1) pool wall cooling
池壁冷却
2) cooling wall
冷却壁
1.
Failure analysis and prevention for the damaged cooling wall of No.4 BF at Guangsteel;
广钢4号高炉冷却壁破损原因及维护措施
2.
Leak detecting for soft water closed circulation system and solution on making water of cooling wall are also introduced.
分析高炉软水密闭系统本体检漏、冷却壁漏水处理方法。
3.
6 section cooling wall tube root of blast furnace bosh were analyzed from three aspect cooling water of the blast furnace,body of the cooling wall and operation of the blast furnace,and according measures were decided to reduce and eliminate the breakage.
从高炉冷却水、冷却壁本体、高炉操作等三个方面对高炉炉腹第五、六段冷却壁管根破损的原因进行分析,并制定相应的应对措施来消除或减少其对高炉的影响。
3) copper cooling stave
铜冷却壁
1.
Model for inner proffie control of furnace wall lined with copper cooling stave based on the inverse problems in heat transmission;
铜冷却壁炉墙内型管理传热学反问题模型
2.
Study on the hot characteristics of hot and cold sides of the copper cooling stave with circular channels;
圆孔型铜冷却壁冷面及热面热态特性研究
3.
Adopting copper cooling stave to prolong BF campaign;
采用铜冷却壁延长高炉炉体寿命
4) stave
[英][steɪv] [美][stev]
冷却壁
1.
The calculation models of the heat transfer coefficient between the blast furnace gas flow and the heat surface of stave are established based on the substitution method of boundary condition.
基于边界条件替代法建立了高炉冷却壁热表面与炉气间的传热系数计算模型。
2.
4 blast furnace was considerably deteriorated, with its shaft's stave seriously damaged, the temperature of the cooling water in the furnace hearth's stave abnormally increased, the furnace bottom's temperature reaching an alarming level, and the furnace shell cracked and deformed in a number of locations.
韶钢4#高炉第一代炉役后期,炉身冷却壁大量损坏,炉缸部分冷却壁水温差超高,炉底、炉基温度达到安全警戒线,炉壳多处开裂变形,依靠外部打水维持生产的情况下,通过采取强化管理、加强高炉操作、炉体修补等措施,保证了高炉按计划安全停炉并创下投产以来的最好生产指标。
5) copper stave
铜冷却壁
1.
The development and application of the inner profile management model in Angang's BF lined with the copper stave;
鞍钢铜冷却壁高炉操作炉型管理模型开发与应用
2.
Realizing the self-protect ability of a blast furnace cooling system with copper stave;
高炉铜冷却壁自保护能力的实现
6) cooling stave
冷却壁
1.
Manufacture technology and progress of cooling staves for blast furnace;
高炉冷却壁的制备技术及其进展
2.
Convective heat transfer boundary equivalent replacement and model simplification of cooling stave of blast furnace hearth;
高炉炉缸冷却壁对流换热边界的等效置换与导热模型化简
补充资料:乏燃料储存池冷却和净化系统
乏燃料储存池冷却和净化系统
spent fuel pit cooling and clean-up system
全部池水在一天内至少净化一次。乏燃料储存池须严防泄漏,并有大于自然燕发损失的补水能力,以保持池中水位高于燃料组件3m以上。水池的各种接管均须高出正常水位,并设有防虹吸的断流设施。┌──┐│飞夏│└──┘ 乏燃料储存池冷却和净化系统流程原理图 系统的冷却能力要考虑停堆150h后1/3堆芯的衰变热和池内乏嫌料组件最大储存量的衰变热,以及紧急停堆换料时一个全堆芯停堆150h后的衰变热,同时保持池水温度低于50C(在高温季节.可投入两个系列来保证)。当系统发生能动部件单一故障时,池水温度也不得超过75‘C。系统的冷却和补水部分均要求按核安全3级及抗震I类设计。foronl一00 ehueunel飞1 lengque he Jinghuox一tong乏燃料储存池冷却和净化系统(sPent fuelPit eooling and elean一uP system)从堆芯卸出的乏嫩料存放在具有冷却装里的乏燃料储存池内,排除乏嫩料释放的热量.为了降低水的放射性强度和保持其透明度以便于各种水下操作,乏燃料储存池和换料水池的水必须净化,并保持规定的水质指标。 为满足单一故障准则(见安全系统设计准则),乏嫩料储存池冷却和净化系统通常设置两个冷却系列和一个净化回路.每个冷却系列各设有一台冷却泵和一台冷却器,净化回路则设有两台净化泵和一套过滤和树脂床装置。乏燃料储存池水由冷却泵吸出经冷却器冷却后,大部分直接返回池内,小部分被净化泵吸出经过睡器及树脂床进行净化(见图)。净化泵的流量应使
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