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    • 4. 发明申请
    • PRESSURIZED WATER REACTOR PLANT
    • 加压水反应堆厂
    • US20110158371A1
    • 2011-06-30
    • US13044909
    • 2011-03-10
    • Takashi SATOKazunori HashimotoHirohide OikawaYasunobu FujikiMakoto AkinagaHisaki Sato
    • Takashi SATOKazunori HashimotoHirohide OikawaYasunobu FujikiMakoto AkinagaHisaki Sato
    • G21C17/00G21C9/004G21C9/00
    • G21C1/086G21C9/004G21C15/18Y02E30/32
    • According to an embodiment, a pressurized water reactor plant has a primary system which includes: a reactor vessel for housing a reactor core which is cooled by a primary coolant, a single steam generator, a hot leg pipe for connecting the reactor vessel and the steam generator, cold leg pipes, at least two primary coolant pumps, and a pressurizer for pressurizing the primary coolant pressure boundary in which the primary coolant flows. The plant also has: a passive cooling and depressurization system which is a primary depressurization means for equalizing the primary system pressure to the secondary system pressure at the time of a tube rupture accident of the steam generator, and a reactor containment vessel containing the primary system and cooling the primary system by air cooling. Thus, a compact pressurized water rector with high economic efficiency, safety, and reliability can be provided.
    • 根据实施例,压水反应堆设备具有主要系统,其包括:用于容纳由主冷却剂冷却的反应堆堆芯的反应堆容器,单个蒸汽发生器,用于连接反应堆容器的热腿管和蒸汽 发电机,冷腿管,至少两个一次冷却剂泵,以及用于对初级冷却剂流动的主冷却剂压力边界加压的加压器。 该设备还具有:被动冷却和减压系统,其是在蒸汽发生器的管道破裂事故发生时使初级系统压力与二次系统压力相等的主要减压装置,以及包含主系统的反应堆安全壳 并通过空气冷却冷却主系统。 因此,可以提供具有高经济性,安全性和可靠性的紧凑型压水机。
    • 5. 发明授权
    • Pressurized water reactor plant
    • 加压水反应堆厂
    • US08817941B2
    • 2014-08-26
    • US13044909
    • 2011-03-10
    • Takashi SatoKazunori HashimotoHirohide OikawaYasunobu FujikiMakoto AkinagaHisaki Sato
    • Takashi SatoKazunori HashimotoHirohide OikawaYasunobu FujikiMakoto AkinagaHisaki Sato
    • G21C9/004G21C15/18G21C9/00G21C15/00
    • G21C1/086G21C9/004G21C15/18Y02E30/32
    • According to an embodiment, a pressurized water reactor plant has a primary system which includes: a reactor vessel for housing a reactor core which is cooled by a primary coolant, a single steam generator, a hot leg pipe for connecting the reactor vessel and the steam generator, cold leg pipes, at least two primary coolant pumps, and a pressurizer for pressurizing the primary coolant pressure boundary in which the primary coolant flows. The plant also has: a passive cooling and depressurization system which is a primary depressurization means for equalizing the primary system pressure to the secondary system pressure at the time of a tube rupture accident of the steam generator, and a reactor containment vessel containing the primary system and cooling the primary system by air cooling. Thus, a compact pressurized water rector with high economic efficiency, safety, and reliability can be provided.
    • 根据实施例,压水反应堆设备具有主要系统,其包括:用于容纳由主冷却剂冷却的反应堆堆芯的反应堆容器,单个蒸汽发生器,用于连接反应堆容器的热腿管和蒸汽 发电机,冷腿管,至少两个一次冷却剂泵,以及用于对初级冷却剂流动的主冷却剂压力边界加压的加压器。 该设备还具有:被动冷却和减压系统,其是在蒸汽发生器的管道破裂事故发生时使初级系统压力与二次系统压力相等的主要减压装置,以及包含主系统的反应堆安全壳 并通过空气冷却冷却主系统。 因此,可以提供具有高经济性,安全性和可靠性的紧凑型压水机。
    • 6. 发明申请
    • MOLTEN-CORE RETENTION STRUCTURE
    • 磁芯保持结构
    • US20130272472A1
    • 2013-10-17
    • US13647887
    • 2012-10-09
    • Kazuyoshi AOKIMika TaharaKen OkudaYasunobu FujikiHisaki Sato
    • Kazuyoshi AOKIMika TaharaKen OkudaYasunobu FujikiHisaki Sato
    • G21C9/016
    • G21C9/016Y02E30/40
    • According to an embodiment, a molten-core retention structure comprises the following inside a reactor vessel that contains a reactor core: a bottom support plate, in which vertically penetrating flow holes are formed, that is provided beneath the core and supports the core; a bottom support plate support that is affixed to the reactor vessel and supports the bottom support plate; a thermally insulating spacer; a reticulated heat path that is affixed to the bottom support plate support with the thermally insulating spacer interposed therebetween and contacts the bottom support plate; and vertical heat paths that extend downwards from the reticulated heat path. The reticulated heat path and the vertical heat paths have higher coefficients of thermal conductivity than the thermally insulating spacer.
    • 根据一个实施方案,熔芯保持结构在反应器容器内部包含以下物质:反应堆芯:底部支撑板,其中形成有垂直穿透的流动孔,其设置在芯的下方并支撑芯; 底部支撑板支撑件,其固定到反应堆容器并支撑底部支撑板; 绝热垫片; 网状热路,其与隔热隔离物固定在底部支撑板支撑件上并与底部支撑板接触; 以及从网状热路向下延伸的垂直热路。 网状热路径和垂直热路径具有比隔热间隔物更高的导热系数。