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    • 1. 发明申请
    • BIOMASS PLANT
    • 生物质植物
    • WO2012137011A2
    • 2012-10-11
    • PCT/GB2012/050774
    • 2012-04-05
    • HRE SERVICES LIMITEDVERNON, JohnJACKSON, Peter
    • VERNON, JohnJACKSON, Peter
    • F01K13/02
    • A method of operating an electricity generation plant arranged to burn a biomass fuel and including a boiler (10) for producing steam, a condensing steam turbine (53), an air-cooled vacuum condenser (55) to recover the water of spent steam from the turbine, a flue gas moisture condensing arrangement (17) configured to extract latent heat of condensation from the flue gas, and collection tank (20) for condensate from the condensing arrangement (17). The quantity of condensate collected from the moisture condensing arrangement (17) is controlled so that the water demand of the plant is substantially fulfilled by the combination of the condensed steam from the turbine (53) and the condensate from the flue gas moisture condensing arrangement (17), whereby in operation no water is drawn from a source external to the plant nor discharged to the environment from the plant.
    • 一种操作发电设备的方法,所述发电设备布置成燃烧生物质燃料,并且包括用于产生蒸汽的锅炉(10),冷凝蒸汽轮机(53),空气冷却的真空冷凝器(55),以从废蒸汽中回收废蒸汽的水 涡轮机,构造成从烟道气中提取冷凝潜热的烟道气体冷凝装置(17)和用于来自冷凝装置(17)的冷凝物的收集罐(20)。 控制从湿气冷凝装置(17)收集的冷凝物的量,使得通过来自涡轮机(53)的冷凝蒸汽和来自烟道气体冷凝装置(13)的冷凝物的组合基本上满足设备的水需求 17),其中在操作中没有水从植物外部的源抽出,也不会从植物排放到环境中。
    • 2. 发明申请
    • BIOMASS PLANT
    • 生物植物
    • WO2012137010A2
    • 2012-10-11
    • PCT/GB2012/050773
    • 2012-04-05
    • EMVERTEC LIMITEDVERNON, JohnJACKSON, Peter
    • VERNON, JohnJACKSON, Peter
    • F22B1/22F22B33/18
    • A method of operating a steam generation plant arranged to burn a fuel including at least some biomass, the plant including a boiler (10) and a dump condenser system (29,59) provided (in part) in a flue gas path leading from the boiler (10) to a stack and comprising a flue gas moisture condensing arrangement (59) to extract latent heat of condensation from the flue gas and a dump cooler (29) external to the flue gas path. A pump (85) circulates liquid coolant around a coolant circulation path extending through the flue gas moisture condensing arrangement (59) and the dump cooler (29). A heat transfer agent (air) is supplied to the dump cooler (29) to remove heat from the liquid coolant circulating therethrough. At least one of the supply of the heat transfer agent and the circulation of liquid coolant by the pump (85) is controlled to regulate the quantity of condensate produced by the flue gas moisture condensing arrangement (59).
    • 一种操作蒸汽发生设备的方法,其被布置成燃烧包括至少一些生物质的燃料,所述蒸汽发生设备包括锅炉(10)和倾倒式冷凝器系统(29,59),该排出冷凝器系统(部分地)设置在从 锅炉(10)到堆叠并且包括烟道气体冷凝装置(59)以从烟道气提取冷凝潜热和在烟道气体路径外部的倾倒式冷却器(29)。 泵(85)使液体冷却剂围绕延伸穿过烟道气体湿气冷凝装置(59)和倾倒冷却器(29)的冷却剂循环路径循环。 将传热剂(空气)供应到倾倒冷却器(29)以从循环通过的液体冷却剂中除去热量。 控制传热剂的供应和通过泵(85)的液体冷却剂的循环中的至少一种,以调节由烟气湿度冷凝装置(59)产生的冷凝物的量。
    • 3. 发明申请
    • INSTRUMENT RETENTION ASSEMBLY
    • 仪表保持装置
    • WO2012145693A1
    • 2012-10-26
    • PCT/US2012/034545
    • 2012-04-20
    • RKS DESIGN, INC.SAWHNEY, Ravi, K.SINGH, KavinderVERNON, John
    • SAWHNEY, Ravi, K.SINGH, KavinderVERNON, John
    • G01D3/00G10G5/00
    • F16M11/20G10D3/00G10G5/00
    • A stationary base (102) with at least two door shrouds (114) extending from a tower portion (104.) The tower portion (104) has at least one groove communicating with a groove guide. An actuating housing ( 108) is attached to the groove guide and connected to at least one force member (130) positioned between the base (102) and the actuating housing (108.) At least one containment door (110) is positioned in a door groove (140) adjacent each door shroud (1 14.) Each containment door (1 10) communicates with the actuating housing (108) with at feast one guide pin (150) positioned in a guide slot (116) of each containment door (110,) the guide slot (116) being angled at a predetermined angle to translate vertical movement of the actuating housing ( 108) to horizontal movement of each containment door (110.)
    • 具有从塔架部分(104)延伸的至少两个门罩(114)的固定基座(102)。塔架部分(104)具有与沟槽引导件连通的至少一个凹槽。 致动壳体(108)附接到凹槽引导件并且连接到位于基部(102)和致动壳体(108.)之间的至少一个力构件(130)。至少一个容纳门(110)被定位在 每个门罩(114)邻近的门槽(140)。每个容纳门(110)与致动壳体(108)连通,其中一个导销(150)定位在每个容纳门的引导槽(116)中 (110),所述引导槽(116)以预定角度成角度,以将所述致动壳体(108)的垂直运动转移到每个容纳门(110)的水平运动。