SU964356A1 - Air heater - Google Patents

Description

(54) AIR HEATER

I

i The invention relates to a power system and can be used on industrial furnaces in metallurgy, mechanical engineering and in the building materials industry.

A known air heater comprising a central flue, around which air chambers are installed one above the other, connected in series with each other 1.

However, the use of a single air jet does not allow for the organization of an effective jet heat exchange in each element of a known air heater.

Also known is an air preheater containing interconnected and adjacent to the duct air chambers, each of which is connected to its supply manifold through a perforated partition installed along the working wall of the chamber at a predetermined distance from it 21.

The disadvantages of this air heater are local overheating and thermal stresses of the heat exchange surface, which reduces the intensity of heat exchange.

The purpose of the invention is to intensify heat transfer.

This goal is achieved by the fact that the perforation holes in the partitions are placed in a checkerboard pattern, with the distance by the partition and the working wall of the chamber and schag between the said holes exceeds the diameter of the latter by 4-6 and i 4-8 times, respectively.

FIG. 1 shows an air heater,

10 longitudinal section; in fig. 2 shows section A-A in FIG. one.

The air heater contains air chambers 2 adjacent to the gas duct 1, each of which is connected to its own

15 to the collector 3 through a perforated partition 4, installed ldole working wall

5 chambers 2 at a given distance from it. The holes 6 perforations in the partitions 4 are arranged in a checkerboard pattern, with the distance between the partition 4 and the working wall 5 of the chamber 2 and the pitch between the holes

Claims (2)

6 exceed the diameter of the latter, respectively, 4-6 and 4-8 times. The chambers 2 follow 396 but are connected between themselves by a duct 7, to which they are connected through gaps 8 between the partition 4 and their side walls 9. The air heater works as follows. The cold air through the supply manifold 3 is supplied successively to the air chambers 2, where it passes through the perforated partition 4, flows over the working wall 5, warms up and, moving along the latter, passes through the gaps 8 and the duct 7 to the supply manifold 3 of the next chamber . The air jets expand as they flow out of the holes of the perforated partition 4. When the perforated partition is positioned from the working wall at a distance of less than 4 diameters of the perforation holes, the area of the blowing of the working wall decreases due to the fact that the diameter of the air jet becomes comparable with the diameter of these holes. When the perforated partition is positioned from the working wall at a distance of more than 6 diameters of the holes, the perforation {the blowing area of the working wall increases, but the intensity of the heat exchange between the jet and the blown surface decreases, as the blowing speed decreases. With a relative bar between the holes in the perforation partition smaller than 4 of their diameter, the uniform temperature of the working wall improves, but the intensity of heat transfer is reduced due to the hydrodynamic interaction of the jets. With the values of: the relative pitch between the holes larger than 8 their diameters, the unevenness of the temperature of the working wall increases, which causes local overheating and thermal stress. In addition, the heat transfer coefficient from the heat exchange surface to the heated air decreases, as the area of the working wall decreases. Thus, in the proposed heater, the heat transfer coefficient from the heat exchange surface to the heated air is increased and the unevenness of the temperature field of the working wall is reduced. An air preheater comprising interconnected and adjacent to the gas duct air chambers, each of which is connected to its supply manifold through a perforated partition installed along the working wall of the chamber at a predetermined distance from it, characterized in that it has a heat exchange circuit, an opening perforations in the partitions are placed in a staggered order: moreover, the distances between the partitions exceed the diameter of the latter by 4-6 and 4-8 times, respectively. Sources of information taken into account in the examination 1.B.P. B. Recuperators for industrial furnaces. M., Metallurgists, 1979, p. 173. fig. 87 .. 2. USSR author's certificate in application N «2790716 / 24-06, cl. 23 L 15/04, 1979. ffepf / tf fg Xo / toff t / - Ft / gf I i / it I l./