Vertical and lateral restraint stabilizer for core shroud of boiling

Abstract

An apparatus for stabilizing a shroud against vertical and lateral deflection. The apparatus forms a vertical load path by which the shroud flange can be anchored to the shroud support plate. In the tensioned state, an upper support assembly exerts a restraining force on the top surface of the shroud flange which opposes separation of the shroud at any assumed failed circumferential weld location. The apparatus further incorporates upper and lower restraint springs which oppose lateral deflection at the elevation of the top guide support ring and at the elevation of the core plate support ring respectively. The vertical restraint assembly is made of material having a coefficient of thermal expansion which is less than a coefficient of thermal expansion of the shroud material. A desired differential thermal expansion of the vertical restraint assembly and the shroud can be attained by the selection of member lengths and materials having appropriate coefficients of thermal expansion. In particular, the vertical restraint assembly undergoes a thermal expansion which is less than the thermal expansion of the shroud when the reactor changes from a shutdown state to a fully operative state in which nuclear heat is generated, thereby producing a thermal load. The thermal load during normal operation for a shroud with the limiting combination of cracked welds should be designed to provide a net downward load on the shroud.