RU2476796C2 - Rotating furnace for slurry roasting for preparation of cement clinker - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: furnace includes housing, dual drive, slurry feed pipe for preparation of cement clinker, head for supply of fuel and air to the furnace, water cooling plant and central lubrication system. Housing is installed horizontally and consists of three or more strips of trapezoidal shape with different sizes as to width with their increase as to the housing length from loading to unloading with formation of annular multi-sided surfaces from equilateral and oblique triangles, which are alternatively located with one another with their lateral faces. Strips are twisted in longitudinal direction relative to their longitudinal axes and bent on conical mandrel in transverse direction along screw line with formation of three or more screw grooves and screw lines of the main and opposite direction with a variable pitch along the housing perimetre, which is increased as to the housing length from loading to unloading.

EFFECT: enlarging technological capabilities, increasing heat exchange intensity and simplifying the operation.

6 dwg

Description

The invention relates to a technique for firing cement clinker and can be used in the cement industry.

Known rotary kiln for firing bulk material (AS No. 1322051, CL 27 B 7/16, 01/07/86), containing heat exchangers and a screw insert located in the working space of the furnace and equipped with a helical ring and brackets, the plane of which is directed along the generatrix of the furnace, and on one side of the bracket a screw insert is fixed, and on the other a screw-shaped ring, and the screw-shaped ring is fixed at an angle to the radial direction of the furnace and the screw insert is fixed in front of the heat exchangers, counting by at the gas movement.

A disadvantage of the known device is the lack of heat transfer and limited technological capabilities.

Known rotary kiln for the preparation of cement clinker (Komar A.G. / Building materials and products // A.G. Komar / textbook. Higher school, 1988, p.147-148), containing a cylindrical body, resting through the bandages on the support rollers , a double drive, consisting of two electric motors and two gears, two gears, one crown wheel, a feed pipe for feeding sludge for firing cement clinker, a head through which fuel and air are fed into the furnace, a chain filter heater, heat exchangers, grates per flicker freezer. The housing has a slope of 3.5-4% and is equipped with a water cooling unit and a central lubrication system.

A disadvantage of the known rotary kiln for firing cement clinker is the need to create a slope for transporting slurry for firing cement clinker from loading to unloading, due to the complexity of its operation, insufficient heat transfer rate and limited technological capabilities.

The technical solution to the problem is the expansion of technological capabilities, simplification of operation due to the lack of slope and the intensification of heat transfer.

The technical solution is achieved by the fact that in a rotary kiln for sludge burning for the preparation of cement clinker, comprising a housing supported through shafts on support rollers, a double drive consisting of two electric motors and two gearboxes, two gears, one crown wheel, a feed pipe for feeding sludge for the preparation of cement clinker, a head for supplying fuel and air to the furnace, a chain filter heater, heat exchangers, a grate-and-overflow cooler, a water-cooling unit ia and the central lubrication system, the casing is installed horizontally and made of three or more trapezoidal strips with different sizes in width, increasing them along the length of the casing from loading to unloading, on which alternately from their opposite sides at an angle of 60 ° to the axis of the strips by milling or pressure treatment of the zone of weakened section in the form of cuts with beveled walls to form circumferential polyhedral surfaces along the perimeter of the body from alternately located with each other their sides sides of equilateral and isosceles triangles, while the strips are twisted in the longitudinal direction relative to their longitudinal axes and bent in the transverse direction along a helical line on a conical mandrel with the formation of three or more helical grooves and helical lines of the main and opposite directions with a variable increasing pitch along the perimeter of the body helical lines from loading to unloading.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge about the inventive step of the proposed design of a rotary kiln for firing cement clinker.

The novelty lies in the fact that such a structural design of the casing allows for axial movement of particles of sludge for firing for the preparation of cement clinker from loading to unloading with a horizontal axis of rotation of the casing, which simplifies the operation of the rotary kiln due to the lack of slope of the rotary kiln.

The novelty is due to the fact that the casing is multi-starting with the formation along the perimeter of the casing of three or more helical grooves and helical lines of the main and opposite directions with a variable incrementing step from loading to unloading, therefore, along with the intensification of the process of mixing sludge particles, not only their movement along the horizontal the axis of the housing, which eliminates the need for mounting the housing at an angle to the horizontal, i.e. not only axial movement of sludge particles is ensured when the axis of rotation of the rotary kiln is horizontal, but the intensity of heat exchange processes also increases, and technological capabilities expand.

The novelty of the proposal lies in the fact that the area and cross-sectional shape of the body varies from loading to unloading, which changes the speed and trajectory of the movement of sludge particles as they move from loading to unloading, expanding technological capabilities

The novelty also lies in the fact that due to the twisting of trapezoidal bands of variable width in the transverse direction, curved surfaces of different curvature are formed inside the body in each cross section along the length of the body, which not only changes the trajectory of the movement of sludge particles at each point of the curved surface of the body, but also accelerates the process of movement of particles of sludge, expands technological capabilities.

The novelty is due to the fact that the housing along the perimeter is equipped with three, four, five, six, etc. broken helical lines of the main and opposite directions of helical lines, the step of which varies from loading to unloading, and accordingly three, four, five, six, etc. helical grooves of the main and opposite directions inside the body, which increases the speed of movement of sludge particles from loading to unloading, intensifies heat transfer processes, expands technological capabilities.

The novelty is also seen in the fact that the pitch of helical lines increases from loading to unloading, which ensures an increase in the speed of longitudinal movement of the sludge and expands technological capabilities.

The novelty is also due to the fact that the cross-sectional area and shape of the body changes from loading to unloading, which changes the speed and trajectory of the movement of sludge as they move from loading to unloading, intensifies heat transfer processes, increases the intensity, energy intensity and frequency of their interaction, expands technological capabilities .

The novelty also lies in the fact that the casing is made with concave or convex internal curved surfaces relative to the axis of rotation of the casing with centers of curvature located outside or inside the drive casing, which violates the stationary motion of sludge particles for firing cement clinker, intensifies heat transfer processes, swirls heat fluxes and expands technological capabilities.

The novelty also lies in the fact that helical surfaces and helical grooves swirl the gas heat flow, which intensifies heat transfer.

Figure 1 shows a General view of a rotary kiln for burning sludge for the preparation of cement clinker; figure 2 is a part of the housing of a rotary kiln for sludge firing for the preparation of cement clinker, front view, mounted from six strips of trapezoidal shape; figure 3 is a view a in figure 2; figure 4 is a trapezoidal strip, a General view with marked areas of weakened section - notches; figure 5 is a section aa in figure 4; figure 5 - trapezoidal strip after twisting in the longitudinal direction relative to its own longitudinal axis of symmetry and bending along a helical line in the transverse direction on the conical mandrel.

The rotary kiln for sludge firing for the preparation of cement clinker (Fig. 1) consists of a casing 1, supported through the shafts 2 on the support rollers 3. The casing 1 is mounted horizontally and rotates, providing the process of movement of sludge particles in it for the preparation of cement clinker. The kiln’s drive is double and consists of two electric motors 4, two gears 5, one ring gear 6 and two gear gears 7. The rotary kiln is equipped on one side with a feed pipe 8 for feeding slurry for firing into the housing 1, and on the opposite side with a head 9 for feeding fuel and air. From the side of the head 9, fuel and air are supplied to the furnace. The combustion of the fuel produces hot gases, the flow of which is directed from the hot end of the furnace to the cold towards the moving particles of sludge for the preparation of cement clinker. To improve heat transfer and dust removal of gases inside the furnace, a chain filter heater 10 is placed at its cold end, a chain curtain 11 is created, and heat exchangers 12 are installed. The dust collected as a result of gas cleaning is returned to the furnace. It is transported by a pneumatic pump to the hopper, and from it, using a peripheral loader 13, it is sent to the hollow part of the furnace located next to the chain curtain from the hot end. To cool the particles of the finished cement clinker, the furnace is equipped with a grate-firing cooler 14. The housing 1 is equipped with a water cooling unit 15 and a central lubrication system 16.

The housing 1 (figure 2, 3) is made, for example, of six strips 17, 18, 19, 20, 21, 22 of a trapezoidal shape with different sizes in width, with an increase in length along the length of the housing 1 from loading to unloading, on which for education around the perimeter of the housing 1 annular multifaceted surfaces A, B, C, D, D, etc. from equilateral 23 and isosceles 24 triangles alternately arranged with each other by their lateral sides, for example, an annular polyhedral surface B from equilateral 23 and 24 isosceles triangles alternately arranged with each other by their sides, alternately from their opposite sides at an angle of 60 ° to the strip axis zones of weakened cross section — notches (Fig. 4), for example, on a strip 22 of notches 25 and 26 with beveled walls by means of milling or pressure treatment, etc. The geometry and angles λ, γ, ω, ψ, α, β of the bevels of the notches (Fig. 5) and their relative position determine the angles of inclination of equilateral triangles 23 and isosceles triangles 24 to each other. Each of the trapezoidal bands 17, 18, 19, 20, 21, 22 is twisted in the longitudinal direction relative to its own axis of symmetry, for example, as a trapezoidal strip 22, in which one of its ends is fixed in a hot or cold state and the other end of the strip is rotated in a predetermined direction relative to the longitudinal axis 0 ₁ -0 ₁ . Thus twisted strip 22 is placed on a conical mandrel 27 (Fig.6) and bent so that the edges of the strip are placed in the transverse direction along a helical line. In this case, the strip is deformed and it is either removed from the mandrel or fixed on it in a deformed position. Similarly, the remaining strips forming the housing 1 are deformed. Next, three, four, five, six or more strips thus deformed are connected by known methods along the lateral screw edges. Twisting each strip of trapezoidal shape provides an additional curvature of the surface of the housing 1, which intensifies the process of interaction of particles of sludge and heat transfer processes. After bending, the strips 17, 18, 19, 20, 21, 22 are connected to each other by the lateral sides by known methods, for example, by welding, with the formation of helical lines and internal helical grooves along the perimeter of the housing 1 of the main and opposite directions with a variable increasing pitch of helical lines from loading to unload. Figure 2 and figure 3 shows the thickened lines one of the six helical lines of the main direction 28-29-30-31-32-33 with a variable incrementing step S ₁ and one of six helical lines of the opposite direction 34-35-30- 36-37-38 with variable increasing pitch S ₂

The proposed rotary kiln for sludge for the preparation of cement clinker works as follows. The housing 1, mounted horizontally, rotates. Sludge for firing for the preparation of cement clinker is fed into the feed pipe 7 using bucket or volumetric dosers located at the cold end of the furnace (body 1). From the side of the head 9, fuel and air are supplied to the furnace (housing 1). The combustion of the fuel produces hot gases, the flow of which is directed from the hot end of the furnace (housing 1) to the cold, towards the moving particles of the sludge for burning cement clinker. Sludge particles for the preparation of cement clinker, while inside the rotating body 1, carried away by its screw surfaces, rise up and, rising in the direction of rotation of the body 1 slightly above the angle of their natural slope, roll down like an avalanche. Since the housing 1 along the perimeter is equipped with a multi-start screw surface, the movement of sludge particles for the preparation of cement clinker inside the housing 1 and their movement from loading to unloading with the horizontal arrangement of the housing 1 is ensured. The filter-heater 9 improves heat transfer and removes dust. The dust collected as a result of gas cleaning is returned to the furnace. It is transported by a pneumatic pump to the hopper, and from it, using the peripheral loader 12, is sent to the hollow part of the furnace, located next to the chain curtain from the hot end. After firing, the particles of cement clinker are cooled in a grate-repulsive cooler 14.

Technical and economic advantages arise due to the provision in the rotary kiln of longitudinal movement of sludge particles for firing for the preparation of cement clinker with a horizontal arrangement of the casing and the creation of their counter flows, due to the fact that inside the entire length of the casing there are also formed helical surfaces and helical grooves, which provide not only the movement of sludge particles due to the conicity of the body, but also contribute to the intensification of the interaction of sludge particles for firing a cement blade together with each other and with the walls of the casing, which allows not only to influence the nature of the movement of sludge particles for firing cement clinker and change the direction of their speed of movement, but also expands technological capabilities, increases the intensity of heat transfer, simplifies the operation of a rotary kiln with its horizontal arrangement, expands technological capabilities.

Claims (1)

A rotary sludge kiln for the preparation of cement clinker, comprising a housing supported through shafts on the support rollers, a double drive consisting of two electric motors and two gears, two gears, one crown wheel, a feed pipe for feeding slurry for the preparation of cement clinker, a head for supplying fuel and air to the furnace, a chain filter heater, heat exchangers, a grate-cooler, a water cooling unit and a central lubrication system the fact that the casing is installed horizontally and made of three or more trapezoidal strips with different sizes in width with increasing along the length of the casing from loading to unloading, on which alternately from their opposite sides at an angle of 60 ° to the axis of the strips made by milling or by pressure treatment of a zone of weakened section in the form of cuts with beveled walls to form circumferential polyhedral surfaces along the perimeter of the body from the sides alternately located with each other on their sides triangular and isosceles triangles, while the strips are twisted in the longitudinal direction relative to their longitudinal axes and bent on a conical mandrel in the transverse direction along the helical line with the formation of three or more helical grooves and helical lines along the perimeter of the body and the helical lines of the main and opposite directions with a variable step that increases along the length of the housing from loading to unloading.

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