RU1815508C - Air heater - Google Patents

Abstract

Use: for heating air. SUMMARY OF THE INVENTION: In the air box 1, tubular sections 2 are arranged sequentially along the air flow, connected by gas bypass ducts 3 to the inlet flow-through and outlet countercurrent stages 4 and 5. The bypass ducts 3 to the extreme outlet sections 2 of steps 4 and 5 are made autonomous from each other. The implementation of the inlet stage 4 straight-through increases the protection of pipes from sulfuric acid corrosion by increasing the temperature of their walls. 2 s.p. f-ly, 1 ill.

Description

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The invention relates to the field of heat transfer engineering and can be used in heating plants burning erosoderzhashchego fuel.

The purpose of the invention is to increase the effectiveness of corrosion protection.

The drawing shows a diagram of an air heater.

The air heater comprises tubular sections arranged sequentially along the air in the air duct 1, interconnected by gas bypass ducts 3 into the inlet flow and outlet countercurrent stages A and 5. The supply ducts 6 are connected to the extreme opposite sections 2 of steps 4 and 5, A flue gas duct 7 is connected to the extreme adjacent sections 2 of stages 4 and 5. The bypass ducts to the extreme adjacent sections of both stages are made autonomous from each other. Steps 4 and 5 can be equipped with each self-contained exhaust gas duct 7. The bypass ducts 3 are provided with protective cases 8 installed outside them.

The air heater operates as follows.

In the tubular sections 2, located in one air duct 1, the gases enter two streams through two supply ducts 6 connected to the inlet extreme sections 2 and pass through the sections 2 towards each other, passing sequentially from one section 2 to another through the bypass ducts 3 to the outlet sections 2, to which two exhaust gas ducts are connected 7. The air passes through the air heater in a single flow through the duct 1, after the flushing: all sections 2 are final.

The combination of the oncoming movement of two gas flows and the through movement of air forms two stages 4 and 5 of the air heater (from the inlet to the outlet ducts) - inlet, where gases and air move in the same general direction (straight-through), and outlet, where gases and air move in a mutually opposite general direction (countercurrent). Each of stages 4 and 5 forms a multi-way air heater with cross-movement of air and gases in sections 2. Cold air, entering the inlet section 2 of the stage, washes its pipes into which hot gas is supplied. Since the inlet stage 4 is multi-pass, in its inlet section 2, the hot gas is cooled at approximately half the flow rate little while maintaining a high temperature. Therefore, when hot gas and cold air are combined, the pipes of the inlet section 3 have a high temperature - above the point

dew. The next section 2 of stage 4, where the gases are already somewhat cooled, is washed by the air heated in the first section 2, so that here the wall temperature is high. So

in all sections 2 of step 4, a similar high temperature of the wall can be maintained to ensure its corrosion resistance.

The drawing shows a real diagram

0 an air heater for a tube furnace of oil refining, where the exhaust gases from it have 400 ° C. In a six-way inlet stage 4 at an inlet air temperature of 30 ° C in the inlet section 2 is provided

5, the wall temperature is at a level of 150 ° C, and approximately the same temperature is provided in the outlet section 2, where the cooling of the gases to 200 ° C ends.

Air comes to output stage 5

0 with a temperature above the dew point and over its entire heating surface, the pipes have a wall temperature even above the dew point. With a multi-way (in this case, four-way) output stage 5, the temperature head in it is extremely high and the air heats up to the output temperature, cooling the second half of the gases. High thermal efficiency is ensured by the ability to operate an air preheater of 0 l without preheating the air, which increases the temperature head. Protective cases 8 ensure that the bypass ducts 3 are kept at a high temperature and are not exposed to outside air.

The perfect flushing of all sections 2 with air in a single duct 1 provides maximum utilization of the heating surface.

0 Formulas a-iso brete n-i

Claims (3)

1. Air heater; containing placed sequentially along the cart. . spirit in the air box tubular sections, interconnected by gas by junction boxes into the inlet flow and outlet countercurrent stages, and connected to the extreme opposite sections of the steps. inlet ducts, and an outlet duct is connected to the extreme adjacent sections of the steps, characterized in that, with a chain for improving corrosion protection, bypass ducts to said extreme adjacent sections of both 5 steps are autonomous from each other: 2. An air heater according to claim 1, wherein the steps are provided with each autonomous exhaust duct. 51815508 6 3. The air heater according to claim 1, with a t and a, is equipped with installed outside them, with the exception that the bypass boxes are shielded and cases.