力气体,一个沉降或熔化的材料的颗粒/液滴的留连到喷嘴(7) 和/或填充材料(3)防止和/或远程于此颗粒/液滴溶解。
    • 5. 发明申请
    • METHOD AND DEVICE FOR THERMAL SPRAYING
    • 用于热喷涂的工艺和设备
    • WO2012048703A3
    • 2012-07-05
    • PCT/DE2011075229
    • 2011-09-22
    • UNIV CHEMNITZ TECHPACZKOWSKI GERDRUPPRECHT CHRISTIANWIELAGE BERNHARD
    • PACZKOWSKI GERDRUPPRECHT CHRISTIANWIELAGE BERNHARD
    • C23C4/12B05B7/22B05B15/02
    • B05B7/224B05B7/203C23C4/131
    • The invention relates to a method and a device for thermal spraying, in particular for arc spraying using a filler material (3), which is melted by an arc generated by means of electrodes, wherein the compressed gas (8) flows out through a nozzle (7) at high velocity and sprays the molten filler material (3) onto a prepared surface (1a), and wherein, according to the invention, the compressed gas (8) is generated with a modulated/pulsating gas flow having high velocity, whereby an undesirably developing eddy region of the molten material in the region of the ends of the filler material (3) is restricted or prevented. The device comprises a unit for generating the compressed gas (8) having high velocity and means by which the modulated/pulsating gas flow having high velocity can be generated such that particles/drops of the molten material are prevented from depositing or staying on the nozzle (7) and/or on the filler material (3) and/or particles/drops that have been deposited thereon are detached.
    • 本发明涉及一种用于热喷涂的方法和设备,特别是用于弧用填充材料(3),其通过由电极的电弧的装置产生熔融喷涂,压力气体(8)在通过喷嘴高速(7)流动,并且该组Schmolze 所述填充材料(3)上的准备好的表面(1a)的材料注入,并且其中根据本发明,压缩气体(8)与以高速的调制/脉动气流,熔融材料的从而不希望的合成代谢涡流的区域(在填充材料的端部的区域中产生 3)受到限制或阻止。 该装置包括一个装置用于产生(8)以高速以及装置,通过该调制/脉动气流高速产生这样的压力气体,一个沉降或熔化的材料的颗粒/液滴的留连到喷嘴(7) 和/或在填充材料(3)上被阻止和/或沉降颗粒/液滴被解决。
    • 6. 发明申请
    • AIRSHIP
    • 飞艇
    • WO2008110385A3
    • 2008-10-30
    • PCT/EP2008002103
    • 2008-03-17
    • UNIV CHEMNITZ TECHKRAUSE THOMAS
    • KRAUSE THOMAS
    • B64B1/32B64B1/02
    • B64B1/32
    • The invention relates to an airship comprising a balloon and several drives for displacing the airship. Said invention can be used by dirigibles that are also known as autonomous airships or blimps, as well as for Zeppelins. The aim of the invention is to provide an airship of the above-mentioned type in which the airship can be prevented to a large extent from oscillating or tilting. Said aim is achieved as the drives of the airship are at least three drives and are arranged about the balloon in such a manner that a force vector or a torque vector generated by the drives can be produced thus varying the position thereof.
    • 本发明涉及一种具有气囊(2)和多个驱动器,用于移动飞艇的,与本发明在两个冲击空气的船舶,其也称为自主飞艇或飞艇飞艇(1),如也可以适用于飞艇。 本发明目的在于提供上述类型的飞艇的目的是可用的,可以是在其防止飞艇的发展或倾斜在很大程度上避免。 该目的是这样实现的飞艇的驱动器,至少三个驱动器,其被布置围绕球囊,一个从驱动器产生的,并且可以在其位置可变的力和转矩矢量来生成。
    • 9. 发明申请
    • MICROSTRUCTURE, METHOD FOR PRODUCING THE SAME, DEVICE FOR BONDING A MICROSTRUCTURE AND MICROSYSTEM
    • 微结构,其制造方法,装置来粘合一个微结构和微
    • WO2010085942A3
    • 2011-03-24
    • PCT/DE2010000085
    • 2010-01-26
    • FRAUNHOFER GES FORSCHUNGUNIV CHEMNITZ TECHBRAEUER JOERGGESSNER THOMASHOFMANN LUTZFROEMEL JOERGWIEMER MAIKLETSCH HOLGERBAUM MARIO
    • BRAEUER JOERGGESSNER THOMASHOFMANN LUTZFROEMEL JOERGWIEMER MAIKLETSCH HOLGERBAUM MARIO
    • B81C3/00
    • B81C3/001B81C2203/019B81C2203/032
    • The invention relates to a microstructure comprising at least one bonding substrate and a reactive multilayer system, said reactive multilayer system having at least one surface layer of the bonding substrate with vertically aligned, interspaced nanostructures and regions between the nanostructures which are filled with at least one material that is a reaction partner for the material of the nanostructures. The invention further relates to a method of producing a microstructure comprising at least one bonding substrate and a reactive multilayer system, a surface layer of the bonding substrate being structured or deposited in a structured manner, thereby imparting to it vertically aligned, interspaced nanostructures and the regions between the nanostructures being filled with at least one material that is a reaction partner for the material of the nanostructures, to form the reactive multilayer system. The invention also relates to a device for bonding a microstructure, the device comprising a bonding chamber which can be opened and/or closed, and evacuated, and in which the microstructure and the further structure can be introduced and adjusted with respect to each other, and an activation mechanism coupled to the bonding chamber which mechanism is used to mechanically, electrically, electromagnetically, optically and/or thermally activate the reactive multilayer system of the microstructure in such a manner that a self-propagating, exothermal reaction takes place between the nanolayers, the multilayer system being formed by reactive nanostructures having an interposed material which is a reaction partner for the material of the nanostructures. The invention finally relates to a microsystem which is constituted of two bonding substrates and a structure lying between the bonding substrates. The structure comprises a reacted reactive layer system, the reacted reactive layer system being a reactive structure sequence of at least one surface layer provided on the bonding substrate, which surface layer has vertically aligned, interspaced nanostructures and regions between the nanostructures which are filled with at least one material that is a reaction partner for the material of the nanostructures. The microsystem is a sensor which is coated with a biological material, and/or has elements of a polymer material and/or at least one magnetic and/or piezoelectric and/or piezoresistive component.
    • 本发明涉及具有至少一个键合衬底的微结构和反应性多层系统,其中,所述反应性多层系统位于至少与垂直定向的,间隔开的纳米结构和纳米结构之间的键合衬底的表面层,具有至少一个反应物表示对所述纳米结构材料的材料填充 有区域。 本发明还包括一种制造微结构与至少一个键合衬底和反应性多层系统,其中,垂直取向的用于形成所述反应性多层系统中形成的,间隔的纳米结构被图案化或结构化的接合基板的一个表面层的纳米结构之间沉积的和区域的方法 表示对所述纳米结构材料的材料的反应物中的至少一个被填充。 此外,本发明包括联接到所述接合室激活机构用于结合微结构,其中该装置具有其中所述微结构和进一步的结构可以被插入,并调整为彼此可打开和/或关闭的,抽空的接合室的装置,和输出通过该 它由与居间表示对微结构的纳米结构材料的反应性多层系统的材料的反应物形成的反应性纳米结构是这样的机械,电,电磁,光学和/或热活化来进行,所述纳米层之间的自传播的放热反应。 此外,本发明涉及一种微系统,该系统由两个粘合基底的形成,并且位于键合衬底结构之间,其包括反应的反应层系统,其中所述反应的反应层系统的至少一个设置有垂直对齐的接合基板表面层上的反应结构序列, 隔开的纳米结构和填充在纳米结构之间具有至少一个表示对所述纳米结构材料的区域的材料的反应物,所述微系统是一个用生物材料传感器和/或聚合材料和/或至少一个磁和/或压电和元素 具有/或压阻元件。
    • 10. 发明申请
    • HYDRAULIC SWITCH
    • 液压软件
    • WO2012076009A4
    • 2013-10-03
    • PCT/DE2011075293
    • 2011-12-01
    • UNIV CHEMNITZ TECHSANDER KARINURBANECK THORSTENPLATZER BERND
    • SANDER KARINURBANECK THORSTENPLATZER BERND
    • F24D3/10
    • F24D3/1091
    • The invention relates to a hydraulic switch for heating and/or cooling systems, which hydraulic switch is arranged between at least one generator circuit (K1) and at least one consumer circuit (K2) and has a switch housing (2), the longitudinal axis (A) of which runs substantially vertically when the switch (1) is in the installed state and the interior of which has a chamber (3) for a temperature carrier fluid, wherein on the switch housing (2) at least one first feed line (4) leads to the generator circuit and at least one first return line (5) leads to the generator circuit (K1), and at least one second feed line (6) and one second return line (7) can be connected to the consumer circuit (K2), wherein between the first feed line (4) and the second feed line (6) there is arranged a first flow-guiding element (8) extending in the flow direction, and between the first return line (5) and the second return line (7) there is arranged a second flow-guiding element (9) extending in the flow direction, wherein the first and the second flow-guiding elements (8, 9) are in each case in the form of a circumferentially open bent tube with an opening angle (a) which ensures the compensation of a large volume flow.
    • 本发明涉及一种液压开关用于加热系统和/或冷却至少一个发生器电路(K1)和至少一个消费者电路之间(K2)被设置,并具有一个开关壳体(2),所述纵向轴线(A)在所述开关的安装状态( 1)基本上是垂直的并用于温度传递流体,其中(上开关壳体2的空间(3)的内部)至少(4)到所述发电机电路的第一引线和至少一个第一回流管路(5),用于将发生器电路(K1)开和 至少一个第二前进(6)和第二返回管线(7)给消费者电路(K2)可以连接到给在第一流体传导元件的第一引线(4)和第二引线之间的流动方向上的延伸(6)(8) 并且在第一返回部(5)和第二返回部(7)之间是沿流动方向延伸的第二导流元件(9) 被布置,其中所述第一和第二流动传导元件(8,9),每一个在周边开放弯曲管的形式与一个denAusgleich形成的大体积流量保证开口角(α)。