Patent Number: 043572979
Section: claims

1. In a nuclear reactor including a primary tank having a vertically extending annular side wall and containing therein a top hot pool and a bottom cold pool of coolant separated from one another by a horizontally extending barrier, an arrangement for thermally insulating the inner circumferential surface of said tank side walls, said arrangement comprising: (a) a cylindrical metal liner located concentrically within said tank and spaced inwardly of said inner circumferential surface in confronting relationship therewith whereby to define an axially extending annular space therebetween, said space being filled with an inert gas and having an opened bottom end in fluid communication with said cold pool whereby coolant leaking into said space from either of said pools will drain to said bottom open end;  (b) means for hermetically sealing the top end of said space;  (c) a plurality of vertically extending, radially spaced apart, reflective metal plates having arcuate cross-sections located within and together extending the entire circumferential length of said annular space for reducing radiative heat transfer radially across said space, thereby thermally insulating said tank side wall from the temperatures generated by the reactor, each of said plates having a plurality of indentations in its surface for providing stand-off spacing between adjacent plates and thereby reducing convective heat transfer radially across said space and for further facilitating drainage of any liquid coolant which appears between said plates; and  (d) means for supporting said plates in position within said space.  (a) a cylindrical metal liner located concentrically within said tank and spaced inwardly of said inner circumferential surface in confronting relationship therewith whereby to define an axially extending annular space therebetween, said space being filled with inert gas and having an opened bottom end in fluid communication with said cold pool;  (b) means for hermetically sealing the top end of said space;  (c) a plurality of vertically extending, radially spaced apart, reflective metal plates having arcuate cross-sections located within and extending the length of said annular space for thermally insulating said tank side wall from the temperatures generated by the reactor, each of said plates having a plurality of indentations in its surface for providing stand-off spacing between adjacent plates and for reducing convective heat transfer between points in said reactor and said primary tank;  (d) means for supporting said plates in position within said space;  (e) first tubular means extending into said space from outside said tank for injecting inert gas into said space; and  (f) second tubular means extending into said space from outside thereof for monitoring the gas pressure within said space. 2. In a nuclear reactor including a primary tank having a vertically extending annular side wall and containing therein a top hot pool and a bottom cold pool of coolant separated from one another by a horizontally extending barrier, an arrangement for thermally insulating the inner circumferential surface of said tank side walls, said arrangement comprising: 3. An arrangement as in claim 2 wherein each of said first and second tubular means includes at least one tube extending into said space from outside thereof and wherein one of said tubes is concentrically positioned around the other, said concentrically positioned tubes extending through a cooperating opening in said lining. 4. An arrangement as in claim 2 including a plurality of additional vertically extending, radially spaced apart, reflective metal plates shorter axially than said first-mentioned plates and liner extension means positioned on the innermost surface of said liner and integrally formed with a top annular section of said liner for supporting said additional plates in position adjacent to said liner. 5. An arrangement as in claim 4 including a plurality of second additional vertically extending, radially spaced apart, metal plates, shorter axially than said first mentioned plates and second liner extension means positioned on the innermost surface of said liner and integrally formed with a bottom annular section of said liner for supporting said second additional plates in position adjacent to said liner. 6. An arrangement as in claim 2 wherein each of said reflective plates has a rigid supporting member attached along its upper margin, said members along with the reflective plates being connected with a plurality of radially positioned bracket members connected with said tank, said bracket members having T-shaped cross sections, said support members and bracket members serving as said supporting means. 7. An apparatus as in claim 2 wherein the reflective plates are vertically segmented into arcuate sections. 8. An apparatus as in claim 2 wherein the nuclear reactor is cooled by a flow of liquid metal and the reflective plates are fabricated from stainless steel.