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    • 3. 发明申请
    • MULTIMODAL DEBRIS TRAP
    • 多模式碎片捕捉
    • WO2012145020A1
    • 2012-10-26
    • PCT/US2011/052440
    • 2011-09-21
    • PERFORMANCE CONTRACTING, INC.BLEIGH, James, M.
    • BLEIGH, James, M.
    • G21C15/18
    • G21C19/307B01D29/114B01D29/54G21C15/18Y02E30/40
    • In a debris trap that may be used in an Emergency Core Cooling System of a nuclear power plant, the filter media is arranged to define both filtration and bypass flowpaths that are in fluid communication with one another. At least initially, each of the filtration and bypass flowpaths are open, and the filtration and bypass flowpaths have relatively low and relatively high head loss, respectively. The debris trap is operative so that flow through the debris trap may passively, and typically gradually, transition from the filtration flowpaths to the bypass flowpath in response to the filter media collecting increasing amounts of debris. More specifically, initially substantially all of the flow may be through the filtration flowpaths, and thereafter the filtration flowpaths may become substantially obstructed so that substantially all of the flow is through the bypass flowpath.
    • 在可用于核电站的应急核心冷却系统的碎片陷阱中,过滤介质被布置成限定彼此流体连通的过滤和旁路流动路径。 至少最初,过滤和旁路流路中的每一个都是开放的,并且过滤和旁路流路分别具有相对低的和相对高的磁头损失。 碎屑捕集器是可操作的,使得响应于过滤介质收集越来越多的碎屑,流过碎片捕集器的流动被动地通常逐渐从过滤流路转变到旁路流路。 更具体地,初始基本上所有的流动可以通过过滤流路,然后过滤流路可能变得基本上被阻塞,使得基本上所有的流动都通过旁路流动路径。
    • 4. 发明专利
    • DE69808444D1
    • 2002-11-07
    • DE69808444
    • 1998-02-10
    • PERFORMANCE CONTRACTING INC
    • HART HPINSKY P
    • B01D29/33B01D29/41B01D35/02B01D35/027G21C15/18G21C19/307
    • An elongated internal core tube suction strainer supported at its ends for use in a suction system is disclosed as is a suction system comprising the elongated suction strainer in combination with ECCS pipes in various support combinations. The elongated internal core tube suction strainer of this invention is particularly suited for use with boiling water reactor (BWR) and pressurized water reactor (PWR) nuclear power plants. Because of the flexibility of the suction strainer of this invention, the suction strainer can be adapted for use in a variety of reactor plants. The elongated suction strainer has an internal core tube defining a plurality of fluid inlets and an exterior filtering structure defining a plurality of perforations. When connected to one or more recirculation suction pipes of the suction system within the reservoir of a nuclear power plant (or other facility), the perforations and fluid inlets permit fluid to pass but prevent solids and other particulate matter from entering the suction system. The suction system is capable of withstanding the large loads associated with the hydrodynamic forces resulting from a loss of coolant accident while being supported only at its ends. The extended length of the elongated suction strainer and thus its greatly increased overall straining surface area is due to the structural strength provided by the internal core tube.
    • 8. 发明专利
    • ES2142300T1
    • 2000-04-16
    • ES98919703
    • 1998-02-10
    • PERFORMANCE CONTRACTING INC
    • HART GORDON HPINSKY GORDON P
    • B01D29/33B01D29/41B01D35/02B01D35/027G21C15/18G21C19/307
    • An elongated internal core tube suction strainer supported at its ends for use in a suction system is disclosed as is a suction system comprising the elongated suction strainer in combination with ECCS pipes in various support combinations. The elongated internal core tube suction strainer of this invention is particularly suited for use with boiling water reactor (BWR) and pressurized water reactor (PWR) nuclear power plants. Because of the flexibility of the suction strainer of this invention, the suction strainer can be adapted for use in a variety of reactor plants. The elongated suction strainer has an internal core tube defining a plurality of fluid inlets and an exterior filtering structure defining a plurality of perforations. When connected to one or more recirculation suction pipes of the suction system within the reservoir of a nuclear power plant (or other facility), the perforations and fluid inlets permit fluid to pass but prevent solids and other particulate matter from entering the suction system. The suction system is capable of withstanding the large loads associated with the hydrodynamic forces resulting from a loss of coolant accident while being supported only at its ends. The extended length of the elongated suction strainer and thus its greatly increased overall straining surface area is due to the structural strength provided by the internal core tube.
    • 9. 发明专利
    • Suction system with end supported internal core tube suction strainers
    • AU7243498A
    • 1998-09-09
    • AU7243498
    • 1998-02-10
    • PERFORMANCE CONTRACTING INC
    • HART GORDON HPINSKY GORDON P
    • B01D29/33B01D29/41B01D35/02B01D35/027G21C15/18G21C19/307
    • An elongated internal core tube suction strainer supported at its ends for use in a suction system is disclosed as is a suction system comprising the elongated suction strainer in combination with ECCS pipes in various support combinations. The elongated internal core tube suction strainer of this invention is particularly suited for use with boiling water reactor (BWR) and pressurized water reactor (PWR) nuclear power plants. Because of the flexibility of the suction strainer of this invention, the suction strainer can be adapted for use in a variety of reactor plants. The elongated suction strainer has an internal core tube defining a plurality of fluid inlets and an exterior filtering structure defining a plurality of perforations. When connected to one or more recirculation suction pipes of the suction system within the reservoir of a nuclear power plant (or other facility), the perforations and fluid inlets permit fluid to pass but prevent solids and other particulate matter from entering the suction system. The suction system is capable of withstanding the large loads associated with the hydrodynamic forces resulting from a loss of coolant accident while being supported only at its ends. The extended length of the elongated suction strainer and thus its greatly increased overall straining surface area is due to the structural strength provided by the internal core tube.