RU2512892C2 - Method for air heat-moisture treatment with heat utilisation - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to air heat-moisture treatment with an energy saving system and can be used namely in an air conditioning area. A method for air heat-moisture treatment with heat utilisation implements air heat-moisture treatment in units for heating, fine and coarse air cleaning and its moistening by air intake from air intake devices located in the upper zone of a room; air is supplied by an air blowing device connected to air intake devices to a dry air cleaning unit, and then, air is supplied by means of the air blowing device to the moistening and wet cleaning device. Ambient air is cleaned and heated in a climatic plant; after that, air flows of the device and the plant are supplied to the unit where those flows are mixed; then, air of the specified parameters is supplied from the mixing unit through air distribution devices to the room.

EFFECT: improving efficiency of air heat-moisture treatment systems by heat utilisation based on units with opposite vortex flows.

3 dwg

Description

The invention relates to heat-moisture treatment of air with an energy-saving system and can be used, in particular, in the field of conditioning.

The closest technical solution to the claimed object is a method of heat-moisture treatment of air with heat recovery, implemented on a supply and exhaust unit with a regenerative heat exchanger according to the patent of the Russian Federation No. 2346209, F24F 5/00 (prototype), containing a housing, channels for supply and exhaust air, a fan , chamber with regenerative heat exchanger.

The disadvantage of this method is the relatively low efficiency of heat recovery due to the cross-organization of air flows.

The technical result is an increase in the performance of heat-humidity air treatment systems by utilizing heat on the basis of devices with counter swirling flows.

This is achieved by the fact that in the method of heat-moisture treatment of air with heat recovery, heat-moisture treatment of air is carried out in the blocks for heating, fine and coarse air purification and humidification by taking air from air intake devices located in the upper zone of the room, air is supplied by an air blower associated with air intake devices, into the apparatus for dry air purification, and then through the air blower device, air is supplied to the humidification and wet cleaning apparatus, and limaticheskoy purification installation is carried out and heating of the outside air, whereupon the air flow is directed apparatus and install a block where mixing of these streams is performed, then the air is preset parameters from the mixing unit is fed through a device for air distribution in the room to be served.

A device for heat-humidity air treatment with heat recovery consists of air intake and air distribution devices located in the upper zone of the room, air discharge devices, and a dry air cleaning device supplied from the room by air intake and air discharge devices associated with a humidification and wet cleaning device, and an air conditioning system for purification and heating of outdoor air, as well as a unit for mixing air flows from a humidification apparatus and wet cleaning and air conditioning Associated with the distribution device.

In FIG. 1 shows a block diagram of a device for implementing the proposed method, FIG. 2 shows a diagram of an apparatus for humidification and wet cleaning of fine dust, FIG. 3 - nozzle diagram.

A device for implementing the proposed method (Fig. 1) consists of air intake devices 1 located in the upper zone of the room, air injection devices 2 and apparatus 3 for dry air cleaning. The air-blowing device 4 supplies air to the humidification and wet cleaning apparatus 5. In the air conditioner 6, the outside air is cleaned and heated. In block 7, the flows from the apparatus 5 and installation 6 are mixed. The air of the specified parameters from block 7 enters through the device for distributing air 8 to the served room.

The humidification and wet cleaning apparatus 5 (Fig. 2) includes an air intake device 1, an air distribution device 2, an air duct 3, an apparatus with counterpropagating flows 4, an upper tangential swirl 5, a lower tangential swirl 6, a dust exhaust pipe 7, a centrifugal fan 8, multifunctional apparatus with counter-flow swirling flows 9, lower tangential swirl 10, upper tangential swirl 11, centrifugal nozzles 12, exhaust pipe of humidification chamber 13, inlet pipe of kame Mixer 14, vortex mixing chamber 15, straightener 16, slag discharge pipe 17, waste fluid 18, small-sized air conditioner 19. The air conditioner is a compact unit in the metal housing of which there is a low-pressure fan 23, a filter 25 for cleaning air from mechanical impurities, a surface air heater 24, a straightener 22, a muffler 21, an output section 20.

In a combined multifunctional apparatus with counter-swirling flows in the working space of the first stage, two swirling in one direction but opposite directions are formed, as in the classic apparatus with counter-swirling flows: ascending G ₁ in the central part of the chamber and descending G ₂ in peripheral part. For heat-moisture treatment of air, water is sprayed into the chamber, sprayed by centrifugal tangential nozzles. Under the action of centrifugal forces, water droplets are thrown onto the vertical walls of the apparatus and flow down into the lower part of the chamber. Then the humidified air is discharged from the chamber through the exhaust pipe located in the upper part of the first stage of the apparatus, and enters the mixing chamber (second stage of the apparatus). Part of the outdoor air G ₃ , previously prepared in the air conditioning system, is fed through a tangential curler into the mixing chamber, where the stream of humidified air is mixed with the outside. An increase in the diameter of the mixing chamber relative to the first stage of the apparatus, where humidification and wet dedusting takes place, ensures a decrease in the air velocity in the cross section of the apparatus and, as a result, without creating significant additional aerodynamic drag, helps to prevent droplets. At the exit of the apparatus, a straightener is installed. The water treatment process is carried out using a system of shut-off and control valves, a sump and a filter, as well as circulation and make-up pumps.

The nozzle (Fig. 3) contains a hollow body, consisting of a cylindrical part 1 with an external thread for connection to a nozzle of a distribution pipe for supplying liquid and an internal thread for connection with a conical nozzle 5.

The housing 1 and the nozzle 5 form two internal coaxial chambers 4 and 13. The cylindrical chamber 4 serves to supply fluid, and the conical chamber 13 formed by the surface of the truncated cone of the nozzle is an injection chamber to create increased pressure.

At the nozzle 5, from the side opposite the fluid supply, a nozzle is made, which consists of a cylindrical throttle hole 8 and a conical hole 9 with an extension towards the object. At the same time, on the surface of the conical hole 9, screw (not shown in the drawing) cutting (for example, a tapered thread with a large pitch) is made to create a fan-shaped liquid exit from the nozzle.

At least two rows of cylindrical throttle holes 6 and 7 are made on the conical side surface 5 of the nozzle, the axes of which are perpendicular to the conical side surface of the nozzle 5, and at least three cylindrical throttle holes are made in each row, moreover, in the horizontal plane of the projection the axes of holes 6 and 7 in these rows are separated from each other by an angle of 7.5 ... 60 ° to create a finely divided continuous phase of the sprayed liquid.

To create the greatest effect of the formation of a finely divided continuous phase of the sprayed liquid in the cylindrical chamber 4, a swirler 3 is arranged coaxially with a gap 12 relative to the inner side surface of the chamber 4, made in the form of a sleeve with a screw external thread with a large step of a trapezoidal profile and fixed by means of an internal thread 11 on the rod 2 with a conical cowl at the top.

The swirler 3 is fixed in its lower part by means of a round plate 14 rigidly attached to it to the housing 1. In the round plate 14, a groove is made in a spiral of Archimedes, having a twist direction coinciding with the direction of twist of the fluid flow of the swirler 3.

The proposed method is as follows.

From the air intake devices 1 located in the upper zone of the room, air is supplied by an air-blowing device 2 connected to the devices 1 to a dry air cleaning apparatus 3, for example a CDW. Further, by means of an air-blowing device 4, for example, a centrifugal fan, air is supplied to the humidification and wet cleaning apparatus 5 of fine dust, and at the same time, the air conditioning unit 6 purifies and heats the outside air. After that, the air flows of the apparatus 5 and installation 6 are sent to block 7, where they are mixed. The air of the given parameters from the block 7 is fed through the device for the distribution of air 8 in the served room.

The developed method is supposed to be used for the preparation of outdoor air with a small-sized air conditioning system, and the main mass of reused air (up to 90% of the total air volume) is processed in devices with counter-swirling flows. At the same time, the technological layout of the air conditioning system is greatly simplified.

This method allows you to achieve the set parameters of the supply air in a wider humidity range. Thus, a slight decrease in the supply air temperature and an increase in its humidity can reduce the required volume of air supplied to the room to 10%.

Developed a fundamentally new method of heat-moisture treatment of air together with the use of devices with counter-flow swirling flows allows you to create a new energy-saving technology, with regard to the tasks of air conditioning in industrial premises, involving the reuse of heat and moisture of highly dusty air, not suitable for energy utilization by traditional methods. Improving the technical and economic indicators of the developed method is achieved through the use of air purifiers with oncoming swirling flows, which reduces the cost of the central air conditioner by replacing it with a compact air-conditioning unit of a simplified design.

Claims (1)

A device for heat-moisture processing of air with heat recovery, consisting of air intake and air-distributing devices located in the upper zone of the room, and air-blowing devices, characterized in that it further comprises a dry air purification apparatus supplied from the room by an air-intake and air-blowing device connected to the humidification device and wet cleaning, and an air conditioner for cleaning and heating the outside air, as well as a unit for mixing air flows from the humidifier wet cleaning and climatic installation associated with the dispensing apparatus, each of the nozzles of the humidification and wet cleaning apparatus is made vortex containing a hollow cylindrical body connected to a nozzle in which holes are made, the body consists of a cylindrical part with an external thread for connection to the fitting a distribution pipe for supplying liquid, and an internal thread for connecting to a conical nozzle, while the body and the nozzle form two inner chambers that are aligned with each other, and the cylinders The pressure chamber serves to supply fluid, and the conical chamber formed by the surface of the truncated cone of the nozzle is a pressure chamber to create increased pressure, and a nozzle is made on the nozzle, from the side opposite to the fluid supply, which consists of a cylindrical throttle hole and a conical hole with expansion towards the object, while on the surface of the conical hole a helical thread is made to create a fan-shaped liquid outlet from the nozzle, and on the conical side surface with at least two rows of cylindrical throttle holes are made, the axes of which are perpendicular to the conical lateral surface of the nozzle, and at least three cylindrical throttle holes are made in each row, and in the horizontal plane of the projection of the axis of the holes in these rows are spaced at an angle of 7.5 ... 60 ° to create a finely divided continuous phase of the sprayed liquid, while in the cylindrical chamber coaxially mounted to it with a gap relative to the inner side surface of the chamber, mounted in the form of a sleeve with a screw external thread with a large step of a trapezoidal profile and fixed by means of an internal thread on the rod with a conical fairing in the upper part, and the swirler is fixed in its lower part by means of a round plate rigidly attached to it, to the case, and a groove is made in the round plate Archimedes spiral, having a twist direction coinciding with the twist direction of the swirl fluid flow.

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