SU1315781A1 - Shell-and-tube heat exchanger - Google Patents

Abstract

The invention can be used in the chemical, food, energy, refrigeration and shipbuilding industries. The invention allows to increase the resource and increase the turnaround time of the heat exchanger while reducing its metal consumption. On the inner surface of the side walls of the casing 1 opposite the peripheral pipes 2, the most removed 4-1: (Sh el oo sd 00

Description

from the corresponding wall, parallel to the latter and pipes 2 are fixed to the displacers. The latter are made in the form of semi-tubes 11 and 12, round or angular, respectively. Due to the installation of the displacers, the same degree of filling of the pipe in the near-wall zones and in the main volume of the annular space is ensured. The invention relates to heat-generating apparatus and can be used in various sectors of the national economy.

The purpose of the invention is to increase the resource and increase the turnaround time of the heat exchanger while at the same time reducing its metal consumption.

Fig, 1 shows the proposed

heat exchanger, cross section; figure 2 is the same, a longitudinal section

The heat exchanger contains a casing 1 with a bundle of horizontal heat exchanging tubes 2 placed inside, located

staggered and reinforced in tube plates 3, distribution chamber 4 and distribution grid 5 among the annular space, as well as inlet pipes 6 and 7 and outlet 8 and 9, respectively, of pipe and annular mediums. Fine-grained material 10 is placed in the annular space, which is brought into a fluidized state during the operation of the heat exchanger in the upward flow of the coolant. On the inner surface of the side walls of the casing 1 opposite the peripheral pipes 2, which are farthest from the corresponding wall, propellants are fixed parallel to it and the pipes; they are made in the form of half-pipes round 11 or angular 12 profiles. The annular space can be divided into several sections by vertical partitions 13.

The heat exchanger operates as follows.

Fluid less prone to the formation of deposits is fed into. pipe space through the pipe 6, flows through the pipes 2, exchanging with

The uniform structure of the fluidized granular layer throughout the entire annular space eliminates the circulation movement of the granular material along the contour — down near the walls and up in the central zone, as a result of which the abrasive wear of the tubes and side walls of the casing is reduced. 1 hp ff, 2 ill.

five

0

25

0 - 35

40

at the same time, it is warm with the annular coolant and is removed through the pipe 8.

The heat carrier, which is more prone to the formation of deposits, is fed through the pipe 7 into the distribution chamber (or chambers) 4, passes through the distribution grid 5, enters the annular space and, lifting, causes the granular material 10 therein to fluidize. , being in a chaotic motion, has a continuous mechanical effect on the heat exchange surface, preventing the formation of deposits and continuously destroying the boundary laminar film.

Due to the installation on the inner surface of the side walls of the casing against the outermost pipes of the propellants made of semi-tubes, the degree of filling with pipes in the near-wall zones and in the bulk of the annular space is the same, the fluidized granular layer is evenly distributed throughout the entire annular space. the movement of the granular material along the contour is down near the walls and up in the central zone, as a result of which the abrasive and Removal of pipes and side walls of the housing.

The use of the invention allows to increase the resource, to increase the repair time of the heat exchanger, as well as to reduce the area of the heat exchanging surface and the metal intensity of the apparatus.

313157814

Claims (2)

The claims of the service are at the same time reduced 1. Shell-and-tube heat exchanger, metal consumption, on the inner surface contains a housing with fluidizable side walls of the housing opposite the fine grain material in the intertube-peripheral pipes, the most remote space and located inside- 5 ix from the corresponding wall, paral- In the case of a casing, a bundle of horizontal heat-exchange pipes arranged in a checkerboard pattern, characterized in that, for the purpose of revolving, displacers are reinforced. 2. A heat exchanger according to claim 1, characterized in that the displacers are made in the form of a semi-pipe round 2. The heat exchanger according to claim 1, which is made up of and increase the turnaround time or angle profile. service, while reducing metal consumption, on the inner surface of the side walls of the casing opposite the peripheral tubes, ix is most remote from the corresponding wall, the supporters are strengthened for her. 2. A heat exchanger according to claim 1, characterized in that the displacers are made in the form of a half-pipe of a round or angular profile. Editor A. Kozoriz Compiled by M. Kosorotov Tehred M. Khodanich Proof-reader V. But ha Order 2342/41 Circulation 611 Subscription VNRSHPI State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Design, 4, Fi.g