By Masahiko Fujii, Shinichi Morooka (auth.), Takehiko Saito, Junichi Yamashita, Yoshiaki Oka, Yuki Ishiwatari (eds.)
Advances in mild Water Reactor applied sciences makes a speciality of the layout and research of complicated nuclear energy reactors. This quantity presents readers with thorough descriptions of the overall features of varied complicated gentle water reactors at present being constructed around the world. defense, layout, improvement and upkeep of those reactors is book’s the main target, with key applied sciences like complete MOX center layout, next-generation electronic I&C structures and seismic layout and overview defined at size. additionally coated are: -Technologies presently being constructed and used in a couple of nations around the world -A variety of new fresh advancements in mild water reactors -Analyses of other kinds of gentle water reactors from major lecturers engaged on layout and research Advances in gentle Water Reactor applied sciences is the precise booklet for researchers and engineers operating in nuclear energy which are drawn to studying the basics of complicated mild water plants.
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Additional info for Advances in Light Water Reactor Technologies
If the viscous boundary layers strongly affect the flow, velocity of the inviscid flow may be reduced The estimated structure of the vortex in the chamber is shown in Fig. 22. A viscous vortex core will be formed at the center of the vortex.
The new configuration increases the reliability of equipment operation in the case of an accident as the best mix of active and passive safety systems. The systems of each train are installed near the corresponding loop to reduce the quantity of piping and enhance the separation and independence of each train. A refueling water storage pit is moved from outside of the containment vessel to the bottom of the vessel to serve as a water source for the ECCS during an accident. With this design, cooling water injected into the core during an accident can be automatically collected in the pit.
44 T. Shiraishi Anti-Vortex Cap Outlet Pipe Flow Nozzle Standpipe Vortex Chamber Small Flow Pipe Anti-Vortex Plate Flow Damper Fig. 13 Schematic views of the flow damper. Its detailed structure appears on the left and its installation in the accumulator tank is shown on the right The inlet of the standpipe is set at the water level for switching flow from large to small flow injections. The small flow pipe is tangentially attached to the vortex chamber and has a configuration designed to reduce energy loss in it to make a strong vortex in the chamber.