SU1476263A1 - Exhaust hood - Google Patents

Abstract

The invention allows to increase the degree of utilization of heat of flue gases and their purification from mechanical impurities. In case 1, there is a heat exchange nozzle (H) with alternating flow vertical channels (K) of flue gases and heated medium 4. Flue gas inlet and outlet 5,6 are connected through the lower and upper parts of housing 1 with K of flue gases. The supply and return lines 7, 8 are connected to K 4. In the upper part of the housing 1 above H, a separating wall 10 is arranged to form the flow cavity 9. The H is made in the form of concentrically arranged arcuate elements, which are K 4. K 4 are provided with plugs in the lower part 12 and vertical partitions 13. The partitions 13 are located in the upper part of the cavity 9 perpendicular to the direction of movement of the heated medium and are rigidly connected to the housing 1. The lower partitions 13 are located above the plugs 12 with the formation of a gap 14. The lower part A collection of mechanical impurities has been installed 15. Cavity 9 is connected from the side of pipe 6 to pipe 7. 3 Il.

Description

The invention relates to techniques for ventilation and can be used, in particular, for the utilization of the heat of the removed flue gases.

The purpose of the invention is to increase the degree of utilization of the heat of flue gases and their purification from mechanical impurities.

In FIG. 1 is a schematic diagram of an exhaust hood, side view; in FIG. 2 - the same, top view, combined with its horizontal section; in FIG. 3 - SE section AA in FIG. 2.

The exhaust hood contains a heat exchange nozzle 2 located in the housing 1 with alternating flowing vertical channels 3 and 4 of flue gases and a heated medium. The inlet and outlet nozzles 5 and 6 of the flue gases communicated respectively through the lower and upper parts of the housing 1 with channels 3 of flue gases. The supply and return pipes of water 7 and 8 are connected to the channels 4 of the heated medium. In the upper part of the housing 1 above the nozzle 2 there is a dividing wall 10 with the formation of a flowing cavity 9.

The heat exchange nozzle 2 is made __ in the form of arcuate elements 11 concentric with each other, being the channels 4 of the heated medium, equipped with plugs 12 and vertical partitions 13 located at the top in the flow cavity 9 perpendicular to the direction of movement of the heated medium and rigidly connected with the housing 1, and the lower part above the plugs 12 with the formation of a gap 14.

In the lower part of the housing 1 above the nozzle 2 there is a collection of 15 mechanical impurities, and the flow cavity 9 is communicated from the side of the exhaust pipe 6 of the flue gas with the supply pipe 7. The housing 1 can be insulated.

An exhaust hood operates as follows. 40

The removed flue gases, for example, from a heating furnace, through the inlet pipe (or several pipes) 5 enter the free space limited by the arcuate elements 11 inside the lower part of the housing 1, where they are evenly distributed along the vertical channels 3 and move inside the latter in the general direction to the outlet pipe 6. In this case, heat from flue gases is transmitted through a heat exchange nozzle 2 to a heated medium, such as water, moved in vertical channels 4.

The heated medium enters through the supply pipe 7 to the upper part of the flow cavity 9 and then sequentially and zigzag moves through the vertical channels 4 and their gaps 14 in the general direction to the return pipe 8, through which it is then heated to the consumer.

When flue gases move inside the channels 3 of the arcuate elements 11, simultaneously with the cooling of the gases, they are cleaned of mechanical impurities, which are collected in a collection of 15 mechanical impurities and then periodically removed from it.

Claims (1)

Claim An exhaust hood containing a heat exchange nozzle located in the casing with alternating flowing vertical channels of flue gases and a heated medium, an inlet and outlet flue gas pipes communicated through the lower and upper parts of the casing with flue gas channels, respectively, and connected to the channels of the heated medium return pipelines, and in the upper part of the housing above the nozzle, a dividing wall is located with the formation of a flowing cavity, characterized in that, in order to increase the degree neither utilization of the heat of flue gases and their cleaning from mechanical impurities, the heat exchange nozzle is made in the form of arcuate elements concentrically arranged among themselves, which are channels of the heated medium, equipped with plugs and vertical partitions located at the top in the flow cavity perpendicular to the direction of movement of the heated medium and rigidly connected to the housing, and the lower part - above the plugs with the formation of a gap, while in the lower part of the housing under the nozzle It becomes a collection of solids, and flow cavity is connected with the output side of the flue gas pipe to the feed pipe.