Patent ID: 8672021
Filing Date: 2014-03-18
Classification: F28D,F28F

Abstract:
1. A shell and tube heat exchanger comprising; a) a plurality of tubes through which a hotter, lower pressure fluid intended to be cooled flows, said tubes are surrounded by cooling fluid under high pressure, which pressure is contained in principally tensile and bending stress by an external shell, and by said tubes in principally compressive stress, b) said external shell is made of a large substantially cylindrical shaped structure joined and sealed to two substantially flat round disk shaped tube-sheets on either end of the large substantially cylindrical shaped structure, c) the wall thickness of said large substantially cylindrical shaped shell structure is substantially larger than that of the tube walls, and the wall thickness of the round disk shaped tube-sheet structure is substantially larger than the thickness of the tube wall and the thickness of the substantially cylindrical shaped shell structure, d) said tubes extend from one tube-sheet to the other parallel to the axis of the outer cylindrical shaped shell structure, said tubes are directly joined and sealed on either end to said tube-sheets toward the outer side of each tube-sheet, but are located completely within a plane defined by a substantially flat outside facing surface of the tube-sheet, e) said shell and tube heat exchanger has at least one cooling fluid inlet leading to at least one plenum chamber for said cooling fluid, said at least one plenum chamber is adjacent to a respective one of the tube-sheets, and said at least one plenum chamber is segregated from the rest of the cooling fluid in a main interior chamber of the heat exchanger by a diaphragm plate, and further comprising at least one cooling fluid outlet from the main interior chamber of the heat exchanger, f) within said at least one plenum chamber said tubes are each surrounded by a baffle tube, which baffle tube is sealed on one end to the diaphragm plate, and projects outward through the plenum chamber into tube-holes in the tube-sheet on the other end thereof to form a specified gap between the end of the baffle tube and hole bottom where the tube is joined to the tube-sheet, g) wherein tube-holes cut into the tube-sheet form two annular gaps between each tube and the tube-sheet, the cooling fluid flow path being divided by said baffle tubes into an inner annular gap between the tubes and baffle tubes, and an outer annular gap between the baffle tube and tube-hole cut into the tube-sheet and the end of each tube extends across the inner annular gap and the outer annular gap and is joined to a sidewall of the tube-hole, h) the cooling fluid flows from the plenum chamber inlet, into the plenum chamber, then, into each of the outer annular gaps for each tube, then, for each tube, down toward the tube to tube-sheet joint, and then up the inner annular gap up to and through the diaphragm plate to the main interior chamber of the heat exchanger, i) which said baffle tube is held in position relative to the tube and tube hole in the tube-sheet, and the hole bottom, by a plurality of tabs arranged proximate to said specified gap and so arranged as to allow even flow around the circumference of each annulus.