RU2653457C1 - Ventilation system with heat recovery unit - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to air conditioning and ventilation technology and can be used to create comfortable microclimate conditions in domestic, administrative and industrial premises. This is achieved by the fact that in a ventilation system with a heat recovery unit containing a fan, a heat exchanger of the first and second preheaters and apparatuses, where there is adiabatic cooling and moistening of supply air with water, the water is recirculated by a pump through the injector irrigation system, and the apparatuses are made by heat and mass exchange devices with a vibrating bed, in a pallet with a head of which vibrators are located, the injector of the heat exchanger irrigation system comprises a body, union and a coaxially arranged swirling insert with an external helical thread and an expanding conical hole inside, wherein in the union there is a cylindrical opening, connected to the diffuser, which is axially symmetric in the body, and in the lower part of the body, there is a nozzle, axisymmetric to the body, which is made with a two-stage diffuser, coaxial to the swirling insert , the first stage of the diffuser is a continuation of the expanding conical hole made inside the swirling insert, which is made from wear-resistant material, and the second stage of the diffuser is an extension of its first stage, while on its inner conical surface there is a helical thread, herewith the conical surface with the helical thread of the second stage of the diffuser is made perforated, and in the lower part of the body, coaxially to it, a cylindrical shell is fixed, on which a flow divider is installed, which is made, at least, in the form of two rods connected to each other in the lower part, obliquely to the nozzle axis, to which a vertically disposed rod is attached, onto which there is a swirler made in the form of a cone with helical blades enclosing the rod with a clearance and resting in the lower part on a thrust located horizontally and perpendicular to the rod.

EFFECT: increased efficiency and reliability of heat and moisture treatment of the air.

1 cl, 6 dwg

Description

The invention relates to techniques for air conditioning and ventilation.

The closest technical solution to the claimed object is the air conditioning system according to the patent of the Russian Federation No. 2291358, class. F24F 5/00 (prototype), comprising a fan, a heat exchanger of the first and second heating and apparatuses where adiabatic cooling and humidification of the supply air with water takes place.

Its disadvantage is the relatively low efficiency of the process of heat-moisture treatment of air in the winter period of time.

The technical result is an increase in the efficiency and reliability of heat-moisture treatment of air.

This is achieved by the fact that in a ventilation system with a heat recovery unit containing a fan, a heat exchanger of the first and second heating and devices where adiabatic cooling and humidification of the supply air with water takes place, the water is recycled by the pump, and the devices are made by heat and mass transfer devices with a vibro-boiling layer, in a pan with the nozzle of which is the vibrator, the nozzle of the irrigation system of the heat exchanger contains a housing with a screw coaxially located in the lower part of the housing, and located in the upper part of the housing a whisker fitting with a cylindrical fluid inlet connected to a diffuser, an axisymmetric body and a fitting, the screw is pressed into the housing to form a conical chamber located above the screw, coaxial to the diffuser, and connected to it in series, the screw being solid and the external surface of the screw being are two serially connected surfaces, one of which is at least a single-helical helical groove with a right or left thread, and is located inside the housing, and the second The shaft is made smooth in the form of a body of revolution, axisymmetrically connected to the spray disk located perpendicular to the axis of the body, and protrudes beyond the end surface of the lower part of the body, and the line forming this surface can be either a straight line or a curve of the nth order, and the surface of the spray disk protruding beyond the end surface of the lower part of the housing is bent towards the lower part of the housing and has radial cutouts alternating with the solid part on the peripheral part th surface of the spray disc.

In FIG. 1 is a schematic diagram of a ventilation system with a heat recovery unit; FIG. 2 - nozzle of the irrigation system of the heat exchanger, in FIG. 3-6 - nozzle options 9.

The ventilation system with a heat recovery unit consists of a fan 5, a heat exchanger 1, a first heat exchanger 2, and apparatus 3, where adiabatic cooling and humidification of the supply air with water takes place, the recirculation of which is carried out by the pump 4 through the nozzle irrigation system 10. The air removed from the room by the fan 6 is supplied to apparatus 7 with nozzle 9, serving as a heat exchanger. The pump 8 is designed for the circulation of water, which plays the role of an intermediate coolant. Apparatuses 3 and 7 are heat and mass transfer apparatuses with a vibro-boiling layer, since vibrators (not shown) are installed in the tray where the nozzle is located.

The nozzle irrigation system of a two-stage contact heat exchanger 1 includes a nozzle (Fig. 2), which consists of a housing 11 and coaxially located and rigidly connected with it in the upper part of the nozzle 12 with an inlet cylindrical hole 13 connected to a diffuser 14 made axisymmetrically in the housing 11. In the lower part of the casing, a nozzle 15 is located axisymmetrically to the casing 11. The nozzle 15 is made with a two-stage and coaxial swirl insert 16 with a diffuser, while the first stage 20 of the diffuser is a continuation of the expanding the conical hole 17 formed within the insert-swirler 16 and second stage diffuser 21 is an extension of its first stage 20, and on its inner conical surface formed helical thread (shown in the drawing on).

The swirl insert 16 is located in the central cylindrical hole 18 of the housing 11 and has external peripheral helical threaded channels 19, and inside the swirl insert 16, an expanding conical hole 17 is coaxially provided for supplying fluid from the cylindrical hole 13 made in the fitting 12. The swirl insert 16 fixed in the lower part of the housing 11 through the nozzle 15. The insert swirl 16 is made of wear-resistant material. The conical surface with a screw-shaped thread of the second stage 21 of the diffuser is perforated.

The nozzle for spraying liquid works as follows.

The fluid enters the housing 11 through the fluid supply channel 13 in the nozzle 12, and then into the central cylindrical hole 18. The fluid begins to swirl in the peripheral channels 19 of the swirl insert 16 and simultaneously moves axially along the expanding conical hole 17. In the nozzle mixing chamber 15 formed by the first stage 20 of a two-stage diffuser, these flows interact with their additional turbulization and crushing with the formation of a finely dispersed phase, and the second stage 21 of the diffuser with a rotor heat threaded inside it enhances the effect of the atomization fluid.

Such a fluid flow at the exit of the nozzle 15 is well disclosed due to centrifugal forces arising from the rotation of the liquid, and is finely dispersed inside the cone-shaped plume due to the turbulent flow along the axis of the nozzle 15.

In the lower part of the housing 11, coaxially to it, a cylindrical shell 22 is mounted on which a flow divider 23 is mounted, made in the form of at least two rods 24 and 25 located obliquely to the axis of the nozzle, interconnected in the lower part, to which a vertically located a rod 26, on which a swirler is installed, made in the form of a cone 28 with screw blades, covering with a gap the rod 26 and resting in the lower part on the stop 27, located horizontally and perpendicular to the rod 26.

The ventilation system with a heat recovery unit operates as follows.

The external air supplied by the fan 5 is first heated in the heat exchanger 1, and then heated in the first heat exchanger 2 and enters the apparatus 3, where adiabatic cooling and moistening of the supply air with water is carried out, the recirculation of which is carried out by the pump 4. The air removed from the room by the fan 6 is supplied to the apparatus 7, serving as a heat recovery unit. The pump 8 is designed for the circulation of water, which plays the role of an intermediate coolant.

Apparatuses with a vibro-boiling layer are widely used in circulating water supply systems (for cooling recirculating water) in the baking industry and in public catering establishments. However, their most effective use is in ventilation systems of those enterprises where, according to technological requirements, it is necessary to maintain high relative humidity throughout the year.

When using the apparatus with a vibro-boiling layer, it is reduced to 50% of the heat consumption for heating the supply air and its cooling is achieved in the summer period, which ensures a sufficiently short payback period of the necessary capital investments.

It is possible to make the nozzle 9 (Fig. 3) in the form of a cylindrical ring, on the lateral, inner surface of which partitions are fixed in the form of washers perpendicular to the axis of the ring with holes whose axes are asymmetric to the axis of the ring.

It is possible to perform nozzles 9 (Fig. 4) in the form of a block inscribed in a circle, consisting of seven hexagonal parallelepipeds connected to each other by side faces without upper and lower bases. It is possible to make nozzles 9 (Fig. 5) in the form of interconnected helical spirals inscribed on a spherical surface with a center lying on the axis of the spiral connection. It is possible to perform nozzles 9 (Fig. 6) in the form of at least twelve three-bladed propellers connected to a block, the projection of which onto the plane of the drawing fits into a circle with a center coinciding with the center of one of them.

Claims (2)

1. A ventilation system with a heat recovery unit, comprising a fan, a heat exchanger of the first and second heating and devices where adiabatic cooling and humidification of the supply air with water takes place, the water is recycled by the pump by means of a nozzle irrigation system, and the devices are made by heat and mass transfer devices with a vibro-boiling layer, in a pan with the nozzle of which is the vibrator, characterized in that the nozzle of the irrigation system of the heat exchanger contains a housing, a fitting and a coaxially located swirl insert an external screw-shaped thread and an expanding conical hole inside, with the inlet having a cylindrical inlet opening connected to a diffuser made axisymmetrically in the body, and the nozzle, which is made with a two-stage and coaxial swirl insert-diffuser, is the first stage of the diffuser is a continuation of the expanding conical hole made inside the swirl insert, which is made of wear-resistant material, and the second stupa The diffuser’s shade is a continuation of its first stage, while a screw-shaped thread is made on its inner conical surface, and a conical surface with a screw-shaped thread of the second diffuser stage is perforated, and a cylindrical shell is mounted on the lower part of the casing, on which the flow divider is mounted, made in the form of at least two rods arranged obliquely to the axis of the nozzle, interconnected at the bottom, to which a vertically arranged a rod on which a swirl is mounted, made in the form of a cone with screw blades, covering the rod with a gap and resting in the lower part on a stop located horizontally and perpendicular to the rod. 2. A ventilation system with a heat utilizer according to claim 1, characterized in that the nozzle is made in the form of a cylindrical ring, on the lateral, inner surface of which there are fixed partitions in the form of washers perpendicular to the axis of the ring with holes whose axes are asymmetric to the axis of the ring, or the nozzle is made in in the form of a block inscribed in a circle, consisting of seven hexagonal parallelepipeds interconnected by side faces without upper and lower bases, or the nozzle is made in the form of helical spirals interconnected, inscribing proxy into a spherical surface with a center lying on the axis of connection of spirals or nozzle is in the form of at least twelve connected in tri-block propellers whose projection on the plane of the drawing fits into a circle with the center coinciding with the center of one of them.

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