SU1581969A2 - Flue - Google Patents

Abstract

The invention relates to building structures, namely to smoke and vent pipes of industrial facilities. The aim of the invention is to increase the efficiency of heat utilization of the exhaust gas and improve the environmental situation in the area of operation. The flue pipe includes a ferroconcrete support shaft 1, a gas exhaust trunk 2, spiral heating pipes 3 connected to a water heating tank 4. The heating pipes and the tank are filled with coolant. The container 4 is provided with a heat-conducting screen 6 and pipes 7 for supplying water. 3 il.

Description

. (61) 1303688

(21) 4605506 / 23-33

(22) 11/14/88

(46) 07/30/90. Bul K 28

(71) Research Institute of Concrete and Reinforced Concrete Gosstro of the USSR

(72) L.A. Korobov, O.K. Nazaryev, G.F. Pologov and V.M.Loginov

(53) 691.841 (088.8)

(56) USSR Author's Certificate No. 1303688, cl. E 04 H 12/23,.

(54) CHIMNEY PIPE

(57) The invention relates to building structures, namely to smoke and vent pipes of industrial facilities. The aim of the invention is to increase the efficiency of heat utilization of the exhaust gas and to improve the environmental situation in the operating area. The flue pipe includes a ferroconcrete support shaft 1, a gas exhaust trunk 2, spiral heating pipes 3 connected to a water heating tank 4. The heating pipes and the tank are filled with coolant. The container 4 is provided with a heat-conducting screen 6 and pipes 7 for supplying water. 3 il.

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The invention relates to building structures, namely to smoke and vent pipes of industrial objects, and is an improvement of the invention according to the author. EV N 1303688.

The purpose of the invention is to increase the efficiency of heat recovery of the exhaust rvcha and to improve the environmental situation in the area of operation.

Figure 1 shows a section of the chimney, a vertical section; figure 2 - flue pipe, horizontal section; Fig. 3 shows the layout of the axes of the heating tubes in one of the diametral sections.

The flue pipe includes a ferroconcrete support shaft 1, a vapor pipe 2, spiral heating pipes 3 connected to a heating tank 4, the heating pipes and the tank are filled with heat carrier 5. The heating tank 4 is equipped with a heat conducting screen 6 and water supply pipes (heat carrier) heating tanks. The heating capacity, the exhaust trap and the pipes for the supply and removal of heat transfer fluids are coated with thermal insulation.

The sections of the gaiter with the built-in heating system, the heating capacity connected to the pipes) is brought to the building as ready-made and set to the working marks during the mounting of the trunk.

The heating pipes have a significant area relative to the heat-transfer fluid placed in them, which ensures its rapid heating, and consequently, the utilization of the heat of the exhaust gas increases.

The surfaces of the spiral heating tubes are placed at an angle to the flow of the exhaust gas, which improves the conditions for heating the coolant in them. Spiral pipes, the forward movement of gas in the gas outlet pipe, is transformed into a vortex, with a rarefied space arising in the center of the vortex, which causes an increase in thrust in the pipe. At the bottom, the heating tubes may be straight, i.e. go parallel to the flow of exhaust gas. According to the height of the installation, the rectilinear shape of the pipes changes to spiral. Smooth angle change

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tilting of the pipes improves the conditions for vortex formation.

The spiral pipes can be placed in one layer along the perimeter of the inner subsurface of the gas exhaust trunk or the inner surface of the heat conducting screen. It is possible to arrange pipes in two, three and more concentric circles. At the same time, the spirals of pipes located in a circle with a large radius have a greater angle of inclination to the vertical than pipes located along the perimeter of a smaller radius. When the heating tube is located in the center of the gas exhaust trunk, it is straight. Increasing the angle of the spiral with increasing radius of the cylindrical surface in which it is located, contributes to the formation of a vortex,

Thus, the spiral heating tubes in the flue gas trunk improve the heating of the coolant in them and increase the traction of gases in the tube.

The system of spiral heating pipes is combined with heating tanks equipped with a heat shield. Such a combination allows an increase in the efficiency of the installation, since the heat of the exhaust gases is removed not only through the surface of the heating tubes, but also through the surface of the heat-conducting screen.

The number of layers of spiral heating pipes depends on the volume, velocity and temperature of the exhaust gas, as well as on the quantitative needs of heat recovery. In the particular case, with a small need for heat recovery, the heating pipes can be located on one circle.

With respect to the height of the barrel, several such heating units can be located. The installation position in the upper zone of the pipe allows more efficient removal of heat from the exhaust gas, and therefore, more significantly, reducing its temperature, which, in turn, leads to an additional increase in thrust. trunk pipe and to improve the environmental situation in the area of its operation.

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The economic effect of introducing the invention is due to fuel economy due to more efficient utilization of the heat of the exhaust gas. The heated coolant is used for space heating, for swimming pools, greenhouses, in drying chambers, etc. Reducing the temperature of the gas emitted into the atmosphere improves the environmental situation in the zone of operation of the pipe.

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Claims (1)

Invention Formula Dymov pipe on the bus. St. No. 1303688, characterized in that, in order to increase the efficiency of heat utilization of the exhaust gas and improve the environmental situation in the tone of operation, it is additionally equipped with spiral heating pipes, which are evenly spaced along concentric circles inside the gas outlet trunk and connected to heating capacitive mi. FIG. 2 Fig.Z