RU2612485C1 - Wasteheat exchanger with boiling bed - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: wasteheat exchanger with boiling bed contains a metal housing, a separator, water dispenser, nozzles, a movable nozzle of the hollow plastic balls, tray and support grid, wherein the guide unit and the float valve is additionally installed in the housing, and there is the vibrator at the support grid, and each of the nozzles consists of a body with a screw, coaxially arranged in the lower part of the body, and the fitting with a cylindrical hole for fluid supply located in the upper part of the body, connected to the diffuser, axisymmetric to the body and fitting, the screw is pressed into the body to form a conical chamber, located above the screw, coaxially to the diffusor and connected with it in series, at that the screw is made blind, and the outer surface of the screw consists of two series-connected surfaces, one of which represents at least a single-lead helical groove with the right or left-thread and located inside the body, and the second surface is made smooth as a rotation body, connected axially-symmetrically to the spray disk, disposed perpendicular to the axis of the body, and protrudes over the end face of the lower part of the body, wherein the line forming this surface may be either a straight line or curve line of n-power, and the spray disc surface, protruding over the end face of the lower part of the body is formed bent toward the lower part of the body and has the radial slots at the peripheral part, alternating with the blind part of the spray disc surface. The shape of movable nozzle is made in the form of cylindrical ring, on the side, inner and outer surfaces of which there is the screw thread, made in the opposite directions, or in the form of a ball, on the surface of which there are non-through holes of hemispherical shape, or in the form of a ring, on the outer surface of which the helical surface is made in the form of a plate screw, or in the form of at least a three-bladed propeller.

EFFECT: increase of the dedusting process efficiency and reliability by increasing the liquid spray degree by the nozzles.

6 dwg

Description

The invention relates to apparatus for utilizing the heat of the removed air and cooling the circulating water.

The closest technical solution to the claimed object is a heat recovery unit according to the patent of the Russian Federation No. 2319093, F24F 5/00 (prototype), comprising a metal housing, a separator, a water distributor, nozzles, a movable nozzle made of hollow plastic balls, a pallet and a support grid.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the underdeveloped spray surface of the liquid.

EFFECT: increased efficiency and reliability of the dust collection process by increasing the degree of liquid atomization by nozzles.

This is achieved by the fact that the heat recovery unit with a fluidized bed contains a metal casing, a separator, a water distributor, nozzles, a movable nozzle made of hollow plastic balls, a tray and a support grate, moreover, a guide apparatus and a float valve are additionally placed in the casing, and a vibrator is installed on the support grate and each of the nozzles consists of a housing with a screw coaxially located in the lower part of the housing, and a fitting located in the upper part of the housing with a cylindrical hole for supplying fluid connected to the diffuser the auger, axisymmetric housing and fitting, the screw is pressed into the housing with the formation of a conical chamber located above the screw, coaxial to the diffuser, and connected to it in series, moreover, the screw is solid, and the outer surface of the screw is two series-connected surfaces, one of which is at least a one-way screw groove with right or left thread and located inside the housing, and the second surface is made smooth in the form of a body of revolution, axisymmetrically connected to a dusty disk located perpendicular to the axis of the housing, and protrudes beyond the end surface of the lower part of the housing, moreover, the line forming this surface can be either a straight line or an nth-order curve, and the surface of the spray disk protruding beyond the end surface the lower part of the body, made bent towards the lower part of the body and has on the peripheral part radial cutouts alternating with the solid part of the surface of the spray disk. The shape of the movable nozzle is made in the form of a cylindrical ring, on the lateral, internal and external surfaces of which screw cutting is performed in opposite directions, or in the form of a ball on the surface of which through holes are made hemispherical in shape, or in the form of a ring on the outer surface of which a helical surface is made as a plate screw, or in the form of at least a three-blade propeller.

In FIG. 1 shows a General view of the proposed installation;

in FIG. 2 - general view of the nozzle;

in FIG. 3-6 - embodiments of the shape of the movable nozzle 4.

The heat recovery fluidized bed consists of a separator 1, a water distributor 2, nozzles 3, a movable nozzle 4 of hollow plastic balls (forming the so-called "fluidized bed"), a tray 5, a support grid 6, a metal casing 7, a guiding apparatus 8, a float valve 9, by means of which a constant water level is maintained in the pan, and a filter 10 located in the lower part of the housing and holding various suspended solids in the water. To intensify the process of heat and mass transfer, a vibrator is installed on the support grid 6 (not shown in the drawing).

The nozzle irrigation system of a two-stage contact heat exchanger includes a nozzle (Fig. 2), which contains a housing 11 with a screw 17 coaxially located in the lower part of the housing, and a nozzle 12 located in the upper part of the housing with a cylindrical fluid inlet 13 connected to the diffuser 14, axisymmetric housing 11 and nozzle 12. For a tight connection of the housing 11 with the nozzle 12, a sealing gasket 15 is provided. The screw 17 is pressed into the housing to form a conical chamber 16 located above the screw 17, with axially diffuser 14, which is connected to it in series. The screw 17 is made continuous, and the outer surface of the screw 17 is two serially connected surfaces, one of which is at least a single-thread screw groove 18 with right or left thread and is located inside the housing 11, and the second surface 20 is made smooth in the form body rotation, axisymmetrically connected to the spray disk 21 through the rod 22, and located perpendicular to the axis of the housing, and protrudes beyond the end surface of the lower part of the housing, and as a line, This surface can be either a straight line or an nth-order curved line, for example, spherical, elliptical, parabolic, etc. (not shown in the drawing). In this case, the screw 17 can be fixed in the housing by means of screws 19. The nozzle screw 17 is made of solid materials: tungsten carbide, ruby, sapphire.

The surface of the spray disk 21, protruding beyond the end surface of the lower part of the housing 11, is bent toward the lower part of the housing and has radial cutouts (not shown) in the peripheral part, alternating with the solid part of the surface of the spray disk 21.

The heat recovery fluidized bed works as follows.

The balls of the movable nozzle 4, under the influence of the upward flow of air and the water entering it, move, colliding with each other, and thereby significantly intensify the processes of heat and mass transfer between the sprayed water and the air entering the apparatus. The intensification of the process of heat and mass transfer contributes to the installed on the support grid 6 vibrator.

The swirl nozzle 3 operates as follows.

The fluid is supplied through a cylindrical hole 13 to the diffuser 14, and from it to the conical chamber 16, from which it flows under pressure into the screw external cavity of the screw 17. A rotating fluid flow in the external screw cavity of the screw forms a vortex movement, with additional crushing of liquid drops due to turbulization of the outlet stream, and a finely dispersed rotating stream leaves the nozzle with a wide rotating torch of the sprayed liquid (solution) and encounters the surface of the spray disk 21, otorrhea at the peripheral portion bent toward the lower housing portion, provided with radial cutouts alternating with a continuous part of the surface of the spray plate 21, thus increasing the surface of the liquid while spraying additional fragmentation of liquid droplets.

With a nominal capacity of the apparatus and a water pressure in front of the nozzle of 98 kPa, the nozzle 4 is stationary at a mass air velocity of up to 2.7 ... 2.9 kg / (m ² × s), and with an increase in this speed to 3 ... 3.1 kg / (m ² × c) the movement of balls 4 begins, the process of heat and mass transfer is significantly intensified, but the aerodynamic resistance of the apparatus also increases. Therefore, mass air velocities higher than 4.1 ... 4.3 kg / (m ² × s) should not be taken, since the balls exit the working zone, pressing against the separator 1, and the aerodynamic drag of the apparatus sharply increases, which is: 0.12 kPa at a mass velocity of 2 kg / (m ² × s), 0.2 kPa - at 3 kg / (m ² × s) and 0.35 kPa - at 4 kg / (m ² × s). The dimensions of the apparatus are 0.65 × × 0.65 × 1.9 m, the living area in the working area is 0.42 m ² .

Fluidized bed apparatuses are widely used in circulating water supply systems (for cooling recirculating water) in the baking industry and in public catering establishments, as well as their effective use in ventilation systems of those enterprises where, according to technological requirements, it is necessary to maintain high relative humidity throughout the year .

It is possible to make the shape of the movable nozzle (Fig. 3) in the form of a cylindrical ring, on the lateral, inner and outer surfaces of which a screw thread is made (not shown in the drawing) in opposite directions. It is possible to make the shape of the movable nozzle (Fig. 4) in the form of a ball, on the surface of which non-through holes of a hemispherical shape are made (not shown in the drawing). It is possible to form a movable nozzle (Fig. 5) in the form of a ring, on the outer surface of which a helical surface is made like a plate auger. It is possible to form the movable nozzle a (Fig. 6) in the form of at least a three-blade propeller.

Claims (1)

A fluidized-bed heat recovery unit containing a metal body, a separator, a water distributor, nozzles, a movable nozzle made of hollow plastic balls, a tray and a support grid, moreover, a guide apparatus and a float valve are additionally placed in the case, and a vibrator is installed on the support grid, and each of nozzles consists of a housing with a screw coaxially located in the lower part of the housing, and a fitting located in the upper part of the housing with a cylindrical fluid inlet connected to the diffuser is axisymmetric m to the housing and the fitting, the screw is pressed into the housing with the formation of a conical chamber located above the screw, coaxial to the diffuser, and connected to it in series, moreover, the screw is solid, and the external surface of the screw is two serially connected surfaces, one of which is at least a one-way screw groove with right or left thread and located inside the housing, and the second surface is made smooth in the form of a body of revolution, axisymmetrically connected to the spray disk, p perpendicular to the axis of the housing, and protrudes beyond the end surface of the lower part of the housing, moreover, the line forming this surface can be either a straight line or an nth-order curve, and the surface of the spray disk protruding beyond the end surface of the lower part of the housing is made bent towards the lower part of the housing and has on the peripheral part radial cuts alternating with the solid part of the surface of the spray disk, characterized in that the shape of the movable nozzle is made in the form of qi a cylindrical ring, on the lateral, inner and outer surfaces, which are screw-cut in opposite directions, or in the form of a ball, on which surface non-through holes are made hemispherical, or in the form of a ring, on the outer surface of which a helical surface is made like a plate auger or in the form of at least a three-blade propeller.

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