SU737751A1 - Recuperation cooler - Google Patents

Description

(54) RECOVERY REFRIGERATOR

one

The invention relates to devices for cooling clinker, chamotte, magnesite and other bulk materials in rotary kilns.

Recuperator refrigerators are known; they are hardened behind the kiln firing zone, and the tubular chillers 1 on the periphery of its discharge end.

Closest to the invention to the technical essence and the achieved result is a recuperator cooler for cooling bulk material, mainly cement clinker, containing recuperators located around the furnace body, each of which is made of drums located one above the other and interconnected by a transitional branch pipe, each bottom drum is connected to the furnace body by an inlet chute 2.

The drawbacks of such coolers are the low degree of cooling of the clinker, as well as the considerable abrasive wear of the recuperator tubes and inlet flows.

The purpose of the invention is to intensify the cooling of the material.

This goal is achieved by the fact that in a recuperator cooler for cooling bulk material, mainly cement clinker, containing recuperators located around the furnace body, each of which is made of drums located one above the other and interconnected by a transition nozzle, and each lower drum is connected to the body furnace input chute, each upper drum is equipped with input chute,

10a, each lower drum is made open from the end, with the inlet chute of the subsequent drum material moving along the furnace body relative to the inlet chute of the previous drum towards the unloading part of the heat exchangers. FIG. 1 is a schematic representation of a recuperator cooler, a longitudinal section in FIG. 2 - the same cross section.

The refrigerator contains recuperators placed around the furnace body 1, each of

20 of which are made of drums 2 and 3 located around the elongated portion of the furnace 1 for cooling the clinker. Drums 2 and 3 are located one above the other with an offset along the furnace body 1 in the direction

recuperators unloading part and have independent entrance for cold air and exit to furnace 1 for heated, and are interconnected by transition pipe 4. Inside drums 2 and 3 can be equipped with pouring devices, lined with refractory bricks and have devices preventing the transition of clinker from drum 3 into the oven 1.

Each bar & ban 2 and 3 is made with open ends 5 and 6, through which cold air flows, with inlet chutes 7 and 8, through which heated air enters furnace 1..

The input chute 7 is located closer to the recoil head 9 of the rotary kiln 1.

The refrigerator works as follows.

Hot clinker from furnace 1 through the inlet chute 8 enters the drum 2, is initially cooled, and then through the transition pipe 4 enters the drum 3, where its final cooling takes place. With an increase in the productivity of the furnace 1, the clinker stream will flow into the chutes 7 and 8 of all drums 2 and 3. The cooling air is sucked into the recuperator drums 2 and 3 through the ends 5 and 6, heated by the heat from the hot clinker and metal of the recuperator drums 2 and 3 and then through the inlet chute 7 and 8 enters the furnace 1 for burning fuel. The air sucked through the inlet chute 8 is affected by a stronger discharge than the air passing through the chute 7. Accordingly, more air flows through the first recuperator drum 2 and passes through it. Coolant together with clinker is cooled more intensely. During the second operation of the furnace 1, the second drum 3 with respect to the first 2 is less air, but if it is necessary to force cooling, additional air can be sucked through for other needs, for example, to dry the coal, or to release it into the atmosphere, as sio adopted on the grate coolers.

In h; because the chute 7 of the drum 3 is under a higher vacuum than the head 9 of the furnace 1, the absolute value of the leakage between the head 9 and the furnace 1 decreases.

The introduction of the proposed recuperator cooler increases the cooling rate of clinker and reduces the thermal load on the recuperators and especially the inlet chutes 7 and 8, since the number of inlet chambers in the described device is two to three times greater than that of existing structures. Therefore, if necessary, crushing the clinker stream in the refrigerator into two or three streams is achieved, the development of the surface of the cooling material,

a general increase in cooling air, a decrease in heat loads on cooler elements, and a general decrease in the aerodynamic resistance of the recuperator cooler — all this improves the cooling rate of the clinker and refrigerator structures, especially the inlet leakages 7 and 8, and the hot zones of the recuperators.

The shape of drums 2, 3 can be elliptical or rectangular, which makes the entire recuperative refrigerator relatively

compact. .

Claims (2)

1. Author's certificate of the USSR 533808, cl. F 27 B 7/38, 1975. 2. USSR author's certificate 480896, -kl.R 27 B 7/38, 1972. J