SU851079A1 - Shell-and-tube heat exchanger - Google Patents

Description

(54) SHELL-TUBE HEAT EXCHANGER

Claims (3)

The invention relates to apparatuses meaningfully for carrying out heat exchange processes and may find application in the chemical, petrochemical, vitamin, food, pharmaceutical and other industries. Shell-and-tube heat exchangers containing a tube bundle reinforced in tube grids and transverse partitions of a segment shape with angular displacement around the longitudinal axis of the heat exchanger to ensure movement of the annular space along a helix Cl 1 are known. Also known is a heat exchanger containing a casing with a bundle of pipes fixed in tube sheets and transverse partitions located at a corner. displacement relative to the longitudinal axis of the heat exchanger. The displacement angle of the partitions is 60 2. The disadvantage of these heat exchangers is that the viewing angle of the partitions is equal to it. When pipes in the heat exchanger are made of polymeric material, especially when their number reaches 2-2.5 thousand, this angular displacement of the partitions results to a decrease in heat transfer intensity, since there is an uneven velocity flow field, since the distance between the partitions is significant. Closest to the present invention is a shell-and-tube heat exchanger containing a tube bundle secured in tube sheets, a central collector with perforated walls and a muffled end, transverse partitions placed at a predetermined pitch along the collector and the nozzles supplying and discharging media into the tube and tubular spaces. In this heat exchanger, the heat carrier is evenly distributed along the collector through the annular space Z. However, there is no swirling flow, since the partitions do not have an angular displacement, which significantly reduces the heat exchange intensification, since there is no redistribution of flow velocity fields across the heat exchanger cross section. The purpose of the invention is to intensify heat transfer. This goal is achieved by the fact that the heat exchanger is provided with an additional HUM nozzle G for supplying the medium to the intertube space and the collector is connected with the open end to this nozzle, and the partitions are placed with an angular displacement of 30-45 one relative to the other. In addition, the partition area is 1 / 4-1 / 2 of the cross-sectional area of the case. On fng.1 shows the proposed shell-and-tube heat exchanger; figure 2 - section aa in figure 1; on fig.Z - section bb in fig, 1; figure 4 is a section bb In Fig. / figure 5 is a section GG on figure 1. The apparatus contains a casing 1, a tube bundle 2 of polymer pipes, fixed them in tube grids 3 of a polymer material, a central collector 4, transverse partitions 5, pipes 6 and 7 for supplying and removing heat from the pipe space, respectively, pipe 8 for flow of coolant into the annular space, pipe 9 to drain the coolant from the annular space, an additional pipe 10 connected to the manifold 4, which has holes 11. The device works as follows. The coolant enters the tube space through the pipe 6, passes through the pipes 2 and is discharged from the pipe space through the pipe 7. In the annular space, the heat sink enters both through pipe 8 and through pipe 10 of the collector 4. prices; a part of the annular space; the flow of heat transfer fluid through displaced one relative to another transverse walls 5 is directed from the center of the beam to the periphery and simultaneously moves along the beam axis along a helix When this are provided by a uniform distribution over the cross section of the casing and the heat medium turbulence. Claim 1. Shell-and-tube heat exchanger containing tube bundle, mounted in tube sheets, central collector with perforated walls and plugged end, transverse partitions arranged at a predetermined pitch along the collector, and branch pipes for supplying and discharging media into the tube and tube space, characterized by that, in order to intensify heat exchange, the heat exchanger is equipped with an additional pipe for supplying the medium to the annular space and the collector is connected with the open end to this pipe and the partition walls and placed with an angular offset of 30-45 one relative to another. 2. Heat exchanger according to claim 1, 1, of tl ich a and y with the fact that the partition area is 1 / 4-1 / 2 of the cross-sectional area of the casing. Sources of information taken into account during the examination. 1. US patent No. 2693942, class 165-161, published in 1954. 2. US Patent No. 3 & 30276, Cl. 165-158, published. 1972. 3. USSR author's certificate number 356440, cl. F 28 D 7/00, 1970.