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    • 1. 发明授权
    • 원자로보호용기와 압축탱크를 이용한 비상노심냉각 방법과장치
    • 用户名和密码
    • KR100419194B1
    • 2004-02-19
    • KR1020000067089
    • 2000-11-13
    • 한국원자력연구원한국전력공사
    • 김영인이두정윤주현배윤영조봉현김환열박천태최병선서재광강형석이준강한옥유승엽황영동이태호장문희
    • G21C15/18
    • Y02E30/40
    • PURPOSE: A method and apparatus is provided to cool the emergency core by using an iron protection container, compression tank with a cooling water and a natural circulation phenomenon in the reactor container, while achieving improved safety of integrated type nuclear reactor and reducing the amount of cooling water. CONSTITUTION: A nuclear reactor protection container(2) is installed around a nuclear reactor vessel(1), and a vapor generator(3) disposed within the nuclear reactor vessel is arranged to be connected to an external passive residual heat removal system(4). A compression tank(5) is arranged at the top of the nuclear reactor vessel in such a manner that a cooling water is injected into the compression tank. A method is characterized in that a small protection container with a high pressure is installed outside the nuclear reactor vessel, the cooling member emitted from the nuclear reactor vessel is cut off by using the increase pressure caused due to the flashing of the cooling member emitted during the accident of cooling member loss, and the emergency core cooling water is supplied in a passive manner by using the compression tank. The decay heat generated from the core is removed by the passive residual heat removing system using a natural circulation and stream generator disposed in the nuclear reactor vessel.
    • 目的:提供一种方法和设备,通过在反应器容器中使用铁保护容器,具有冷却水的压缩罐和自然循环现象来冷却应急核心,同时提高集成型核反应堆的安全性并减少 冷却水。 构成:核反应堆保护容器(2)围绕核反应堆容器(1)安装,并且布置在核反应堆容器内的蒸气发生器(3)被布置为连接到外部无源余热去除系统(4) 。 压缩罐(5)以这样的方式布置在核反应堆容器的顶部,使得冷却水被注入到压缩罐中。 一种方法,其特征在于,在核反应堆容器的外部安装高压的小保护容器,通过使用由于在期间发射的冷却构件的闪光所引起的增加的压力来切断从核反应堆容器排出的冷却构件 冷却部件损失事故以及应急核心冷却水通过使用压缩罐以被动方式供应。 由核心产生的衰变热通过使用布置在核反应堆容器中的自然循环和流发生器的被动余热去除系统去除。
    • 4. 发明公开
    • 원자로보호용기와 압축탱크를 이용한 비상노심냉각 방법과장치
    • 使用反应器保护容器和压缩罐冷却应急芯的方法和装置
    • KR1020020037105A
    • 2002-05-18
    • KR1020000067089
    • 2000-11-13
    • 한국원자력연구원한국전력공사
    • 김영인이두정윤주현배윤영조봉현김환열박천태최병선서재광강형석이준강한옥유승엽황영동이태호장문희
    • G21C15/18
    • Y02E30/40
    • PURPOSE: A method and apparatus is provided to cool the emergency core by using an iron protection container, compression tank with a cooling water and a natural circulation phenomenon in the reactor container, while achieving improved safety of integrated type nuclear reactor and reducing the amount of cooling water. CONSTITUTION: A nuclear reactor protection container(2) is installed around a nuclear reactor vessel(1), and a vapor generator(3) disposed within the nuclear reactor vessel is arranged to be connected to an external passive residual heat removal system(4). A compression tank(5) is arranged at the top of the nuclear reactor vessel in such a manner that a cooling water is injected into the compression tank. A method is characterized in that a small protection container with a high pressure is installed outside the nuclear reactor vessel, the cooling member emitted from the nuclear reactor vessel is cut off by using the increase pressure caused due to the flashing of the cooling member emitted during the accident of cooling member loss, and the emergency core cooling water is supplied in a passive manner by using the compression tank. The decay heat generated from the core is removed by the passive residual heat removing system using a natural circulation and stream generator disposed in the nuclear reactor vessel.
    • 目的:提供一种方法和装置,通过在反应堆容器中使用铁保护容器,具有冷却水的压缩罐和自然循环现象来冷却应急核心,同时实现综合型核反应堆的安全性的提高和减少 冷却水。 构成:核反应堆保护容器(2)安装在核反应堆容器(1)周围,并且设置在核反应堆容器内的蒸汽发生器(3)被设置成连接到外部被动余热除去系统(4) 。 压缩箱(5)以这样的方式设置在核反应堆容器的顶部,即将冷却水注入到压缩罐中。 一种方法的特征在于,将具有高压的小型保护容器安装在核反应堆外部,从核反应堆容器发射的冷却构件通过使用由于发射的冷却构件的闪烁而引起的增加压力被切断 冷却部件损失的事故,以及通过使用压缩罐而以被动方式供给应急芯冷却水。 通过使用设置在核反应堆容器中的自然循环和流发生器的被动余热除去系统来除去由芯产生的衰变热。
    • 5. 发明公开
    • 수중 압력파에 견딜수 있는 복수기 열전달 튜브
    • 在水压波下耐热冷凝器的传热管
    • KR1020000020547A
    • 2000-04-15
    • KR1019980039204
    • 1998-09-22
    • 한국원자력연구원한국전력공사
    • 김주평이두정김종인김지호윤주현이준조봉현김환열김용완박천태최병선서재광강형석장문희김시환
    • F28D1/047
    • F28D1/0477F28D7/163
    • PURPOSE: A spiral heat transfer tube is provided to efficiently cope with the underwater pressure wave can be generated by the underwater explosion without using a vertical tube type heat delivery tube of a condenser used in a power plant. CONSTITUTION: A spiral heat exchange tube(3) has the both ends to be welded by a seawater separating plate(2). The seawater used for cooling water is flowed into a cooling water inlet(7) via a pipe(5) for the inflow of cooling water and then into the spiral heat exchange tube welded on the seawater separating plate. The seawater heated while condensing the vapors by flowing in the spiral heat exchange tube is discharged to a cooling water outlet(8) via the outlet of the spiral heat exchange tube and finally out of a condenser via a tube(6) for cooling water discharge. The heat transfer area per each tube is increased by multiple times compared to a vertical tube or a U-type tube so that the numbers of the heat exchange tubes can be reduced.
    • 目的:提供螺旋传热管,以有效应对水下爆炸产生的水下压力波,无需使用发电厂使用的冷凝器的垂直管式输送管。 构成:螺旋换热管(3)的两端用海水分离板(2)焊接。 用于冷却水的海水通过管道(5)流入冷却水入口(7),用于冷却水的流入,然后进入焊接在海水分离板上的螺旋换热管。 通过在螺旋形热交换管中流动而使蒸气冷凝的同时加热的海水经由螺旋形热交换管的出口排出到冷却水出口(8),最后通过管(6)排出冷凝器,以冷却排水 。 与垂直管或U型管相比,每个管的传热面积增加了多次,从而可以减少热交换管的数量。
    • 6. 发明公开
    • 습식 단열재와 냉각기를 이용한 저온 자기가압기
    • 低温磁性压力机
    • KR1020000020506A
    • 2000-04-15
    • KR1019980039126
    • 1998-09-22
    • 한국원자력연구원한국전력공사
    • 강형석김주평이두정윤주현이영진배윤영조봉현김환열박천태최병선서재광김지호김용완장문희김시환
    • G21D1/02
    • Y02E30/40
    • PURPOSE: A low-temperature magnetic presser is provided to minimize the influence of a pressure caused by temperature variation of the coolant by using a saturation vapor and a nitrogen gas as a mixed pressure material. CONSTITUTION: A coolant of a low temperature and a gas coexist in a central cavity(2) functioning as a presser(1). A peripheral cavity(3) is formed outside an inner wall(9) of the presser. A bottom of the cavity(2) and an upper part of the peripheral cavity(9) are connected through a first tube(7). A ring-shaped cavity(4) is formed outside the external wall(10) of the presser. An upper part of the ring-shaped cavity(4) and a bottom of the peripheral cavity(3) are connected through a second tube(8). A wet adiabatic material(5) is installed inside the external wall(10). A cooler(6) is installed along an external plane of the inner wall(9) so as to surround a periphery of the inner wall(9). A nitrogen gas tank(11) is connected to the upper part of the central cavity(2) through a tube(12).
    • 目的:提供一种低温磁力按压器,通过使用饱和蒸气和氮气作为混合压力材料来最小化由冷却剂的温度变化引起的压力的影响。 构成:在作为压脚(1)的中心腔(2)中,低温和气体的冷却剂共存。 周边空腔(3)形成在压脚的内壁(9)的外侧。 空腔(2)的底部和外围空腔(9)的上部通过第一管(7)连接。 环形空腔(4)形成在压脚的外壁(10)的外侧。 环形空腔(4)的上部和外围空腔(3)的底部通过第二管(8)连接。 湿绝热材料(5)安装在外壁(10)的内部。 沿着内壁(9)的外部平面安装冷却器(6),以围绕内壁(9)的周边。 氮气罐(11)通过管(12)连接到中心腔(2)的上部。
    • 9. 发明授权
    • 단순 가ㆍ감압 싸이클을 이용한 자기가압기의 감압장치 및방법
    • 단순가ㆍ감압싸이클을이용한자기가압기의감압장치및방단순
    • KR100383817B1
    • 2003-05-14
    • KR1020000080231
    • 2000-12-22
    • 한국원자력연구원한국전력공사
    • 조봉현이두정윤주현배윤영김환열박천태최병선서재광강형석이준강한옥유승엽김영인황영동이태호장문희
    • G21C1/09
    • Y02E30/40
    • PURPOSE: A decompression device of self-pressurizer using simple pressure cycle and a method of the same are provided to reduce a pressure of a pressurizer to an air pressure by collecting a nitrogen gas in a gas cylinder. CONSTITUTION: A first process opens a magnetic pressurizer isolation valve(11) and a gas cylinder connection tube isolation tube(22), and exhausts a nitrogen gas from a magnetic pressurizer(10) into a gas supplementation tank(30). A second process opens a gas cylinder isolation valve(21) and makes a secondary equilibrium with a pressure of a gas cylinder(20). A third process exhausts the nitrogen gas from the gas supplementation tank(30) and collects the nitrogen gas in the gas cylinder(20). A fourth process opens a gas supplementation tank exhaustion tube isolation valve(32) and exhausts a water from the gas supplementation tank(30) into an exhaustion tank(50).
    • 目的:提供一种使用简单压力循环的自增压器的减压装置及其方法,以通过收集气瓶中的氮气将增压器的压力降低至气压。 结构:第一过程打开磁性稳压器隔离阀(11)和气瓶连接管隔离管(22),并将氮气从磁性稳压器(10)排出到气体补充罐(30)中。 第二过程打开气瓶隔离阀(21)并且利用气瓶(20)的压力进行二次平衡。 第三过程排出来自气体补充罐(30)的氮气并收集气瓶(20)中的氮气。 第四过程打开气体补充箱排气管隔离阀(32)并将来自气体补充箱(30)的水排出到排气箱(50)中。