Boiling water reactor comprising a cooling installation which is incorporated in the separation of superheated steam and nuclear

摘要

957,754. Nuclear reactors. BABCOCK & WILCOX CO. Dec. 1, 1961 [Dec. 1, 1960] , No. 43057/61. Heading G6C. A fuel element assembly for use in a boiling coolant reactor comprises a first flow path adapted for the generation of vapour through heat exchange between a surface of each of a group of nuclear fuel elements and liquid coolant, separating means arranged to receive vapour and liquid mixture from the first flow path and separate vapour from the liquid, and a second flow path arranged to receive vapour from the separating means and adapted for the superheating of vapour through heat exchange between another surface of each of said nuclear fuel elements and the vapour. In the boiling water reactor shown in Fig. 1 a number of fuel assemblies 26 are fitted at their lower ends into a support plate 22 and extend upwardly through the liquid space into a vapour space 18. Each assembly is provided with a conduit 30 communicating with the vapour space and extending through a scrubber 28, each conduit 30 carrying a deflector plate 32. The fuel assemblies are surrounded by three thermal shields 34, 36 and 38 provided with orifices 39 at their lower ends, and a ring-shaped inlet water header 40 also encircles the assemblies. A hemispherical insulated plate 42 is attached at its periphery to the support plate 22 to form a collection chamber 44 for superheated vapour connected to an outlet nozzle 46 extending through the lower thermal shield 24 and the bottom of the pressure vessel. Each fuel assembly 26 may be as shown in Fig. 3 and comprise a number of tubular fuel elements 52 extending between support blocks 54, 56, the lower face of the upper support block 54 being inclined upwardly from its centre to direct coolant impinging on it outwardly to its periphery. Water passes upwardly over the outsides of fuel elements 52 and into a cyclone separator 60 where steam is separated and water flows back through openings 78 and 80 to the water space. The steam passes out of the separator 60 through an outlet 67 on to a deflector plate 32 and then through scrubber 28 (Fig. 1) and vapour space 18 (Fig. 1) into tube 30; from the tube 30 the steam passes through the insides of tubular fuel elements 52 to the vapour space 44 (Fig. 1). In an alternative type of fuel assembly, Fig. 6, rod type fuel elements 200 are arranged between the tubular fuel elements 152 and the separator 160. The tubular fuel elements may comprise a number of rod elements arranged in a circle and welded together to form an imperforate tube, Fig. 9 (not shown). The upper half of each tubular fuel element may be clad with zirconium and the lower half with stainless steel, as zirconium is not sufficiently stable above 600‹F Alternatively the outside of the tube may be clad with zirconium and the inside with stainless steel; in this case the outer tube may be crimped to provide an expansion joint which permits differential expansion of the cladding relative to the inner cladding, Fig. 11 (not shown)