SU1726943A1 - Rotary furnace cell heat exchanger - Google Patents

Abstract

The essence of the invention: the heat exchanger contains cells 4, formed by longitudinal radial partitions with inclined cuts at the ends and hinged valves 5, mounted on the discharge ends of the cells 4 3 or

Description

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The invention relates to a heat exchange technique in rotary kilns and can be used in industrial building materials.

The aim of the invention is to increase the efficiency of heat exchange and reduce dusting.

FIG. 1 shows a longitudinal section of a furnace with heat exchangers in various versions; FIGS. 2, 3 are, respectively, cuts A-A and B-B in FIG. one.

Inside the furnace 1 there are longitudinal radial partitions 2 with inclined cuts 3 at the ends, forming cells A, covered with valves 5 on hinges 6.

In another embodiment, the longitudinal partitions 7 can be arranged along an isosceles triangle or polygon and fixed on radial partitions 8 with inclined sections 9 at the ends blocked by valves 10 on hinges 11. In this case, the cells 12 are formed by partitions 7, 8, and in principle, partitions together 7, 8 can be one curvilinear. The number of partitions 2, 7 is taken not less than three, and their length is determined by thermal calculation. The angle of inclination of the cuts 3, 9 to the axis of the furnace is chosen, in view of good pressing of the valves 5, 10 to these cuts due to its weight (so that the material does not spill out). The size of the partitions 8 along the radius is taken not less than the height of the layer of material in the furnace 1 so that it does not fall on the partitions 7 from the axis of the furnace 1 to eliminate dusting when

load. The dimensions and configurations of the valves 5, 10 are determined from the condition that no material is poured into the gas flow from the partitions 2, 7, 8 (i.e., the height of the valves is not less than the thickness of the material layer on them at a given angular position). The remaining dimensions are determined constructively and tested for strength and performance.

The heat exchanger operates as follows.

Owing to the rotation and inclination of the furnace, the material enters the cells 4, 12 and moves along them with a rise and pour. While shedding it into the gas stream does not occur, since in the upper position of the cells 4, 12 valves 5, 10 under the action of its weight adjacent to the partitions 2, 7, 8, forming a threshold.

The use of a heat exchanger will increase the efficiency of heat exchange due to the exclusion of dusting in various modes, since the rotary valves will not stick (an inclined section is formed in the prototype instead of a threshold). This will lead to fuel savings.

Claims (1)

Invention Formula A rotary kiln cell heat exchanger containing cells formed by radial longitudinal partitions with inclined cuts at the discharge ends, characterized in that, in order to increase the heat exchange efficiency and reduce dusting, it is equipped with hinged valves installed at the discharge ends of the cells. Aa Bb