RU1790714C - Boiler unit - Google Patents

Abstract

Usage: heat power engineering, boiler units of industrial heating and boiler houses. SUMMARY OF THE INVENTION: a flue gas stream is washed in series between evaporator 4, tubes of an air heater 5 with irrigation devices 10 and 11 in the annulus, and a after-cooler 6, while releasing heat. The heated air, bypassing the annular space of the air heater 5, is humidified, which contributes to the condensation of the water vapor of the flue gases in the tubes. Next, humidified air enters the consumer. 2 ill.

Description

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The invention relates to a power system and can be used in boilers of industrial heating and domestic boiler plants.

A known installation for recovering heat from flue gases of boiler houses, including a contact1te.g1 lutidizer, a bypass flue and a regulator of the ratio of gas flow through the heat recovery unit and a bypass flue with a temperature sensor for the internal surface of the wall of the chimney connected to the chimney using a flue gas exhaust pipe. In this scheme, it is possible to provide relatively reliable protection of the chimney walls from moisture condensation, however, only due to significant heat losses with flue gases. In addition, the vapors contained in bypass flue gases reduce the reliability of protection, especially in winter. A technical solution is also known by which a sufficiently deep cooling of the flue gases is carried out, followed by heating them by mixing air heated by the heat of condensed water vapor. However, due to its low temperature, the efficiency of air heating will be negligible.

The purpose of the invention is to increase the efficiency of the installation.

The goal is achieved in that the installation further comprises a tubular air heater with irrigation devices located between the evaporator and the flue gas after-cooler, the air heater tubes being connected to the gas duct space, the irrigation devices located in the annular space, and the aforementioned pipeline connected to the latter.

In FIG. 1 shows a general view of the installation; in FIG. 2 is a section along AA of FIG. 1.

The installation consists of a vertical gas duct 1 with a condensate tray 2, an external circuit heat exchanger 3, in which the circuit heat exchanger circulates, and an evaporator 4. The air heater 5 is made in the form of a heat exchanger located in the gas duct 1 between the evaporator and the flue gas aftercooler 6. Heat exchanger 5 and an aftercooler 6 have a common air collector 7, and the pipes of the air heater 5 are connected to the space of the gas duct 1. Thus, flue gases move along the inner surface of the rhombic pipes 8, and the outer surface omyvaets flow of combustion air for the boiler. Between the pipes of the heat exchanger 5 mounted nozzle 9

sprinklers 10 and 11, and nozzles 9 are located in the confusor part of the annular channel. The air is vented through an output manifold 12 provided with

moisture separator 13. Lattices for fastening rhombic pipes are made with an inclination to the horizontal plane of the cross section of the duct at an angle of 10-12 ° to provide a drain into the pallet 2 of non-evaporating

0 in the air flow of water through line 14. Water is supplied to evaporators 4, 10 and 11 from the sump 2 by pump 15 along line 16. The after-cooler 6 of the flue gases is connected to the duct 1 through the outlet manifold 17 with a distribution grid 18. Distribution of the air flow in the inlet manifold 7, heat exchangers 5 and 6 are produced using a distribution flap (not shown in the drawing). Heated air is supplied to the consumer, for example to the burners of the boiler.

The operation of the installation is as follows.

Flue gases after the boiler unit (on

5 is not shown) enter the vertical duct 1 and wash the heat exchanger of the external circuit 3, irrigated by the nozzles of the evaporator 4. Condensation occurs on the surface of the heat exchanger 3

0 the vapors contained in the flue gases and, due to the heat of condensation, heating the heat carrier of the external circuit. In evaporator 4, the flue gases are purified and saturated with water vapor. Then the flue gases pass through the inner surfaces of the rhombic pipes 8 of the heat exchanger 5. Since humidified blast air passes through the annular space of the air heater 5, this effectively condenses the water vapor of the flue gases on the inner walls of the pipes, and the moistened air is directed to the burners of the boiler (not shown in the drawing). Part of the air from the collector 7 is directed to the flue gas water cooler 6, washed by the flue gases passing through the heat exchanger 5, and water vapor also condenses on the surface of the aftercooler b, while the air passing through the aftercooler is heated through the exhaust manifold 17 and the distribution the grate 18 enters the gas duct 1, reducing the absolute humidity of the exhaust flue gases.

5

Thus, the proposed scheme allows the efficient use of flue gas heat to heat the coolant of the external circuit and to provide a high degree of flue gas drying.

Claims (1)

The claims A boiler installation comprising a gas duct connected respectively to the boiler and the chimney with the evaporator and flue gas after-cooler installed in it along the gases, the heated duct of which is connected at the outlet to the chimney, as well as a consumer of heated air with a pipe, characterized in that, for the purpose of increase efficiency the tank by treating the air and drying the flue gas, it further comprises a tubular air heater with irrigation devices located between the evaporator and the flue gas after-cooler, the air heater tubes being connected to the flue space, the irrigation devices placed in the annulus, and the aforementioned pipeline is connected to the latter .