SU1615454A1 - Utilization boiler - Google Patents

Abstract

The invention relates to power engineering and can be used to recover the heat of hot gases from various process plants. The purpose of the invention is to intensify heat transfer. For this, the recovery boiler further comprises a spiral mixing chamber with the inlet section 4, the middle section 5 and the output section 6, connected respectively to the flue 3 to supply recyclable gases, the furnace 2 and the radiation flue 1. The utilized gases at the beginning of the first turn of the middle section 5 of the mixing chamber are mixed with the combustion products of the furnace 2, which enter the mixing chamber through a window. The resulting mixture at the beginning of the second turn of the middle section 5 of the mixing chamber mixes the combustion products of the furnace 2 through the window 8. Since the mixing of the combustion products and the utilized gases occurs first with their opposite movement and then with a joint rotation in a spiral, a uniform field is formed temperatures, which intensifies heat exchange in it. 2 Il.

Description

i The invention relates to the power industry and can be used to recover the heat of hot gases from various technical installations.

; The aim of the invention is to intensify heat exchange in the recovery boiler.

; FIG. 1 shows the utilization boiler, general view; in fig. 2 is a view A of FIG. one.

I The recovery boiler contains a radiation gas duct 1 and the furnace 2 connected to it and the gas duct 3 for supplying recyclable gases. The waste-heat boiler additionally contains a double displacement chamber with an inlet yiacTKOM 4, a middle section 5 and an outlet yiacTKOM 6 connected respectively to the flue 3 to supply recyclable gases t and 2 several turns. In this case, the middle section 5 has two spirals and is made with windows 7 and 8 at the beginning of each spiral to connect it to the furnace 2. The furnace 2 is equipped with burners 9 and is separated from the radiation flue duct with festoon 10 eleven.

I The heat recovery boiler operates as follows.

I The utilized gases from the flue 3 are fed into the displacement chamber, where at the beginning of the first turn of the middle section 5 of the last section, the TD combustion from the furnace 2 is mixed into them through the window 7, and the beginning of the second turn of the helix to it The combustion products of the furnace 2 are mixed in through the window 8. The final mixture of the combustion products with the utilizable gases that enters the radiation flue 1 is obtained. Since the mixing of the combustion products and the utilized gases occurs first Then, with a simultaneous rotation in a spiral, a uniform temperature field is formed in the radiation flue 1, which intensifies the heat exchange in it.

If the heat of the utilized gases is sufficient to maintain the nominal parameters of the boiler, the fuel in the furnace 2 is not burned, and the utilized gases in the radiation flue 1 flow not only through the outlet section 6 of the mixing chamber, but also through windows 7 and 8, the furnace and festoon 11.

 In addition, as a result of the oncoming movement of the combustion products and the utilized gases, the processes of "locking and" emptying the furnace 2, i.e. the movement of combustion products carries a pulsating character, which makes it possible to intensify the mass exchange in furnace 2 and to increase the completeness of fuel burnout.

Claims (1)

Invention Formula 25 A waste heat boiler containing a radiation flue and the furnace and the flue gas supply flue connected to it, characterized in that, in order to intensify heat exchange, it additionally It contains a spiral displacement chamber with inlet, middle and outlet sections connected respectively to the flue gas supply duct, firebox and radiation flue. Vida