SU757827A1 - Pant for cooling drums of recuperative refrigerator - Google Patents

Description

The invention relates to a technique for cooling the housing of a rotary kiln and can be used to cool the discharge end of a rotary kiln equipped with a recuperator cooler.

A device for cooling a tubular ies reels ^5, comprising a pipeline system, wound on a furnace body [1].

The disadvantages of this device are its low efficiency and complexity of installation.

It is also known a device for cooling the furnace body, which is a system of heat exchange pipes with cooling fluid circulating inside them, located between the body and the furnace shell. Heat exchange tubes are installed section by section along the length of the housing on detachable support elements concentrically covering the housing with a gap. To improve the efficiency of heat removal, inclined reflective screens (2) are installed over each section pipe or on a pipe.

The disadvantages of the device should be attributed. its low efficiency when cooling the bodies of the recuperator cooler drums

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due to the fact that the heat exchange tubes located around the circumference of the support element, have an insufficiently developed heat exchange surface, as well as the complexity of maintenance.

The aim of the invention is to increase the intensity of heat removal and ease of maintenance.

This is achieved by the fact that the heat supplying pipes are fixed on the lateral surfaces of the supporting elements along the path of the broken line and are equipped with rotary heat-conducting plates.

FIG. 1 shows an installation for cooling drums of a recuperator cooler; in fig. 2 shows section A-A in FIG. one; in fig. 3, node I in FIG. 2

The unit for cooling a recuperator cooler has heat exchange tubes 1, section by section mounted on detachable arcuate supporting elements 2. Supporting elements 2 are installed along the paths of the broken line 3 along the length of the recuperator cooler, concentrically covering the surface of the drum 757827

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new 4. With their own support 5, the arcuate supporting elements 2 are connected by a locking joint 6. On the heat-exchange tubes -1, rotary plates 7 are fixed.

To cool the discharge pipes 8 of the multi-drum cooler, the arcuate element 2, last from the discharge end, is connected to the annular support element 9 mounted on the furnace body 10 by means of exchange pipes 11 with an annular distance of at least one pipe diameter, on the surface from the side facing: to the discharge nozzles 8, screens 12 are installed.

Around the furnace casing 10 is installed duct 13 with nozzles 14, aimed at the discharge nozzles 8. The duct 13 is connected to the fan 15.

The installation works as follows.

The heat radiated by the upper part of the drums 4 of the refrigerator is captured by the surface of the heat exchange tubes 1, and the heat radiated ι 'by the side lower part of the drums 4 is swivel plates 7.

Placed on the heat exchange tubes 1 with the possibility of rotation around the tubes of the plate 7, falling into the gaps between the drums, swinging in the form of a pendulum, take heat from the bottom of the hottest part of the refrigerator by convection and radiation and give this heat to heat exchange tubes. At the next turn, the plates touch the hot surface of the drums and give off the heat to the pipes as heat-conducting elements.

In order to cool the unloading nozzles 8 of the refrigerator and to intensify the heat removal, heat is blown from the heat exchangers drums (alternately to the discharge nozzles 8 and to the thermal layers 7); for this, the nozzles 14 on the air duct 13 are installed opposite the discharge parts; nozzles 8 refrigerators. During the rotation of the hollow, air flows through the nozzles 14 periodically blow the nozzles 8 and the plates 7, blowing drums, intensively extract heat from them, turbulent the heat flow and transfer heat more intensely to the plates 7 and the pipe part of the heat exchangers.

The charge is made using a fan 15, which takes the air outside. In necessary cases, the air duct system, 13 can work with recirculation, taking in the air, which previously transferred heat to the heat exchange tubes 1. Recirculation is carried out using suction nozzles. In areas with low design outdoor temperatures below. (-30 ° C) installation may be enclosed.

As shown by preliminary calculation data, the fixing of heat exchange tubes in arcuate support elements along the path of the broken line with the installation of heat removal elements on the pipes, the heat exchange surface can be increased compared to the known device not less than 1.5 times.

The arcuate supporting elements can be dismantled together with heat exchange tubes (sections) due to the fact that the pipes are attached directly to the supporting elements and are connected with their own support by means of a lock joint.

Claims (1)

Claim Installation for cooling drums of a recuperator cooler, containing a system of heat removal pipes with circulating fluid, installed section by section along the length of the refrigerator on detachable support elements, characterized in that, in order to increase the intensity of heat removal and facilitate maintenance of the refrigerator, heat sink pipes are fixed on the lateral surfaces of the support elements along the trajectory broken line and equipped with rotary heat-conducting plates ..