SU1573294A1 - Convection heat-exchange surface - Google Patents

Abstract

The invention relates to energy and can be used in boiler installations. The purpose of the invention is to increase the efficiency of heat exchange, reducing the complexity of manufacturing and repair. Water is passed through pipes 1 and air through pipes 2. Water and air are heated, the gases in the flue 3 are cooled. Due to the cross-arrangement of pipes 1 and 2, the aerodynamics of the gas flow is improved, fins 6 can be used, which increases the efficiency of heat exchange. Simplified manufacture and repair, because pipes 1 and 2 lean on each other and on vertical collectors 4 and 5, which makes it possible to replace water pipes 1 in the event of their failure due to scale formation and corrosion. 2 Il.

Description

The invention relates to energy and can be used in boiler plants.

The invention aims novy- in efficiency of heat exchange _g n ^J decrease the complexity of manufacturing and -Repairs.

Fig. 1 shows the convective heat transfer surface, general view; jq in figure 2 is a section aa in figure 1. ·

The convective heat exchange surface contains a bunch of horizontal water 1 and air 2 pipes installed in a vertical duct 3 jg respectively. Alternating through one in longitudinal rows. Pipes 1 of each longitudinal row are connected to end collectors 4, and pipes 2 to end collectors 5. Pipes 1 and 20 2 are installed on pipes 2 and 1, respectively, of the adjacent row. Collectors 4. and 5 water and air pipes 1 and 2, respectively, are located vertically on different sides of the beam. 25 Water pipes 1 are made rectilinear and placed transversely to air pipes 2. Pipes 1 and 2 are made with longitudinal ribbing 6, moreover, air pipes 2 are made with βθ diameter exceeding the diameter of water pipes 1.

The convective heat transfer surface works as follows.

Heated water is supplied to pipes 1, and heated air is supplied to pipes 2. In pipes 1 and 2, water and air are heated, cooling heating gases passing through the gas duct 3.

Due to the cross-location of pipes 1 and 2 in the beam, the aerodynamics of the gas stream improves, it becomes possible to use fins 6, which increases the efficiency of heat exchange. The manufacture and repair is simplified, since the pipes 1 and 2 are supported by each other without welding, which makes it possible to replace the water pipes 1, in case of failure, as the ones most subject to scale formation and corrosion. The design of the convective heat exchange surface has sufficient rigidity, since the pipes 1 and 2 are supported by each other and their vertical collectors 4 and 5. In addition, the location of the water pipes 1 between the air pipes 2 ensures the passage of water and air at the same leaving temperature gases in the duct 3 boiler unit, which allows the most efficient use of the temperature of the exhaust gases and, therefore, to increase the efficiency of the boiler unit.

Claims (1)

Claim A convective heat exchange surface containing a bundle of horizontal water and air pipes installed in a vertical duct, respectively alternating through one longitudinal row, the pipes of each of which are connected to the end manifolds and installed on pipes of an adjacent row, and the air pipe manifolds are located vertically on opposite sides of the beam characterized in that, in order to increase the efficiency of heat transfer and reduce the complexity of manufacturing and repair, water pipes are made rectilinear and mescheny transverse air pipes, water pipes and the collectors are arranged vertically on opposite sides of the beam. Figure 1