RU2363892C1 - Method of air conditioning with complex indirect cooling and conditioner for its implementation - Google Patents

Abstract

FIELD: heat engineering.

SUBSTANCE: method and device are provided for creation of comfort conditions and microclimate in factory floors with surplus heat evolution. Method consists in that in conditioner it is implemented heat-moist curing of air and it is fed into room, in chamber of conditioner mixing it is implemented preparation of air for its heat-moist curing in heat exchanger and spray-type air washer by means of mixing of following air flows: external air flow is fed through the air inlet and valve, and recycling air from room is fed by excurrent flue, then it is cleaned from dust in air filter, and pass through the heat exchanger, spray-type air washer with injectors, intensifying the process of heat-mass exchange, and by means of fresh air fan it is fed into room through the terminal unit, herewith in conditioned room it is installed at least two sensors: sensor, recording moisture in room, and sensor for registration of the temperature, and temperature control in room is implemented by means of sensor which affect on valve actuator, installed on heat carrier supplying pipeline into heat exchanger, and moisture control is implemented by sensor pulse, affecting on actuator of air valve, which provides changing of correlation of air consumption, treated in spray-type air washer and passed through the bypass port, herewith one end of bypass port is connected with cavity of conditioner up to air washer, and other - after, after what air from room is removed through air diffuser, and target flue with exhaust cowl, returning herewith part of recirculated air into mixing chamber.

EFFECT: effectiveness and reliability increase of conditioning process.

2 cl, 4 dwg

Description

The invention relates to techniques for air conditioning and ventilation and can be used to create comfortable conditions and microclimate in industrial premises with excessive heat.

The closest technical solution to the claimed object is a method of air conditioning, which consists in the fact that the air conditioner performs heat and humidity treatment of the air and feeds it into the room, known by RF patent No. 2320931, class. F24F 3/06, while the air conditioner contains a housing, sections for receiving valves and heating, an irrigation chamber in which nozzles and drip traps with a filter pan are installed, a filter section connected to the ventilation unit.

Its disadvantage is the relatively low efficiency of the process of automatic regulation of indirect cooling.

The technical result is an increase in the efficiency and reliability of the conditioning process.

This is achieved by the fact that in the method of air conditioning with combined indirect cooling, which consists in the fact that the air conditioner performs heat-humidity treatment of the air and delivers it to the room, air is prepared in the mixing chamber of the air conditioner for heat-moisture treatment in the heat exchanger and nozzle irrigation chamber by mixing the following air streams: an external air stream is supplied through an air intake device and a valve, and recirculated air from the room is supplied by an outlet air duct, then it is cleaned of dust in the air filter, and passed through a heat exchanger, an irrigation nozzle chamber with nozzles that intensify the heat and mass transfer process, and by means of a supply fan is fed into the room through an air distribution device, while at least two are installed in the air-conditioned room sensor: a sensor that records humidity in the room, and a sensor for recording temperature, and temperature control in the room is carried out by means of a sensor, which acts on the actuator of the valve installed on the pipeline supplying the coolant to the heat exchanger, and humidity control is carried out by the pulse of the sensor acting on the actuator of the air valve, which allows you to change the ratio of the flow rate of air processed in the nozzle of the irrigation chamber and passed through the bypass channel, with one end the bypass channel is connected to the cavity of the air conditioner to the irrigation chamber, and the other after, after which the air from the room is removed through the air switchgears, and an outlet duct with an exhaust umbrella, while returning part of the recirculated air to the mixing chamber.

Figure 1 presents a diagram for implementing a conditioning method using a two-stage evaporative cooling system, figure 2

i-d is a diagram for the regime of the cold period, figure 3 is a General view of the nozzle for spraying liquids, figure 4 is a section aa of figure 3.

The air conditioner (FIG. 1) for implementing the method of air conditioning with combined indirect cooling consists of a mixing chamber 2, an air filter 3, a heat exchanger 4, an irrigation nozzle chamber 5 with nozzles 18 (FIGS. 3-4), intensifying the heat and mass transfer process. The supply fan 6 supplies air to the room 19 through the air distribution device 14. In the air-conditioned room 19, at least two sensors are installed: a sensor 7, which records the humidity in the room, and a temperature sensor 8 for recording the temperature. To regulate the temperature in room 19, the sensor 8 acts on the actuator of the valve 11 installed on the pipeline supplying the coolant to the heat exchanger 4. Humidity is controlled by the pulse of the sensor 7, acting on the actuator of the air valve 10, which allows you to change the ratio of the flow rate of air processed in the chamber passing through the bypass (bypass) channel 9. The air from the room 19 is removed through the air distribution devices 13, while part of the air, with the appropriate floor When the valves 17 on the outlet duct 12 with the exhaust umbrella 16 are returned, it returns as recirculated air to the mixing chamber 2, where it is mixed with the outside air entering through the air intake device 15 and valve 1.

The centrifugal nozzle (Figs. 3-4) consists of a housing 20 with an inlet 21 of the cover 22 of the sealing gasket 23 between the housing and the cover, a spring 24 located between the cover and the swirl 25, made in the form of an inverted upside down cylindrical cup mounted relative to the housing 20 with an annular gap 26. At least two rows of throttle openings 27 are made in the swirl 25, each row has at least two throttle openings 27 evenly spaced along the annular wall of the swirl 25. In the lower Asti housing 20 is mounted a conical washer nozzle insert 28 made of solid materials: tungsten carbide, ruby, sapphire with a calibrated tapered bore 29 coaxial with the cylindrical surface of the swirler 25, the opening 29 has a reverse taper with a conical washer 28, the insert.

The method of air conditioning with combined indirect cooling is as follows.

In the mixing chamber 2 of the air conditioner, air is prepared for its heat-moisture treatment in the heat exchanger 4 and the nozzle of the irrigation chamber 5 by mixing the following air flows: an external air stream by supplying it through the air intake device 15 and valve 1 and supplying recirculated air from the room 19, where there are no impurities of harmful substances - through the exhaust duct 12, which is mixed with the outside air, acquiring new parameters of the heat-moisture state. Then this air is cleaned of dust in the air filter 3 and passed through a heat exchanger 4, an irrigation nozzle chamber 5 with nozzles 18 intensifying the heat and mass transfer process, and by means of a supply fan 6 is fed into the room 19 through an air distribution device 14. At least 19 are installed in the air-conditioned room at least two sensors: a sensor 7, which records the humidity in the room, and a sensor 8 for recording temperature. The temperature in the room 19 is controlled by means of a sensor 8, which acts on the actuator of the valve 11 mounted on the pipeline supplying the coolant to the heat exchanger 4. The humidity is controlled by the pulse of the sensor 7, acting on the actuator of the air valve 10, which allows you to change the ratio of air flow, processed in the nozzle chamber of the irrigation 5 and passed through the bypass (bypass) channel 9, and connecting one end of the bypass (bypass) channel 9 conditioner tons with a cavity to irrigation chamber 5, and the other - after. The air from the room 19 is removed through the air distribution devices 13, and the outlet duct 12 with the exhaust umbrella 16, while returning part of the recirculated air to the mixing chamber 2.

A feature of this system is that the surface heat exchanger, which performs the function of an air cooler of the first stage in the warm period, has a very developed surface. This is due to the fact that the temperature difference between the treated air and the coolant is relatively small. In the cold period, the temperature difference reaches large values, which ensures its high heat output. At the same time, it turns out to be appropriate to assign to this heat exchanger not only the functions of the I and II stages of heating, but also the function of air heating.

In accordance with the scheme shown in figure 1, the external air through the inlet valve 1 enters the chamber 2, where it is mixed with recirculated air supplied through the channel 12. The air is heated in the heat exchanger 4 and is divided into two streams at the outlet of it: one stream passes through the irrigation chamber 5, and the other is bypassed through the bypass channel 9. In the irrigation chamber isoanthalic humidification of the air is carried out, after which the humidified air enters the mixture with the air passed through the bypass channel. Air is directed into the served room through the channels using a fan. To regulate the temperature in the room, a sensor 8 is used, which acts on the actuator of the valve 11 installed on the coolant supply pipe. Humidity is controlled by the pulse of the sensor 7, acting on the actuator of the air valve 10, which allows you to change the ratio of the flow of air processed in the chamber and passed through the bypass.

The construction of the process on the id diagram (Fig. 2) begins, as usual, with the application of points H and B and the value of the enthalpy of the supply air is calculated, then a line of the process of changing the state of the air to the intersection with the line i _П = const is drawn through point B, as a result which find the position of point P. The points H and B are connected by a straight line, on which they find the point of the mixture C lying at the intersection of this line with the line i _c = const, then through the point C draw the line d _c = const, and through point P the line _P i = const before their mutual crossing at point K (the air after the air parameters heater). At the intersection of the line i _П = const with the curve φ _о = 90-95%, the position of point О is found, which characterizes the state of the part of the air that underwent isoenthalpic humidification in the irrigation chamber.

A centrifugal nozzle for spraying liquids works as follows. The fluid is supplied through the inlet 21 to the annular gap 26, from where to the swirl 25 through the throttling holes 27 tangentially located to the inner surface of the swirl 25. The rotating fluid flow from the swirl 25 exits through a calibrated conical hole 29 of the nozzle insert 28, resulting in a spray of liquid , the root angle of which is determined by the angle of inclination of the conical surface of the hole 29. With an average diameter of the hole 29, which is in the range of 2.5 ... 3.5 mm and the feed pressure my through inlet 21 pressurized liquid 6 ... 9 MPa ensured sputtering from 400 to 1000 kg / h of liquid. The nozzle is easy to manufacture and maintain.

Claims (2)

1. The method of air conditioning with combined indirect cooling, which consists in the fact that the air conditioner performs heat and humidity treatment of the air and delivers it to the room, characterized in that in the mixing chamber of the air conditioner, air is prepared for its heat and moisture treatment in the heat exchanger and spray nozzle by mixing of the following air flows: an external air stream is supplied through an air intake device and a valve, and recirculated air from the room is supplied through an outlet to to the duct, then it is cleaned of dust in the air filter and passed through a heat exchanger, an irrigation nozzle chamber with nozzles that intensify the heat and mass transfer process, and through the supply fan it is fed into the room through an air distribution device, at least two sensors are installed in the air-conditioned room: a sensor that records the humidity in the room, and a sensor for recording the temperature, and temperature control in the room is carried out by means of a sensor that emit to the actuator of the valve installed on the pipeline supplying the coolant to the heat exchanger, and humidity control is carried out by the pulse of the sensor acting on the actuator of the air valve, which allows you to change the ratio of the flow rate of air processed in the nozzle of the irrigation chamber and passed through the bypass channel, with one end the bypass channel is connected to the air conditioner cavity to the irrigation chamber, and the other after, after which the air from the room is removed through the air distribution itelnye device and to an exhaust output duct umbrella, returning the portion of circulating air to the mixing chamber. 2. An air conditioner for implementing an air conditioning method with combined indirect cooling, comprising a mixing chamber, an air filter, a heat exchanger, an irrigation nozzle chamber with nozzles and a supply fan, characterized in that it further comprises at least two sensors installed in the air-conditioned room: a sensor that records the humidity in the room, and a sensor for recording temperature, while the temperature sensor acts on the actuator of the valve installed on the coolant supply pipe to the heat exchanger, and the moisture-sensing sensor acts on the actuator of the air valve, which allows you to change the ratio of the air flow processed in the chamber and passed through the bypass channel, each of the nozzles of the nozzle of the irrigation chamber consists of a housing with an inlet, a cover a sealing gasket between the housing and the cover, a spring located between the cover and the swirl, made in the form of a cylindrical inverted bottom up a takan installed relative to the housing with an annular gap, wherein at least two rows of throttle openings are made in the swirl, and at least two tangential throttle openings evenly spaced along the annular wall of the swirl are made in the swirl, and is installed in the lower part of the housing in the form of a conical washer, a nozzle insert with a calibrated conical hole coaxial with the cylindrical surface of the swirler and a taper inverse to the conicity of the conical washer of the insert.

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