RU2740326C1 - Air cooling unit with angled finning - Google Patents

Abstract

FIELD: heat exchange.SUBSTANCE: invention relates to air cooling apparatus for conducting heat exchange processes between air and hot heat carrier using movable channels (rotating tubes) and can be used in gas, chemical and oil refining industry. Apparatus consists of staggered bundle of tubes, spiral tapes, angles, closed type bearings, tube grids, nozzles for inlet and outlet of hot heat carrier. Spiral tape is rigidly installed in each pipe. Rectangular angles are welded to external surface of pipes by their one end. Corners on outer surface of pipe are arranged in rows, in staggered order, and on external surface of one pipe there are eight rows of angles, and in adjacent rows, angles are directed with right angle to opposite sides.EFFECT: increased intensity of heat exchange; reduced material consumption of apparatus.1 cl, 4 dwg

Description

The invention relates to air coolers for carrying out heat exchange processes between a coolant and air using movable channels (rotating pipes) and can be used in the gas, chemical and oil refining industries.

In the patent of the Russian Federation for invention No. 2266494, an air cooling apparatus is described containing fans for supplying an external cooling medium, mainly air, to the body of the apparatus and, but at least two heat exchange sections with chambers for inlet and outlet of the cooled gas. Single-pass finned heat-exchange tubes, located in the section in rows along its height and forming a bundle, are embedded in tube sheets. Each inlet chamber and outlet chamber have from two to seven branch pipes for connection to the gas inlet or outlet manifold, which are in communication with the gas pipeline. The total cross-sectional area of the group of heat-exchange tubes of the bundle, communicated by the flow of the cooled gas mainly with the supply pipe closest to them, is 1.2-1.7 times greater than the cross-sectional area of this pipe in the zone of the latter adjacent to the gas inlet chamber into the heat exchange section of the apparatus.

Common features with the proposed design of the heat exchanger are the presence of a tube bundle, the presence of a tube sheet, as well as cooling the hot coolant with air.

The disadvantage of this invention is the low intensity of heat transfer, as well as high material consumption.

The air cooler described in the RF patent for invention No. 2617668 is equipped with horizontally arranged heat exchange sections, tube plates with holes, chambers for supplying and removing the coolant, an electrically driven axial fan, and a diffuser. A distinctive design feature is the presence of three deflectors of two types in the diffuser: an S-shaped deflector for the center of the heat exchanger and two blade deflectors for the peripheral part of the heat exchanger.

Common features with the proposed design of the air cooling apparatus are the presence of a tube bundle, chambers for supplying and removing the coolant, as well as cooling the coolant with air.

The disadvantage is similar to the previous analogue.

In the patent of the Russian Federation No. 2645861 "Heat exchanger of the" pipe-in-pipe "type with a rotating pipe" a heat exchanger is described, which consists of two concentric pipes: an inner pipe and an outer pipe, a radial turbine, an axial turbine, a turbulator in the form of a spiral tape, two bearings, seals and branch pipes for inlet and outlet of high-speed heat carrier. The radial turbine is mounted on an inner tube and is fitted with an interference fit. The radial turbine is located opposite the high-speed coolant inlet. An axial turbine is installed in the inner tube with an interference fit.

Common features with the proposed design of the heat exchanger are the presence of pipes, spiral tape, bearings, seals and the ability of the pipes to rotate.

The disadvantage of this invention is the low intensity of heat transfer.

The closest in design (prototype) is an air cooling apparatus described in RF patent for invention No. 2705787 "Air cooling apparatus", consisting of a casing with an inlet and outlet for air, pipes, with nozzles for inlet and outlet of a hot coolant, with a turbulator in in the form of a spiral tape, blade elements on the outside of pipes, bearings, while inside the casing there is a staggered bundle of pipes installed on bearings, inside of which spiral belts are rigidly installed, and on the outer surface of the pipes, bladed impellers with outer rings are rigidly mounted at the same distance between themselves, with In this case, the impellers on each pipe are displaced with respect to the impellers on the pipes of adjacent horizontal rows so that they do not touch each other during rotation, and the bearings on which the pipes lie are located in the tube sheets.

Common features with the proposed design of the heat exchanger are the presence of a tube bundle, rotating tubes, spiral belts, the presence of a tube sheet with bearings, as well as cooling the hot coolant with air.

The disadvantage of this invention is the low intensity of heat transfer.

The object of the invention is to create a new highly efficient air cooling apparatus for carrying out heat exchange processes between a hot coolant and air.

The technical result of the invention consists in:

- an increase in the intensity of heat transfer;

- reducing the material consumption of the apparatus.

The elimination of these disadvantages and the achievement of the claimed technical result from the implementation of a new air cooling apparatus is achieved due to the fact that there is ribbing on the outer surface of the bundle tubes, which increases the heat transfer area and the intensity of heat exchange, and the ribs are in the form of rectangular corners, one end welded to the outer surface of each pipes, and the corners on the outer surface of each pipe are arranged in rows, staggered, and on the outer surface of each pipe there are eight rows of corners at the same distance from each other, and in adjacent rows the corners are directed at right angles in opposite directions, while there is no casing, At the same time, during the rotation of the pipes, the corner fins turbulize the air, while intense circulating air flows arise between the corners, which makes it possible to increase air turbulence, increase the intensity of heat exchange and reduce the working volume and material consumption of the apparatus.

Common features with the prototype are the presence of a tube bundle, rotating tubes, spiral belts, the presence of a tube sheet with bearings, as well as cooling the hot coolant with air.

A distinctive feature of the claimed invention is the presence of ribbing that increases the area of heat transfer, and the ribs have the form of rectangular corners, one end welded to the outer surface of each pipe. In this case, the corners on the outer surface of each pipe are arranged in rows in a staggered manner, and on the outer surface of each pipe there are eight rows of corners at the same distance from each other, and in adjacent rows the corners are directed at right angles in opposite directions. In this case, there is no casing, and air circulates freely between the rotating pipes with angle fins. When the pipes rotate, the ribbing in the form of corners turbulates the air, while intense circulating air flows arise between the corners, which makes it possible to increase air turbulence, increase the intensity of heat exchange and reduce the working volume and material consumption of the apparatus.

The essence of the proposed air cooling apparatus is illustrated by drawings (Fig. 1-4). List of figures:

FIG. 1. General view of the heat exchanger.

FIG. 2. General view of a pipe with angle finning in perspective.

Fig. 3. Side view of a pipe with corner fins in perspective.

FIG. 4. Perspective view from the end of the pipe with angle fins.

Fig. 1 for us. the general view of the heat exchanger is shown. In FIG. 2 shows a general view of a pipe with corner finning, the spiral mite inside the pipe is not shown. FIG. 3 is a perspective side view of a corner finned pipe. FIG. 4 is a perspective view from the end of an angle finned pipe, the spiral tape inside the pipe is not shown.

The claimed air cooling apparatus (Fig. 1-4) consists of heat exchange tubes (1) in the form of a staggered bundle (Fig. 1), a spiral tape (2), corners (3) (Fig. 2), closed-type bearings (4) , a tube sheet (5), a branch pipe for the inlet of a hot heat carrier (6), a branch pipe for an outlet of a hot heat carrier (7). The spiral tape (2) is installed in the pipe (1) and is rigidly fixed inside it. The rectangular corners (3) are welded at one end to the outer surface of the pipes (1) (Fig. 2). In this case, the corners on the outer surface of the pipe are arranged in rows, in a checkerboard pattern, and on the outer surface of each pipe there are eight rows of corners, and in adjacent rows the corners are directed at right angles to opposite sides (Fig. 3), (Fig. 4). The pipes (1) lie on closed-type bearings (4). Sealed bearings (4) are located in tube sheets (5). The tightness of the junction of the rotating pipes (1) with the stationary tube sheet (5) is ensured by closed-type bearings (4) (Fig. 1).

The proposed air cooler, designed to cool the hot heat carrier with air, operates as follows. The hot coolant flows through the fixed inlet pipe (6) and through the tube sheet (5) into pipes (1) containing spiral strips (2). The flow of hot coolant interacts with each spiral tape (2), drives it into rotation together with a pipe (1) mounted on closed-type bearings (4) (Fig. 1). Each pipe (1) and spiral tape (2), rigidly attached to the pipe (1), rotate as a whole, with the same frequency and direction of rotation.

Together with the pipe (1), the corners (3) (Fig. 2), welded to the outer surface of the pipe (1), rotate. The corners (3) move, mix and turbulize the air in the annular space. The corners (3) also play the role of ribbing, which increases the heat exchange area. The kinetic energy of the hot coolant is used to rotate a spiral tape (2) and a pipe (1) with corners (3), turbulence of coolant flows, which makes it possible to intensify heat transfer. Heat transfer between the hot coolant and the air occurs through the pipe wall (2). The hot coolant leaves the pipe space through the fixed outlet pipe (7). Atmospheric air enters the annular space, carried away by the corners (3) rotating together with the pipes (1). Sealed bearings (4) serve as supports for pipes (1) and are also designed to seal the joints of pipes (1) and fixed tube sheets (5). Thus, the kinetic energy of the hot coolant is used to rotate pipes (1) with corners (3) using spiral belts (2), to turbulize flows in the annular space and in pipes (1), which makes it possible to intensify heat transfer, reduce the working volume of the apparatus and reduce the material consumption of the device.

LITERATURE

1. RF patent for invention №2266494. Gas air cooler. Ovchar V.G., Danilenko V.G., Belousov V.P., Berestov V.A., Terekhov V.M., Shlyakhov S.B. Publ .: 20.12.2005.

2. RF patent for invention No. 2617668. Gas air cooler. Zarinov Yu.M., Naumov A.M., Shishkin E.S., Cherny L.P. Publ. 27.04.2017.

3. RF patent for invention No. 2645861. Tube-in-tube heat exchanger with rotating tube. Balchugov A.V., Kustov B.O., Badenikov A.V., Kuznetsov K.A., Kuzora I.E. Priority of invention from April 26, 2017

4. RF patent for invention No. 2705787. Air cooler. Balchugov A.V., Kustov B.O., Badenikov A.V. Priority of invention from July 24, 2019

Claims (1)

An air cooling apparatus consisting of a staggered bundle of pipes, with spiral strips rigidly installed inside the pipes, with nozzles for the inlet and outlet of the hot coolant, with elements on the outside of the pipes, with bearings on which the pipes lie located in the tube sheets, characterized by the fact that that rectangular corners are welded to the outer surface of the pipes with one end, and the corners on the outer surface of the pipe are arranged in rows, in a staggered manner, and on the outer surface of one pipe there are eight rows of corners, and in adjacent rows the corners are directed at right angles to opposite sides.

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