RU94044476A - Heat exchanger - Google Patents

Abstract

FIELD: gas-liquid and gas-air heat exchangers. SUBSTANCE: heat exchanger has case with cylindrical side wall and flat end walls, inlet and outlet pipe connections, distribution and accumulation chambers for primary coolant, case-mounted matrix built up of plates with stamped corrugations, cross ribs, and windows; plates are joined together over peripheral edges, stamped ribs, and windows in pairs to form channels for both coolants limited by surfaces of intersecting corrugations, cross ribs located in channels, and also it has inlet and outlet headers for secondary coolant. Deflectors and separating walls are installed, respectively, in chambers and in matrix to form series-connected heat-transfer sections for counter-current movement of coolants. Matrix accommodates additional separating walls with overflow channels connecting headers; cross ribs are V-shaped with top facing upwards; side wall of case carries hot-wells. Inlet and outlet pipe connections may be secured radially or tangentially on side wall. They may be also secured on end walls of case. EFFECT: improved design. 6 cl, 6 dwg

Claims (1)

The invention relates to gas-liquid or gas-air heat exchangers. The heat exchanger comprises a housing with a cylindrical side, flat end walls, inlet and outlet pipes, distribution and assembly chambers for the first heat carrier, a matrix installed in the housing, consisting of plates with extruded corrugations, transverse ribs and windows, the plates being interconnected at peripheral edges , stamping ribs and windows in pairs with the formation of channels for both heat carriers, bounded by surfaces of mutually intersecting corrugations, transverse ribs located in the channels, as well as under leading and discharging collectors for the second coolant. Deflectors and dividing walls, respectively, are installed in the chambers and the matrix, which together form a series-connected heat exchange section with countercurrent movement of the coolant. Additional dividing walls with bypass channels connecting the collectors are installed in the matrix, and the transverse ribs are V-shaped with the apex facing up, and steam traps are mounted on the side wall of the housing. The inlet and outlet nozzles can be radially or tangentially mounted on the side wall. It is possible to mount the nozzles on the end walls of the housing.