RU2527631C2 - Circuit for chain curtain of rotary burning kiln (versions) - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to chains of heat exchange kilns. The chain for a chain curtain of the rotary burning kiln comprises interconnected links. The links are configured so that the cross section of the body of each chain link consists of a rectangle, which larger side at the section of the link body along the central longitudinal axis is parallel to this central longitudinal axis and adjacent to its smaller side in the place of contact of links of the circular segment defining an inner contact surface of the link. And the radius of the arc of circumference of the circular segment, defining the inner contact surface of the link, is equal to the radius of the circumference arc that defines the profile of the opening of each of the previous link of the chain and each subsequent chain link at the place of contact. According to the second embodiment of the invention the chain comprises interconnected links formed so that the cross section of the body of each chain link consists of a rectangle, which larger side at the section of the link body along the central longitudinal axis of the chain is parallel to this central longitudinal axis and two circular segments adjacent to its small sides. One of the segments defines an outer end surface of the link and is a semi-circle with a diameter equal to the small side of the rectangle. Another segment defines the inner contact surface of the link. At that the radius of the arc of circumference of the circular segment defining an inner contact surface of the link, is equal to the radius of the arc of circumference that defines the profile of opening of each previous link of the chain and each subsequent link of the chain at the place of contact.

EFFECT: increase in heat conducting properties of the chain is achieved.

4 cl, 5 dwg

Description

The invention relates to the field of heat exchange devices, in particular, to chain curtains for rotary kilns of the building materials industry.

The most common structural elements used in the manufacture of chain heat exchangers are either round-link or oval chains made of a bar of cylindrical shape. In the furnaces of the building materials industry, at present, mainly round-link chains are used, both welded and cast (Valberg G.S., Griner I.K., Mefodovsky V.Ya. Intensification of cement production. - M.: Stroyizdat, 1971, p. 145)

The disadvantages of the known chain are:

- low amount of heat transferred to the material due to the small surface of the chain;

- the difficulty of heating in the gas stream of the chain links due to the low thermal conductivity of the chain links;

- large wear of the chain links in the places of their mating due to the small contact area.

Closest to the claimed technical solution is the chain for a chain curtain of a rotary kiln known according to the patent for utility model RU 116589, consisting of interconnected links, the outer surface of each link being made with ribbing, and the inner surface of each link made curved with a radius equal to half the chain pitch or the radius of the curvilinear part of the chain pitch, while the ribbing is made in the form of a broken line in the cross section of the link, the segments of which are the chords of the ellipse, whose axis is the longitudinal axis of the cross section of the link.

The disadvantages of the known chain are:

- low resistance to entanglement due to the presence of each chain link of the side surfaces of complex shape, which will complicate the process of assembly of the links when lowering the chain down the furnace (entering it in the material) while working in a chain curtain of a rotary (rotary) furnace and leads to the possibility of overwhelming one chain another chain, jamming or jamming of the links with the formation of nodes in contact with other chains.

The technical result of the claimed invention is the elimination of these disadvantages, namely:

- increase the surface of the heat transfer circuit;

- increase the thermal conductivity of each link in the chain;

- increase resistance to entanglement;

- reduced wear of the chain links at their contact points.

According to the first embodiment of the invention, the technical result is achieved in that the chain for the chain curtain of the rotary kiln, containing interconnected links, is made in such a way that the cross section of the body of each chain link consists of a rectangle, the larger side of which in the longitudinal section of the chain is parallel to its central the longitudinal axis, and adjacent to its small side at the contact point of the links of the circular segment that defines the internal contact surface of the link.

The radius of the circular arc of the circular segment that defines the internal contact surface of the link is equal to the radius of the circular arc that defines the hole profile of each previous chain link and each subsequent chain link at the point of contact.

According to a second embodiment of the invention, the technical result is achieved in that the chain for a chain curtain of a rotary kiln, containing interconnected links, is made in such a way that the cross section of the body of each chain link consists of a rectangle, the larger side of which in parallel to the longitudinal section of the chain is parallel to its central longitudinal axis, and two adjacent to its small sides of the circular segments, one of which defines the outer end surface of the link and is a semicircle with a diameter, equal to the small side of the rectangle, and the other defines the inner contact surface of the link.

The radius of the circular arc of the circular segment that defines the internal contact surface of the link is equal to the radius of the circular arc that defines the hole profile of each previous chain link and each subsequent chain link at the point of contact.

According to a first embodiment of the invention, the cross-section of the body of each chain link of a rectangle, the large side of which in a longitudinal section of the chain is parallel to its central longitudinal axis, and adjacent to its small side at the contact point of the links of the circular segment defining the internal contact surface of the link, allows to increase the heat-conducting properties each link of the chain and increase the surface area of each link, i.e. increase the heat exchange surface of the chain, which leads to an increase in the total amount of heat transferred to the material, and also significantly increase the chain resistance to entanglement.

If the cross-sectional areas of the bodies of the washer and the torus are equal, the surface area of the washer having the cross-sectional profile of the body in the form of a rectangle is significantly larger than the surface area of the torus having the cross-sectional profile of the body in the form of a circle.

During the operation of the chain curtains, the surface of the chain is either constantly covered with material directly in contact with the gases, or works as a regenerator, absorbing heat from the gases and transferring it to the material. Thus, chains are involved in two types of heat transfer - convection from gases to material adhering to the chains and during regenerative heat transfer between gases, chains and material.

It can be assumed that under steady-state conditions, heat is perceived by the chains from gases due to convective heat transfer, and then it completely passes into the material.

The process of heat transfer due to the interaction of heat carriers during the movement of flows, when more heated particles, in contact with less heated ones, transfer heat to them, is a convective heat transfer. The rate of heat transfer by convection is formulated by Newton's law:

where α is the heat transfer coefficient; F is the heat transfer surface; Δt is the temperature difference between a more heated body and a less heated body (the so-called temperature head); τ is the duration of the heat transfer time.

From formula (1) it follows that the amount of transferred heat Q is directly proportional to the heat transfer surface F.

The execution in the cross section of the body of each chain link adjacent to the small side of the rectangle of a circular segment defining the inner contact surface of the link allows you to further increase the surface area of the chain link, since the length of the arc is always greater than the length of the chord that tightens it.

When considering the process of heat transfer within one body (thermal conductivity of a chain link), when the heat passes from more heated parts of the body to less heated ones. The rate of heat transfer due to thermal conductivity (conduction) is formulated by the Fourier law:

where λ is the coefficient of thermal conductivity; s is the heat transfer path length (chain link thickness).

The ratio λ / s from formula (2) characterizes the thermal conductivity of the chain link. By reducing the thickness of the chain link, it becomes possible to more quickly warm the chain links through the thickness and accumulate more heat in the central part of the link. Therefore, according to the claimed invention, the cross section of the body of each chain link in the form of a rectangle makes it possible to better warm the chain links in the gas stream in thickness and give more fully the accumulated heat to the material, as a result of which the heat transfer between the chain links and the material is intensified, as well as between the gas stream and the links chains, leading to increased furnace productivity.

Currently, cement plants use two main types of chain curtains for rotary kilns: chain curtains, in which each chain is suspended only at one end (freely hanging), and chain curtains, in which chains are hung with garlands, i.e. for both ends. (Yu.I. Deshko, M.B.Kreimer, T.A. Ogarkova. Adjustment and heat engineering tests of rotary kilns in cement plants. Second edition, revised and supplemented. Publishing house of construction literature. Moscow, 1966, p. 28-29 )

The chain consists of mutually movable links connected to each other in series, therefore, when the furnace rotates, there is a possibility of their tangling with each other with the formation of nodes. This situation usually occurs when lowering the chains down the rotary (rotary) furnace during its rotation.

The constructive solution of the claimed invention leads to a chain with a very high entanglement resistance, since the chain contains only identical links with flat side surfaces, allowing one chain link to slide along another link along the longitudinal axis of the chain when lowering the chain down the furnace (into the material) and thereby gather together all the links in the chain. The ability of the chain links to pile together can significantly reduce the risk of one chain being overwhelmed by another chain, jamming or jamming of the links with the formation of nodes in contact with other chains.

According to a second embodiment of the invention, the execution in cross section of each chain link of a rectangle, the large side of which in a longitudinal section of the chain is parallel to its central longitudinal axis, and the circular segments adjacent to its small sides, one of which defines the outer end surface of the link and is a semicircle with a diameter, equal to the small side of the rectangle, and the other determines the internal contact surface of the link, allows you to increase the heat-conducting properties of each link of the chain, get m the maximum possible surface of each chain link, since the length of the arc is always greater than the length of the chord pulling it together, as well as to obtain a streamlined external surface of each chain link in order to exclude any linking of the links with sharp edges, which leads to tangling of the links with the formation of nodes. The maximum length of the circular arc, which determines the outer end surface of the link, is achieved provided that it is an arc of a semicircle with a diameter equal to the small side of the rectangle.

According to the first and second embodiment of the invention, the execution in cross section of the body of each chain link of the circular arc of a circular segment defining the inner contact surface of the link, with a radius equal to the radius of the circular arc defining the hole profile of each previous chain link and each subsequent chain link at the contact point, get the maximum possible contact area of the links of the claimed chain.

The maximum possible contact surface area of each chain link minimizes their wear at the contact point due to reduced load on the inner surface of the link.

The chain wear is simultaneously affected by many different factors leading to premature failure of the chain due to the intensive development of corrosion processes and wear of working surfaces, which are very difficult to deal with. Therefore, one of the directions for increasing the operability of chains for chain curtains of a rotary kiln operating under conditions of corrosion and abrasive wear is the rational design of a chain link of such shape and dimensions that would ensure the appearance on the working surfaces of minimal mechanical stresses during operation and would extend allowable wear period.

Corrosion-mechanical wear occurs as a result of mechanical stresses, accompanied by chemical interaction of the metal with the medium (high-temperature oxidation of the metal by gases).

The conjugation conditions, the nature of the contact of the inner end surfaces of the chain links have a great influence on the wear rate.

The hole profile of a chain link determines the shape of this link, for example round or oval (these shapes are the most common). For a round link, the hole profile is completely curved, and for an oval link, the hole profile has both straight and curved sections. Curved sections of the hole profile determine the shape of the contact surface of the link.

On the surface of the links when the chain is heated, a protective oxide film (scale) is formed, consisting of partially interlinked layers of corrosion products that occurs when the material is heated, which inhibits the corrosion process.

Abrasive wear leads to abrasion of the protective oxide film, and violation of the continuity of the oxide coating of the chain material leads to an acceleration of the rate of oxidation.

The essence of the invention is illustrated by drawings:

Figure 1 shows a General view of the chain with oval and round links;

Figure 2 shows a longitudinal section of a three-link chain segment with oval-shaped links;

Figure 3 shows a longitudinal section of a three-link chain segment with round links;

4 shows a cross section of the body of each chain link according to the first embodiment of the invention;

5 shows a cross section of the body of each chain link according to a second embodiment of the invention.

The chain for the chain curtain of a rotary kiln consists of mutually movable links 1 of any geometric shape, for example, an oval or a circle, connected to each other in series.

According to the first embodiment of the claimed invention, the cross section of the body of each chain link 1 consists of a rectangle 2, the large side 3 of which in the longitudinal section of the chain is parallel to its central longitudinal axis 4, and adjacent to its small side 5 at the contact point of 12 links 1 of the circular segment 6 defining inner contact surface 7 of the link.

According to a second embodiment of the claimed invention, the cross section of the body of each chain link 1 consists of a rectangle 2, the larger side 3 of which in the longitudinal section of the chain is parallel to its central longitudinal axis 4, and two circular segments adjacent to its small sides 5. The circular segment 9 defining the outer end surface 8 of the link 1 is a semicircle with a diameter equal to the small side 5 of the rectangle 2. Another circular segment 6 defines the inner contact surface 7 of the link 1.

According to the first and second variants of the invention, the radius R1 of the circular arc of the circular segment 6 defining the inner contact surface 7 of the link 1 is equal to the radius R2 of the circular arc defining the profile 10 of the hole 11 of each previous chain link 1 and each subsequent chain link 1 at the contact point 12.

The chain for the chain curtain of a rotary kiln is used as follows.

Chains are used as an internal heat exchanger. During the rotation of the furnace, some of the chains are in the gas stream, and the rest is immersed in the material. At the beginning of the chain zone, sludge adheres to chains in the gas stream. Chains in this part of the zone increase the contact surface of the sludge with hot gases, and as a result, heat transfer is improved. When the sludge dries, it loses its plasticity and no longer sticks to the chain. From this moment, the heat is transferred to the material by the chains according to the regenerative principle: the chains are heated in the gas stream and, when immersed in the material, transfer heat to it. Along with this, the material receives heat from gases and lining.

The optimal design of the chains should ensure efficient heat transfer, be resistant to high temperatures, have a high margin of safety, maintain the particle size distribution of the material and not increase the dust content of the gas stream.

Claims (4)

1. A chain for a chain curtain of a rotary kiln, containing interconnected links, characterized in that the cross section of the body of each chain link consists of a rectangle, the greater side of which when the section of the link body along the central longitudinal axis of the chain is parallel to this central longitudinal axis, and adjacent to its small side at the contact point of the links of the circular segment that defines the internal contact surface of the link. 2. The chain for the chain curtain of a rotary kiln according to claim 1, characterized in that the radius of the arc of the circle of the circular segment defining the inner contact surface of the link is equal to the radius of the arc of the circle defining the profile of the hole of each previous chain link and each subsequent chain link at the contact point . 3. A chain for a chain curtain of a rotary kiln, containing interconnected links, characterized in that the cross section of the body of each chain link consists of a rectangle, the greater side of which when the section of the link body along the central longitudinal axis of the chain is parallel to this central longitudinal axis, and two adjacent to its small sides are the circular segments, one of which defines the outer end surface of the link and is a semicircle with a diameter having a length equal to the length of the small side of the rectangle lnika, and the other defines the inner contact surface of the link. 4. The chain for the chain curtain of a rotary kiln according to claim 3, characterized in that the radius of the arc of the circle of the circular segment defining the inner contact surface of the link is equal to the radius of the arc of the circle that defines the hole profile of each previous chain link and each subsequent chain link at the contact point .

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