DE8601394U1 - Device for cleaning and/or humidifying and dehumidifying gases, in particular air - Google Patents

Description

Description

The invention relates to a device for cleaning, humidifying or dehumidifying, cooling or heating gases, in particular room air, with at least one stack of plates arranged in a housing, partially immersed in a liquid, rotating about a horizontal axis and wetted by the liquid.

Devices for cleaning and/or humidifying air or gases are known, for example, from the German utility model G 81 34 160.1 or the applicant's German patent no. 33 08 871. The structure and mode of operation of these devices are hereby expressly referred to.* In particular, reference is made to the possibility of air cleaning and humidification by means of a stack of plates rotating in a liquid. The slowly rotating disks of the Pi at tens tape 1s are constantly wetted, so that both air cleaning by adsorption and air humidification can take place.

Defensor AG, Zurich, has developed a humidifier for horizontal ducts called the 5000-V humidifier, which can be used in conjunction with air heaters, warm air heaters, air conditioning systems, etc. The device, which also works on the evaporator principle, is flanged to a duct so that the rotating plates that release moisture protrude into the duct. This allows the air from an air heater, warm air heater or air conditioning system to be humidified as it passes through the duct. The installation instructions for this well-known humidifier state that it should be installed after an air heater if possible, with a hygrostatic control system being provided to keep the relative humidity constant.

The air humidity is measured at the inlet of the device and, depending on the measured value, the air is humidified using the rotating plate stack or not.

The known device has the disadvantage that it can only be operated in conjunction with existing air heaters, warm air heaters or air conditioning systems, whereby the air humidity can be regulated or influenced using the additional humidifier.

The invention is based on the object of creating a compact device for cleaning as well as for influencing the air humidity and the air temperature. The device according to the invention is intended to form a self-contained unit that does not interact with other air heaters, warm air heaters or air conditioning systems. In addition to the possibility of cleaning in accordance with the known devices mentioned at the beginning, the possibility of targeted air humidification, air dehumidification and temperature control of the air should also be provided. The invention is also based on the object of proposing a corresponding method for treating gases or room air.

This object is achieved according to the invention, starting from a device of the type described in the introduction, in that an evaporator of a coolant circuit for gas cooling is provided in the gas inlet area of the device, that the evaporator in the sense of the gas flow in the device is followed by the rotating plate stack for gas cleaning and, in the gas outlet area of the device, a condenser of the coolant circuit for gas heating, and that the relative

Humidity of the gas exiting the device can be varied depending on the cooling of the gas in the evaporator and the heating of the gas in the condenser of the refrigerant circuit. The solution to the further problem is given in the method claim.

The invention is based on the core idea that the device must, in addition to the desired cleaning effect, specifically regulate the air humidity. If non-saturated air at room temperature is allowed to pass a stack of plates wetted with liquid, the air is basically humidified by absorbing liquid according to the cold evaporation principle. Depending on the pollutant content of the air, simple water or water with additional known adsorbents or cleaning agents can serve as the cleaning liquid.

In certain rooms, however, it may be necessary that cleaning must be carried out without any additional increase in humidity. In this case, the well-known Defensor device can be switched on or off using the hygrostat.

According to the present invention, however, the air is cooled to a greater or lesser extent before the cleaning process, so that the air is 100% saturated when it enters the cleaning process using the plate stack and cannot absorb any additional moisture. After the cleaning process using the plate stack, the air is heated again and can be brought to its original humidity. For this purpose, it is necessary that a cooling system is sensibly assigned to the known cleaning process using a plate stack. The humidity, the

Air temperature and the degree of cleaning can be influenced by varying the individual components of the devices according to the invention, such as the evaporator and condenser of the refrigerant circuit, as well as the residence time along the cleaning plates.

Accordingly,

the initially cooled room air is cleaned and then either heated or fed directly into the environment. In the latter case, the refrigerant circuit must have an additional condenser to liquefy the refrigerant. The heat released in this additional condenser can then be dissipated elsewhere if necessary.

The measures listed in the subclaims enable an advantageous further development and improvement of the device specified in the main claim.

According to the development of the invention in subclaim 2, the cooling of the air supplied by the device according to the invention in the evaporator and the heating of the air heated in the condenser or liquefier can be measured and regulated accordingly. This allows any desired humidification or dehumidification as well as temperature control of the air to be set.

According to the embodiment of the invention according to subclaim 3, the refrigerant circuit consists in a manner known per se of an evaporator, a downstream compressor, a condenser or condenser and a throttle connected downstream of the latter.

In a modification of the invention according to subclaim k it is provided that the condenser or condenser in the

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The area of the device's air outlet is not included in the refrigerant circuit, so that an additional condenser or condenser is provided for the refrigerant, the heat from which is dissipated by means of a cooling water control system. In this case, the air exiting the device is not heated back up to the initial level.

The further development of the invention according to subclaim 6 provides that the liquid in the liquid container of the device according to the invention is kept constant by means of a water level regulator. An automatic water inlet and outlet are used to regulate the water level and to change the water.

According to the invention, it is further provided that an automatic addition and/or dosing device for the absorber liquid or other cleaning agents is provided.

An advantageous and practical embodiment of the invention is shown in the drawing and explained in more detail in the following description. The figure shows a longitudinal section through a schematically illustrated device according to the invention.

The device (10) according to the invention has a housing base (12) containing liquid (11), in which a plate stack (13) partially immersed in the liquid rotates with a horizontal axis (14) (arrow 15).

The upper housing section (16) contains a drive motor (17) for a fan (18) and a drive (19) for the plate stacks (13).

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The above design is known from the German utility model CM 8J 34 160 or the German patent specification No. 33 08 871. The cleaning or humidification of the supply air (20) can be carried out accordingly with the device according to the invention.

According to the invention, the device (10) is assigned an additional refrigerant circuit, consisting of an evaporator (21), a compressor (23) connected downstream in the sense of the refrigerant circulation (22), a condenser or condenser (24) in the outlet area of the exhaust air (25) and a downstream throttle (26) for expanding the refrigerant. The evaporator (21) is arranged in the area of the air inlet, the condenser (24) in the area of the air outlet from the device (10) according to the invention.

It is also intended to switch off the condenser or condenser (2') from the refrigerant circuit, so that an additional condenser (27) is provided for condensing the refrigerant. The heat is extracted via a water heat exchanger (28) with cooling water control (29). The valve (30) is used to shut off the refrigerant to the condenser, the valve (31) to shut off the additional line (32).

Additionally provided are a water level regulator with float switch (33) and pipes (34, 35) with shut-off valves (36) for the water supply (37) and drainage (38). A tank with absorber agent (39) with shut-off valve (40) and a tank with cleaning agent (41) with shut-off valve (42) serve for the automatic supply of these cleaning agents.

The device according to the invention works as follows:

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The intake air (20) has a certain humidity and air temperature. This intake air is sucked through the evaporator (21) by means of the fan (18), whereby the intake air cools down and the heat Qj is given off to the coolant in the line (43) of the coolant circuit. The coolant circuit is based on the well-known principle of cold generation, as for example in refrigeration.

; The air cooled in the evaporator (21) within the

&iacgr; Device (10) can due to the lower temperature

absorb less or no moisture at all, since the moisture absorption of the air decreases with decreasing temperature

[ also decreases. Depending on the cooling level of the supply air in the

Evaporator (21) can therefore absorb more or less moisture from the air within the device (10) by wetting the plate stack.

The in the device (10) by means of the rotating

\ Plate stack (13) cleaned air is then discharged at the outlet

from the housing via a condenser or condenser

(24) in which the compressed air in the compressor (23)

The coolant is liquefied again and releases heat to the exhaust air (25), which in turn heats/warms it. s The heat released Q_ can be approximately the same as in the

Evaporator (21) standardized heat Q. so that the supply air and the exhaust air have the same temperature. In this case, the supply air can be cleaned without humidifying the air. ■&igr;

; The refrigerant liquefied in the condenser (24) is then

over the throttle (26) before it is fed back to the evaporator (21). The circuit of the

_;1 refrigerant is indicated by the arrows 22. If

''■ the capacitor (24) is effective, the valve (30)

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opened and the additional capacitor (27) is out of operation.

In an alternative mode of operation, the condenser (24) can be flanged off from the coolant circuit, so that the coolant passes through the line (32) and the open valve (31) to the additional condenser (27), in which the heat Q_, is given off to a water heat exchanger (28) with cooling water control (29). In this case, the supply air (20) cooled in the evaporator (21) is cleaned inside the housing (10) and given off to the environment in the form of exhaust air (25) without additional heating. The device then acts as a cleaning and cooling device, whereby the air humidity is reduced.

With a suitable hygrostat sensor (44, 44') at the outlet or inlet of the device (10), the desired humidity of the exhaust air (25) can be regulated by appropriately regulating the evaporator (21) or the condenser (24). Depending on the position of the valves (30, 31), the condenser (24) and the additional condenser (27) can also be in operation together at the same time in order to influence the heat supply of the exhaust air more or less strongly through the condenser (24). When the condenser (24) is completely switched off, the heat is dissipated exclusively to the cooling water by means of the cooling water control (29).

The water level in the lower part of the housing (12) is regulated by means of the float switch (33). The water is supplied and drained via the pipes (34, 35). The lower part of the housing has thermal insulation (45).

Depending on the type of supply air to be cleaned, the adsorbent medium (39) can be supplied through a valve or

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Dosing device (40). The same applies for other cleaning agents (41) using valves or dosing devices (42).

The invention is not limited to the embodiment; it also includes all technical modifications and further developments of the described and/or illustrated features and measures.

Claims (7)

■Claims: i. Device for cleaning, dehumidifying or dehumidifying, cooling or heating gases, in particular room air, with at least one stack of plates arranged in a housing, partially immersed in a liquid, rotating about a horizontal axis, which can be wetted by liquid, characterized in that in the gas inlet area (20) of the device (10) an evaporator (21) of a coolant circuit (21, 23, 24, 26) for gas cooling is provided, that the evaporator (21) in the sense of the gas guidance in the device (10) is followed by the rotating stack of plates (13) for gas cleaning and this in the gas outlet area (25) of the device (10) is followed by a condenser (24) of the coolant circuit for gas heating, and that the relative humidity of the gas (25) emerging from the device (10) depends on the cooling of the gas (20) in the evaporator (21) and heating of the gas (25) in the condenser (2U) of the refrigerant circuit. 2. Device according to claim 1, characterized in that the cooling of the supply air (20) in the 2 .' Evaporator (21) and/or the heating of the exhaust air (25) in the condenser (24) is controllable. 3. Device according to claim 1, characterized in that the refrigerant circuit (21, 23, 24, 26) consists of an evaporator (21) in the gas inlet region (20) of the device (iO), a compressor (23) connected downstream in the direction of the refrigerant flow (22), the condenser (24) arranged in the gas outlet region (25), and a throttle (26) connected downstream of the latter. 4. Device according to claim 3, characterized in that a further additional condenser (27) with heat exchanger (28) and cooling water control (29) for the coolant is connected in parallel to the condenser (24). 5. Device according to claim 4, characterized in that the condenser (24) in the gas outlet region (25) of the device (10) can be separated from the refrigerant circuit by means of a shut-off valve (30), wherein the compressor (23) is connected to the additional condenser (27) via a connecting line (32). 6. Device according to one or more of the preceding claims 1 to 5, characterized in that the liquid container (12) of the device (10) has a water level regulator with float switch (33) and automatic water supply (34) and drainage (35). 7. Device according to one or more of the preceding claims 1 to 6, characterized in that the device has an automatic addition and/or · · Dosing device (fO, 12) for absorber liquid (39) and/or cleaning liquid or cleaner (41)