RU2229659C1 - Air disinfection device for indoor air conditioning systems - Google Patents

Abstract

FIELD: air conditioning and disinfecting systems. SUBSTANCE: device has at least one air heating unit and one fan, regenerative heat-transfer apparatus with at least one hot air passage and at least one cooled air passage, as well as heat pump with air passage, all passages being communicating with at least one channel of regenerative heat-transfer apparatus. EFFECT: minimized power requirement for air disinfection. 35 cl, 22 dwg

Description

The invention relates to means for air purification and is intended for use in air conditioning systems.

Millions of people suffer from allergies, asthma and other diseases caused by microbes and bacteria contained in indoor air.

A known method of neutralizing air in air conditioners, in which the air flowing into the atmosphere is treated with ozone. However, this method requires the use of ozone generators having a low resource and high cost.

A device for air disinfection (SN, A, 537191) is known, in which the destruction of microorganisms harmful to humans occurs by heating the air with a heater, while reducing the power consumed by the heater is achieved through the use of a regenerative heat exchanger. However, to ensure temperatures sufficient to kill microorganisms, it is necessary to use sufficiently powerful heaters, which leads to a significant increase in the cost of the air disinfection process, especially at high air flow rates pumped through the disinfection device.

The present invention is based on the task of developing an air disinfection device for air conditioning systems, the structural design of which would allow thermal decontamination of air with minimal energy costs.

The problem is solved in that the air disinfection device for air conditioning systems containing at least one air heating device and one fan and a regenerative heat exchanger with at least one channel for heated air and at least one channel for cooled air, according to the invention further comprises a heat pump with a channel for air flow communicating with at least one of the channels of the regenerative heat exchanger.

Using a heat pump can significantly reduce energy costs and, in particular, the energy consumption spent on heating the air in air disinfection plants by using the heat of the air outside.

To expand the ability to control the temperature of the air at the outlet of the air disinfection unit in the air disinfection device, the heat pump is configured to switch the direction of the heat flow to or from the channel for air flow.

In the case when it is necessary to disinfect the air in the proposed device for air disinfection after passing through the heat pump, the mutual sequential arrangement of the elements in the direction of air movement can be carried out in the following five ways.

1. A fan, a channel for the air flow of the heat pump, a channel for heated air, an air heating device and a channel for cooled air.

2. A channel for the air flow of the heat pump, a channel for heated air, an air heating device, a channel for cooled air and a fan.

3. A channel for the air flow of the heat pump, a fan, a channel for heated air, an air heating device and a channel for cooled air.

4. A channel for the air flow of the heat pump, a channel for heated air, a fan, an air heating device and a channel for cooled air.

5. A channel for the air flow of the heat pump, a channel for heated air, an air heating device, a fan and a channel for cooled air.

At the same time, the choice of one or another variant of the arrangement of the elements of the air disinfection device from those listed above may be due to design requirements (ease of layout, size of elements, minimal noise, the ability to place a fan in hot air, etc.).

In the case when in the proposed device for air disinfection it is necessary to neutralize the air before passing through the channel for the air flow of the heat pump, the mutual sequential arrangement of the elements in the direction of air movement can be carried out in the following five ways.

1. A fan, a channel for heated air, an air heating device, a channel for cooled air and a channel for the air flow of the heat pump.

2. A channel for heated air, a fan, an air heating device, a channel for cooled air and a channel for the air flow of the heat pump.

3. The channel for the heated air, the device for heating the air, the channel for the cooled air, the fan and the channel for the air flow of the heat pump.

4. A channel for heated air, a device for heating air, a channel for cooled air, a channel for the air flow of the heat pump and a fan.

5. A channel for heated air, an air heating device, a fan, a channel for cooled air and a channel for the air flow of the heat pump.

In the above options, the presence of decontaminated air in the heat pump is ensured, which, due to the presence of condensed moisture, is the most favorable zone for the growth of bacteria and microbes.

In cases where it is possible to arrange a channel for the air flow of the heat pump in the high-temperature zone after the channel for the heated air of the regenerative heat exchanger in the air disinfection device, the following five schemes of mutual sequential arrangement of elements in the direction of air movement are most optimal from the energy point of view.

1. Fan, channel for heated air, channel for air flow of the heat pump, air heating device, channel for cooled air.

2. A channel for heated air, a fan, a channel for the air flow of the heat pump, an air heating device and a channel for cooled air.

3. A channel for heated air, a channel for the air flow of the heat pump, a fan, an air heating device and a channel for cooled air.

4. Channel for heated air, channel for air flow of the heat pump, air heating device, fan and channel for cooled air.

5. Channel for heated air, channel for air flow of the heat pump, air heating device, channel for cooled air and a fan.

In these schemes, the air heating device and the channel for the air flow of the heat pump are located in the zone of the highest temperatures, so the power of the air heating device can be minimal compared to all other options for the relative positioning of the elements of the air disinfection device.

With the above options for the location of the elements of the air disinfection device, an electric heater can be installed as an air heating device.

The air disinfecting device may additionally contain at least one device for purifying air from impurities, which, depending on the above options for the sequential arrangement of elements, can be placed along the air flow to the heat exchanger channel for the heated air, or to the fan, or to the channel for air flow heat pump, or after the channel for the cooled gas recuperative heat exchanger.

Various options for the placement of devices for cleaning air from impurities are due to the design features of these devices (type of devices used, features of air supply to them, the possibility of horizontal or vertical arrangement, etc.).

As a device for cleaning the air flow from impurities, a filter can be installed in the air disinfection device.

To regulate the air temperature in the channel for the air flow in the air disinfection device, an air mixing device or an air discharge device can be installed in the direction of air movement before or after the air heating device, respectively.

The air disinfection device may be equipped with a gas temperature controller at the outlet of the air heating device.

In addition, for simplicity and space saving, an air heating device can be installed in one of the channels of the regenerative heat exchanger, and if there are at least two devices for heating air, they are installed in at least two channels of the regenerative heat exchanger.

The inner surfaces of the channels of the recuperative heat exchanger and the channel for the air flow can be coated with a surface-active material that destroys microorganisms, for example, from salts or metal oxides.

The total surface area separating the channels for the heated and cooled gases F ₁ is chosen such that F ₁ / F ₂ > 5, where F ₂ is the total cross-sectional area of the channels for the heated and cooled gases of the regenerative heat exchanger. When this ratio is fulfilled, it is possible to ensure effective heat transfer between the heated and cooled air in the heat exchanger.

Since the heat fluxes in the recuperative heat exchanger are negligible, the heat exchanger can be made of plastic or fiberglass.

For ease of installation and operation of the device, a recuperative heat exchanger, a fan, an air heating device and a channel for the air flow of the heat pump can be placed in a common housing, or a recuperative heat exchanger and an air heating device are placed in a separate prefix to the heat pump.

In the future, the invention is illustrated by specific examples of its implementation and the accompanying schemes, in which:

figure 1 depicts a structural diagram of a device for disinfecting air with the location of its elements according to one of the options;

figure 2-15 - various diagrams of the sequential arrangement of the elements of the air disinfection device;

Fig. 16 is a diagram of an air disinfection device with one possible arrangement of air purification devices from impurities;

Fig is a diagram of an air disinfection device with the placement of an air heating device in the channels of a regenerative heat exchanger;

Fig.19-19 is a diagram of a device for disinfecting air with a different arrangement of a device for mixing air from the atmosphere and a device for discharging air into the atmosphere;

Fig. 20 is a diagram of an air disinfection device with one possible arrangement of a gas temperature controller;

21 is a diagram of an air disinfecting device with a recuperative heat exchanger, a fan, an air heating device and a channel for a heat pump air duct in a common housing;

Fig. 22 is a diagram of an air disinfecting device with a recuperative heat exchanger and an air heating device in a separate prefix to a heat pump.

An air disinfection device for air conditioning systems according to the invention comprises a fan 1 (Fig. 1), a heat pump 2 with a channel 3 for air flow, a regenerative heat exchanger 4 with channels 5 for the heated gas and channels 6 for the cooled gas, and an air heating device 7. The heat pump 2 contains, for example, an indoor heat exchanger 8, an outdoor heat exchanger 9, a compressor 10 for compressing freon or refrigerant, a thermostatic valve 11, a fan 12, while the channel 3 for the air flow is part of the heat exchanger 8.

The sequential arrangement of the elements of the air disinfection device in the direction of gas movement may be different. Figure 2-15 shows various diagrams of the relative positions of the elements of the air disinfection device in the direction of air movement.

So, for example, figure 2-5 presents options in which the heat pump 2 is installed before the channel 5 for the heated gas, and the device 7 for heating the air after it, while the fan 1 can be placed after channel 6 (figure 2) or in front of channel 5 (FIG. 3), or between channel 5 and device 7 (FIG. 4), or between device 7 and channel 6 (FIG. 5).

In the variants shown in Fig.6-10, the heat pump 2 is installed after the channel 6, and the device 7 for heating the air after the channel 5, while the fan 1 can be placed at the inlet of the device, to the channel 5 (Fig.6) or after the channel 5 (Fig. 7), or between the heat pump 2 and the channel 6 (Fig. 8), or at the output of the device, after the heat pump 2 (Fig. 9), or between the device 7 and the channel 6 (Fig. 10).

11-15 show options in which the heat pump 2 is installed between the channel 5 and the device 7, while the fan 1 can be placed at the input of the device, in front of the channel 5 (11) or between the channel 5 and the heat pump 2 ( 12), or between the heat pump 2 and device 7 (FIG. 13), or between device 7 and channel 6 (FIG. 14), or at the output of the device after channel 6 (FIG. 15).

The air disinfection device for air conditioning systems may also contain at least one device 13 for cleaning air from impurities, which can be placed along the air flow to the channel 6 or to the fan 1, or to the heat pump 2. If there is a second device for cleaning air from impurities it can be placed after the channel 6. On Fig shows one of the possible layout of devices 13 for cleaning air from impurities.

On Fig shows a diagram of an air disinfection device, in which there are two devices 7 for heating the air, which are placed in the channels 5 and 6 of the heat exchanger 4. If you use two or more channels 5 and 6 in the heat exchanger 4, additional devices 7 for heating the air are installed in each from the channels.

The proposed disinfection device may include a device 14 (Fig. 18) for mixing air from the atmosphere, which for any arrangement of elements is placed in the direction of air movement to the device 7 for heating the air or device 15 (Fig. 19) for discharging air into the atmosphere, installed in the direction of movement air after the device 7 heating the air.

The proposed device for air disinfection for air conditioning systems works as follows.

The air drawn in from the room enters the fan 1 (Fig. 1) and then passes through the channel 3 of the heat pump 2. The operation of the heat pump 2 provides the required level of air temperature at the outlet. Next, the air sequentially enters the channel 5 for the heated air of the regenerative heat exchanger 4, the air heating device 7 and the channel 6 for the cooled gas of the regenerative heat exchanger 4.

The heat pump in heating mode operates as follows.

Gaseous freon is compressed in the compressor 10 to a pressure of 10-25 atm and sent to an indoor heat exchanger 8, in which gaseous freon, having a temperature of ~ 70-100 ° C, is cooled to a temperature of ~ 20-40 ° C and condenses by pumping air through a heat exchanger 8, in this case, the air pumped through the air disinfection device is heated. Further, the liquid freon passes through a thermostatic valve 11, in which its pressure drops from ~ 10-25 atm to ~ 3-5 atm, and enters the outdoor heat exchanger 9. In the heat exchanger 9, the liquid freon evaporates due to the circulation of atmospheric air outside the room provided by the fan 12. After the heat exchanger 9, the freon gas is again sent to the compressor 10, while the heat exchanger 9 acts as a freon evaporator, and the heat exchanger 8 acts as a freon condenser.

In the case of using a heat pump 2 with the possibility of switching the direction of the heat flow to the channel 3 for the duct or from it, it is possible to switch the heat pump 2 from the above mode to the cooling mode. In this case, in comparison with the heating mode, freon is circulated in the reverse order. In cooling mode, the heat exchanger 9 acts as a freon condenser, and the heat exchanger 8 acts as a freon evaporator.

When the power N _{1 of the} device 7 is heating the air, the flow rate G of the gas pumped through it, the heat capacity C _{p of the} gas, the gas temperature when passing through the heating device rises by a value of Δ ₁ equal to:

With the passage of air through the channel 5 for the heated gas, the gas temperature will increase by:

where N ₂ is the heat transfer capacity provided by the regenerative heat exchanger 4.

The value of N ₂ can be calculated from the conditions:

where t ₂ , t ₁ - gas temperature at the inlet and outlet of channel 6 for the cooled gas of the heat exchanger 4;

t ₄ , t ₃ - gas temperature at the inlet and outlet of the channel 5 for the heated gas of the heat exchanger 4, respectively.

The gas temperature at the inlet to the channel 6 of the heat exchanger for the cooled gas will be:

Relations (3) - (4) obviously follow from the law of conservation of energy.

The value of N ₂ (and, therefore, Δ ₂ ) is determined by the design of the heat exchanger 4 (for an ideal heat exchanger it can be arbitrarily large).

As follows from relation (4), even with a very low power of the air heating device 7, by choosing the design of the heat exchanger 4 it is possible to provide a large value of t ₂ sufficient to kill bacteria in the air after the air heating device 7.

Additional heating of the air can also be carried out in the channels 5 and 6 of the heat exchanger 4 by installing an additional device 7 for heating the air.

To ensure air purification from impurities, air purification devices 13 from impurities can be installed in the air disinfection device. The choice of installation location of an additional gas purification device from impurities is determined by design requirements, such as ease of layout, minimal noise, etc.

To prevent overheating of the structural elements of the air disinfection device, it is possible to apply air heating control to maintain the gas temperature t at the outlet of the air heating device 7 in the range T ₁ <t <T ₂ , where T ₁ is a temperature value sufficient to guarantee the destruction of microorganisms and bacteria and the value of T ₂ is the largest value of the gas temperature at the outlet of the additional air heating device 7, permissible for continuous operation of the design of the air disinfection device.

To prevent air overheating, it is possible to mix cold air from the atmosphere in a controlled manner until air enters the air heating device 7 and maintain the temperature t at the outlet of the air heating device 7 in the range T ₁ <t <T ₂ (see Fig. 18).

It is also possible to control the removal of part of the heated air stream or the entire stream into the atmosphere after the air heating device 7 and maintaining the gas temperature after the air heating device 7 in the range T ₁ <t <T ₂ (see Fig. 19).

When the values of the regulated temperatures t of the air flow in the intervals T ₁ > t or 1> T ₂ , the power supply to the units of the air disinfection device is turned off.

To ensure guaranteed neutralization of air, the air disinfection device can be equipped with a regulator 16 (Fig.20) of the gas temperature at the outlet of the air heating device.

The placement of the recuperative heat exchanger 4, fan 1, air heating device 7 and channel 3 for the air flow of the heat pump in a common housing 17, as shown in Fig.21, provides ease of installation of the device. If it is necessary to supply the heat pump 2 with or without a disinfection device, the regenerative heat exchanger 4 and the air heating device 7 can be placed in a separate prefix 18 (Fig. 22) to the heat pump 2.

Claims (35)

1. An air disinfection device for air conditioning systems, comprising at least one air heating device and one fan, a regenerative heat exchanger with at least one channel for heated air and at least one channel for cooled air, characterized in that it further comprises a heat pump with a channel for air flow in communication with at least one of the channels of the regenerative heat exchanger. 2. The device according to claim 1, characterized in that the heat pump in it is configured to switch the direction of the heat flow to the channel for air flow to or from it. 3. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a fan, a channel for the air flow of the heat pump, a channel for heated air, an air heating device and a channel for cooled air are arranged in series. 4. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a channel for the heat pump air flow, a channel for heated air, an air heating device, a channel for cooled air and a fan are sequentially placed. 5. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a channel for the air flow of the heat pump, a fan, a channel for heated air, an air heating device and a channel for cooled air are sequentially placed. 6. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a channel for the air flow of the heat pump, a channel for heated air, a fan, an air heating device and a channel for cooled air are sequentially placed. 7. A device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a channel for the air flow of the heat pump, a channel for heated air, an air heating device, a fan and a channel for cooled air are sequentially placed. 8. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a fan, a channel for heated air, a device for heating air, a channel for cooled air and a channel for air flow of the heat pump are arranged in series. 9. A device according to any one of claims 1 and 2, characterized in that a channel for heated air, a fan, an air heating device, a channel for cooled air and a channel for air flow of the heat pump are sequentially arranged in the direction of air movement. 10. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a channel for heated air, a device for heating air, a channel for cooled air, a fan and a channel for air flow of the heat pump are sequentially placed. 11. The device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a channel for heated air, a device for heating air, a channel for cooled air, a channel for air flow of a heat pump are sequentially placed. 12. A device according to any one of claims 1 and 2, characterized in that a channel for heated air, a device for heating air, a fan, a channel for cooled air and a channel for air flow of the heat pump are sequentially arranged in the direction of air movement. 13. A device according to any one of claims 1 and 2, characterized in that in the direction of air movement, a fan, a channel for heated air, a channel for the air flow of the heat pump, an air heating device, a channel for cooled air are arranged in series. 14. The device according to any one of claims 1 and 2, characterized in that the channel for heated air, the fan, the channel for the air flow of the heat pump, the air heating device and the channel for cooled air are sequentially placed in the direction of air movement. 15. A device according to any one of claims 1 and 2, characterized in that a channel for heated air, a channel for air flow of the heat pump, an air heating device and a channel for cooled air are sequentially arranged in the direction of air movement. 16. A device according to any one of claims 1 and 2, characterized in that a channel for heated air, a channel for air flow of the heat pump, an air heating device, a fan and a channel for cooled air are sequentially placed in the direction of air movement. 17. The device according to any one of claims 1 and 2, characterized in that the channel for heated air, the channel for the air flow of the heat pump, the device for heating air, the channel for cooled air and a fan are sequentially placed in the direction of air movement. 18. The device according to any one of claims 1 to 17, characterized in that an electric heater is installed as an air heating device. 19. The device according to any one of claims 1 to 18, characterized in that it further comprises at least one device for cleaning air from impurities. 20. The device according to claim 19, characterized in that the device for cleaning air from impurities is placed along the air to the channel for heated air. 21. The device according to any one of paragraphs.19 and 20, characterized in that the device for cleaning air from impurities is placed along the air to the fan. 22. The device according to any one of paragraphs.19-21, characterized in that the device for cleaning air from impurities is placed along the air flow to the channel for the air flow of the heat pump. 23. The device according to any one of paragraphs.19-22, characterized in that the device for cleaning air from impurities is placed along the air flow after the channel for the cooled gas of a regenerative heat exchanger. 24. A device according to any one of paragraphs.19-23, characterized in that a filter is installed as a device for cleaning air from impurities. 25. The device according to any one of claims 1 to 24, characterized in that it contains a device for mixing air from the atmosphere, which is placed in the direction of air movement to the air heating device. 26. The device according to any one of claims 1 to 25, characterized in that it contains a device for discharging air into the atmosphere, placed in the direction of air movement after the air heating device. 27. The device according to any one of claims 1 to 26, characterized in that it is equipped with a gas temperature regulator at the outlet of the air heating device. 28. The device according to any one of claims 1 and 2, characterized in that the device for heating air is installed in one of the channels of the regenerative heat exchanger. 29. The device according to p. 28, wherein in the presence of at least two devices for heating air, they are installed in at least two channels of the regenerative heat exchanger. 30. The device according to any one of claims 1 to 29, characterized in that the surface of the channels of the regenerative heat exchanger is coated with a surfactant that destroys microorganisms. 31. The device according to any one of claims 1 to 30, characterized in that at least a portion of the inner surfaces of the channel for air flow are coated with a surfactant that destroys microorganisms. 32. The device according to any one of claims 1 to 31, characterized in that the total area F _{1 of the} surface separating the channels for the cooled gas and for the heated gas of the regenerative heat exchanger is selected such that F ₁ / F ₂ > 5, where F ₂ - the total cross-sectional area of the channels for the cooled gas or channels for the heated gas. 33. The device according to any one of claims 1 to 32, characterized in that the recuperative heat exchanger is made of plastic or fiberglass. 34. The device according to any one of claims 1 to 33, characterized in that the recuperative heat exchanger, fan, air heating device and channel for the air flow of the heat pump are located in a common housing. 35. The device according to any one of claims 1 to 33, characterized in that the regenerative heat exchanger and the air heating device are placed in a separate prefix to the heat pump.

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