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    • 1. 发明授权
    • Gas and steam turbine plant
    • 燃气和汽轮机厂
    • US06434925B2
    • 2002-08-20
    • US09829331
    • 2001-04-09
    • Frank HannemannUlrich Schiffers
    • Frank HannemannUlrich Schiffers
    • F02C300
    • F02C3/20F01K23/10F02C3/30F02C3/32
    • A gas and steam turbine plant includes a waste-heat steam generator which is located downstream of a gas turbine on the flue-gas side and which has heating surfaces that are connected into a water/steam circuit of a steam turbine. A gasification device is located upstream of a combustion chamber of the gas turbine through a fuel line, for the integrated gasification of a fossil fuel. The gas and steam turbine plant is to be operated with particularly high plant efficiency even when oil is used as the fossil fuel. Thus, a heat exchanger is connected on the primary side into the fuel line upstream of a mixing apparatus for admixing nitrogen to the gasified fuel, as seen in the direction of flow of the gasified fuel. The heat exchanger is constructed on the secondary side as an evaporator for a flow medium.
    • 燃气和蒸汽轮机设备包括废热蒸汽发生器,其位于烟气侧的燃气轮机的下游,并且具有连接到蒸汽轮机的水/蒸汽回路中的加热表面。 气化装置通过燃料管线位于燃气轮机的燃烧室的上游,用于化石燃料的一体化气化。 即使使用石油作为化石燃料,燃气和蒸汽轮机厂也将以特别高的设备效率运行。 因此,在气化燃料的流动方向上看,热交换器在初级侧连接到混合装置上游的燃料管路,用于将氮气与气化燃料混合。 热交换器构造在次级侧,作为流动介质的蒸发器。
    • 4. 发明授权
    • Gas and steam-turbine plant
    • US06408612B1
    • 2002-06-25
    • US09761238
    • 2001-01-17
    • Frank HannemannUlrich Schiffers
    • Frank HannemannUlrich Schiffers
    • F02C618
    • A gas and steam-turbine plant includes a heat-recovery steam generator which is connected downstream of a gas turbine on the flue-gas side and has heating surfaces connected in a water/steam circuit of a steam turbine. A gasifier is connected upstream of a combustion chamber of the gas turbine for integrated gasification of a fossil fuel. Oxygen can be fed to the gasifier from an air-separation unit, to which in turn a partial flow of air compressed in an air compressor associated with the gas turbine can be admitted on the inlet side. In such a gas and steam-turbine plant, reliable cooling of the bleed air, in an especially simple type of construction, is to be ensured in all operating states, irrespective of the integration concept which is taken as a basis. Therefore, a heat exchanger for cooling the partial flow of compressed air is connected on the primary side in a bleed-air line connecting the air compressor to the air-separation unit. The heat exchanger is constructed on the secondary side as an evaporator for a flow medium.
    • 5. 发明授权
    • Gas and steam turbine plant
    • 燃气和汽轮机厂
    • US06341486B2
    • 2002-01-29
    • US09761243
    • 2001-01-17
    • Frank HannemannUlrich Schiffers
    • Frank HannemannUlrich Schiffers
    • F02B4300
    • F01K23/068F02C3/28F02C6/18Y02E20/16Y02E20/18Y02P80/154Y02T10/16
    • In a gas and steam turbine plant with a waste-heat steam generator, a fuel gasification device is located upstream of the combustion chamber of the gas turbine via a fuel line. The after-heat steam generator is located downstream of the gas turbine on the flue-gas side and the heating surfaces of which are connected into the water/steam circuit of the steam turbine for the integrated gasification of a fossil fuel. For especially high plant efficiency, a heat exchanger is connected on the primary side into the fuel line between the gasification device and a saturator. In addition to a mixing device for admixing nitrogen, the heat exchanger likewise is connected on the secondary side into the fuel line between the saturator and the combustion chamber.
    • 在具有废热蒸汽发生器的燃气和蒸汽轮机设备中,燃料气化装置通过燃料管线位于燃气轮机的燃烧室的上游。 后热蒸汽发生器位于烟气侧的燃气轮机的下游,其加热表面连接到蒸汽轮机的水/蒸汽回路中,用于化石燃料的一体化气化。 对于特别高的设备效率,热交换器在初级侧连接到气化装置和饱和器之间的燃料管线中。 除了用于混合氮气的混合装置之外,热交换器同样在次级侧连接到饱和器和燃烧室之间的燃料管线中。
    • 6. 发明申请
    • SOOT WATER CLEANING BY MEANS OF CONTINUOUS PRESSURE FILTRATION
    • 通过连续压力过滤进行大量清水
    • US20130292314A1
    • 2013-11-07
    • US13989190
    • 2011-11-16
    • Norbert FischerFrank HannemannFriedemann MehlhoseMirko PutzPeter Taffelt
    • Norbert FischerFrank HannemannFriedemann MehlhoseMirko PutzPeter Taffelt
    • B01D29/52
    • B01D29/52B01D35/16C10J3/485C10J3/78C10J3/84C10J2300/169Y02E20/18
    • A pressure filtration system for cleaning residual quenching water of a gasifying device that gasifies carbon-containing fuels under elevated pressure is provided. The soot water from the quencher is passed to a filter system, which has pressure filter chambers operating alternately in filtering mode under gasifying pressure or in cleaning mode. The filtrate from these chambers is passed to a quenching water reservoir, from which the quencher is fed with quenching water. Only small temperature and pressure losses with respect to the residual quenching water leaving, and only a small additional amount of energy has to be expended to overcome the remaining pressure difference to bring the filtrate that is to be returned back to the gasifying pressure. The residual quenching water is cleaned substantially under gasifying pressure in a pressure filter, avoids flash evaporation of the residual quenching water into the vacuum area, with vapour cooling and a subsequent increase in pressure and reheating.
    • 提供一种用于清洁在高压下使含碳燃料气化的气化装置的残余淬火水的压力过滤系统。 来自猝灭剂的烟灰水被传递到过滤系统,其具有在气化压力或清洁模式下以过滤模式交替操作的压力过滤器室。 将来自这些室的滤液送入骤冷水储存器,淬火器从其中加入骤冷水。 相对于剩余的骤冷水而言,相对于残留的骤冷水只有较小的温度和压力损失,并且只需要少量的能量来消除剩余的压力差,以使待返回到气化压力的滤液。 残余淬火水在压力过滤器中基本上在气化压力下进行清洗,避免了蒸汽冷却和随后的压力升高和再加热使剩余的骤冷水快速蒸发到真空区域。