SU1581970A1 - Air heater - Google Patents

Abstract

The invention relates to the field of power engineering and can be used in boiler building. The purpose of the invention is to increase efficiency by protecting against sulfuric acid corrosion. Through the duct 8, air (B) is supplied to the annulus of section (C) 2. The pipe (T) is washed, B is heated, through inter-passage ducts 12 enters C 3, then C 4, from where it is removed. The gases (G) enter the T C 4, release some of the heat and output to the opening 5, then C 3 also pass, the opening 5 between C 2 and 3, C 2 and leave the heater. Due to the presence of the partition 9, the flow rate G through the outermost rows of T С 2 on the side of the duct 8 is higher than the average flow of one T. Therefore, these rows T are cooled less than with a uniform distribution of T over T. As a result, -a hazardous zone (in the first in the course of TBT 2) the temperature of the walls T is higher than in known air preheaters, which reduces the corrosion rate. 1 hp f-ly, 2 ill.

Description

one

(21) 4161733/74-06

(22) 12/23/86

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

(71) Podolsk Machine-Building Plant. Ordzhonikidze

(72) A.Ye. Yampolsky, L.U.Lipets, A.A.Smyshliev and A.G.Vartin

(53) 621.181.02 (088.8)

(56) USSR Author's Certificate No. 330J02, cl. F 23 L 15/04, 1969.

USSR Author's Certificate No. 954720, cl. F 23 L 15/04, 1980.

(54) AIR HEATER

(57) The invention relates to a power system and can be used in boiler building. The purpose of the invention is to increase efficiency by protecting against sulfuric acid corrosion. The duct 8 air (B) is served in the annular space

sections (C) 2. The wash of the pipe (T), B is heated, through inter-passage ducts 12 enters C 3, then C 4, from where it is removed. Gases (G) enter into T C 4, release some heat and exit into opening 5, then passing through C 3, opening 5 between C 2 and 3, C 2 and leaving the air preheater. Due to the presence of the partition 9, the flow rate T through the outermost rows of T of C 2 from the stolons of the duct 8 is higher than the average consumption per ONE T. Therefore, these rows of T cool less than with a uniform distribution of T over T. As a result, - rosionio-hazardous zone (in prrvigh along V T C 2) the temperature of the walls T is higher than in known AIR HEATERS, which reduces the corrosion rate. 1 hp f-ly, 2 ill.

"

The invention relates to heat and power engineering and can be used in boiler building.

The purpose of the invention is to increase efficiency by protecting against sulfuric acid corrosion.

Figure 1 shows the proposed heater, a general view} in figure 2 - the same, axonometric.

The air heater contains a flue 1 with sections 2, 3 and 4 sequentially installed in it with the formation of gas openings 5 between them between their interconverted tube boards 6 with openings 7 for heat exchange pipes of sections 2, 3

and 4, to the first of which, along the course of the air, namely section 2, a supply air duct 8 is connected to the side. The air heater is provided with at least one partition 9 installed in the last gas passage 5 and adjacent to tube plates 6 of adjacent sections 2 and 3 with the formation of two unequal in volume compartments 10 and 11, Mei, of which compartment 10 is located on the side of the supply duct 8. In this case, the total cross-sectional area of the openings 7 of the tube plate 4 is the first section 2 in the course of the air communicated with the smaller compartment 10 less sums ARSL 00

about

area of similar holes 7 of the tube plate 4 of section 3. The air heater is equipped with connecting inter-passage ducts 12 and a discharge duct 13. In addition, it is equipped with a bypass gas pipeline 14 connected by its inlet section to the duct 1 before the last section along the air path section 4, and the output one - to a smaller compartment 10.

The air heater works as follows.

Through the air duct 8, air is supplied to the annulus of section 2, the pipe is washed, the air is heated, through inter-ducting ducts 12, it enters first into section 3, and then into section 4, from where, finally heated, is withdrawn by duct 13. Gases enter into pipes of section 4, give up part of the heat and exit into the opening 5. Then also section 3 passes, opening 5 between sections 3 and 2, section 2 and leaving the air heater.

Due to the presence of the partition 9 and the specified ratio of the areas of the openings of the tube plates 6 facing the opening 5 between sections 2 and 3, the flow of gases through the outermost rows of pipes of sections 2 on the side of the duct 8 is higher than the average consumption per pipe . Therefore, the gases in these rows of pipes are cooled less than in the case of a uniform distribution of gas flow through the pipes. As a result, in the corrosion-hazardous zone (in the first downstream pipes of section 2) the temperatures of the pipe walls are higher than in known air preheaters at the same inlet air temperatures. Increasing the temperature of the metal in the coldest area of the air heater reduces the rate of low-temperature corrosion. The effect of protection against corrosion is enhanced by the fact that some of the gases, not passing through the pipes of section 3 and 4, are supplied

0 5

0 Q

five

directly from the inlet of the air preheater to the opening 5 between sections 2 and 3. This increases the flow of gases through the first pipes of section 2 through the air. In addition, the temperature of the gases in section 2 rises, as the gases coming into it from the pipes of section 3 are mixed uncooled gases from the entrance to the air heater. As a result, the effect of increasing metal temperatures in the corrosive zone of the air preheater is enhanced.

Claims (2)

1. An air heater containing a flue with sections sequentially installed therein with the formation of gas openings between their interconverted tube plates, with openings for heat exchange tubes of sections, to the first of which a supply air duct is laterally connected to the side, characterized in that, in order to increase efficiency by protecting against sulfuric acid corrosion, it is additionally equipped with at least one partition installed in the last direction smoke from the gas opening and adjoining sections adjacent to the tube plates with the formation of two unequal in volume compartments, the smaller of which is located on the side of the supply duct, while the total cross-sectional area of the holes f The slab of the first section along the air path, communicated with the smaller compartment in volume, is smaller than the total area of similar openings of the subsequent section. 2. An air preheater according to claim 1, characterized in that it is provided with an overflow gas pipeline,  connected by its inlet section to the flue before the last section along the air, and the output section to the smaller compartment 2U3bl dozdk