DE4320705C2 - Method and device for air conditioning - Google Patents

Description

The invention relates to a method for air conditioning one or more rooms where for cooling too only by absorbing moisture in one a circulated liquid operating medium in an absorber dried air then moistened and in the air-conditioned Space is let in, after which the operating medium in a desorption regenerator a heating evaporating the absorbed water is generated, with an aqueous as the operating medium Saline solution is used, and a device for Air conditioning of one or more rooms, consisting of a circuit for an operating medium in the form of an aqueous salt solution, in which absorber for air moisture and a desorption Regenerator are arranged, the absorber one Humidifier is connected and the regenerator on a heat source is connected.

Air conditioning in many rooms of a building So far, this has been done by a centrally arranged Refrigeration generator that removes the room air from rooms to be cooled Deprives heat. That is with compression chillers as is the case with open sorption systems that with solid adsorbers such as silica gel, zeolite or the like with liquid adsorbers in the form of calcium salt solutions  have become known from EP 0 354 908 A2, work. The central refrigeration has in the state of the Technical facilities and provides technical advantages Space and space savings compared to known decentralized ones Plants, especially since the central plant on otherwise only badly usable places can be accommodated.

Compression refrigeration machines work with more expensive ones electrical energy and are used for the best possible Use as a central energy block. It is also the air conditioning of individual rooms on its own known by electrically operated chillers that not only work more ineffectively, but even if they are not scheduled when building the building were used in window openings and the The exterior of the building is disgraceful and substantial Spread noise levels.

The refrigeration works with open sorption systems through the possibility of process heat or night electricity to use, energetically and economically cheaper (DE-Z TAB 5/89, page 401-407). However, the space requirement is considerably, especially when working considerable amounts of adsorber material with night current are stored. The previously used adsorbent Operating resources are also not characterized by a high level Storage capacity, which further increases the space requirement. Solid materials are usually used as the absorber material such as silica gel (DE-Z sbz 17/1991, pages 52 and 54) or Chlorcalcium or aluminum oxide (DE-Z GI 1952 pages 120-124) in use as liquid adsorber materials  dehumidification, sulfuric acid, glycerin, Triethylene glycol and lithium chloride used (DE-Z GI 1952 pages 120-124). DE-Z sbz 1991, pages 52 and 54 describes the thermodynamic principles of dehumidification with lithium bromide and lithium chloride solutions.

The air conditioning with a centrally arranged Refrigerator is in some cases, especially in Hospitals or warehouses for against bacteria sensitive goods u. a., because of the kidnapping of Germs and bacteria are problematic. The use of conventional filters such as those used by Recknagel, Sprenger, Hönmann, paperback for heating and air conditioning technology 1987, pages 982, 983, also from Special filters, only brings an imperfect here Remedy.

The invention avoids the disadvantages of the prior art Technology. It is the object of the invention with simple Chen means an opportunity with a simple, space The air conditioning system can be produced economically and economically Requirements for cooling with inexpensive To create waste heat sources centrally, but the cold even then decentrally and individually according to the Requirements in the rooms to be air-conditioned produce.  

This problem is solved by a method in which in conjunction with the features of the preambles of claim 1 as an absorbent Lithium chloride solution is used, its salinity on the way from the regenerator to the absorber 25-35 % By weight and on the way from the absorber to the Regenera Tor is around 18 wt.% That the regenerated Pre-cooled solution atomized in the air flow to be cooled in the absorber, after seeing this air flow in a filter system Has removed dust, pollen and smells and that in the Air flow remaining solution residues in a drop separator from the air flow.

This process is carried out in a device which is related to the characteristics of the generic terms of claim 5, characterized in that the operating medium is a lithium chloride solution whose salinity is based on the path from the regenerator to the absorber 25-35% by weight, preferably 29% by weight and on the way from the absorber to the regenerator 18% by weight is that behind the absorber is a chamber serving as a humidifier is arranged with a nebulizer that  before the air flow enters the absorber Dust, pollen and odors that remove airflow Filter system is arranged and that at the outlet of the air flow A droplet separator is arranged from the humidifier is.

The special thing is that the operating medium used through exact concentration and desorption positions and through a particularly high storage capacity distinguishes what allows the system to be small build so that it takes up little space. Through the Using cleaned air is working with this Operating medium has become possible because in this way it is achieved that the operating medium has a long Le has a lifespan and not prematurely due to foulness is to be exchanged. The special thing is that it is possible wide spatial separation of regeneration and AK Activation of the heat stored during regeneration. This makes it possible to meet the main space requirement (for cleaning, regeneration and storage rain solution) to an otherwise difficult to use Place to move and activation of the saved Cold with minimal space requirement in the air conditioning rooms themselves and thereby everyone Transport of bacteria, germs, dust and smells in to make other rooms impossible, although in one of them in the open circuit. Even the individual Setting the desired in the individual rooms Temperatures are facilitated in this way possible. This leads to further energy savings.  

The procedure here is that of a regeneration device several in different rooms brought absorbers connected, which one then individually can control in their operation.

It is advantageous if the desorption a temperature between 50 and 65 ° C, preferably at Performs 56-58 ° C. At these temperatures you can take advantage of a whole range of waste heat sources.

To take up little space in the room to be air-conditioned say, the equipment is nebulized in the absorber This can be done with nozzles, but it has proved more expedient that the nebulizer tion is a rotating plate on its surface a supply pipe for the operating medium is directed and its surface expediently still with demolition edges is provided to intensify the nebulization ver.

The humidifier is operated in a similar way: The moistening device is advantageously with a rotating plate on the one Water jet is directed in the rotation in Aerosols is torn.

In terms of construction, it may be advantageous for the humidifier and the absorber housed in a common housing are brought.

For the control of the system, it is advantageous if  in the line leading from the absorber to the regenerator and / or the one leading from the regenerator to the absorber Line for the equipment, a sensor for its Salt concentration is arranged.

The entire system can work fully automatically, though a processor for controlling the air conditioning is provided at the inputs

• - Air conditioning sensor for temperature the room
• - Measuring device for the salt concentration in the lei for the equipment between the absorbers and regenerator
• - Sensor for the moisture at the absorber outlet and at the humidifier outlet
• - A selector for the Room temperature and / or the air humidity in the room

and at its exits

• - the drive motor for air circulation
• - The drive motor for the solution circulation
• - Valves in the circulating air mixer - fresh air
• - Valve in the water supply to the humidifier

are connected.

With individual control of the air conditioning different rooms, it is advantageous if for everyone Space a controller, e.g. B. in the form of a room thermostat ten, which is a valve in the absorber or Be damp leading pipe controls, or an individu eller control circuit is provided in the processor on the  input of a temperature sensor housed in the room and a temperature selector is connected.

It is advantageous if pocket filters are used as dust filters EU 3-7, preferably EU 5 are used if in Pollen filter with at least one polyalcohol preferably glycerin, soaked fleece is used and if as an odor adsorber one with activated carbon coated and in a second layer with zinc vicinoleate soaked fleece is used.

In terms of energy, the system works even more cheaply if Absorber above the nebulizer Cooling device is arranged.

If you no longer want to cool in winter, but the system with its air ducts and its filter system should be used for space heating, it is advisable to arrange a heater 34 in the humidifier above the nebulizer.

The invention is based on an in the drawing shown schematically game explained in more detail. Show it:

Fig. 1 is a circuit diagram of a room air conditioning system.

Fig. 2 is a circuit diagram of a plurality of rooms air-conditioning the system.

Fig. 3 is a circuit diagram of an individual air-conditioning system.

Fig. 4 is a view of the Flü gelrades used for nebulization.

The device for air conditioning one or more rooms 1 consists, on the one hand, of a circuit consisting of an absorber 5 ( FIG. 1) or a plurality of absorbers 51 , 52 ( FIG. 2), each with a downstream humidifier 7 and regenerator 6 , through the pipes 2 , 3 , 4 and in which an operating medium circulates in the form of an aqueous salt solution, and on the other hand from a circle leading through the absorber (s) 5 , 51 , 52 and the humidifier (s) 7 , in which through the pipes 11 , 13 , 37 , 38 air extracted from the room 1 by means of the fan 14 after treatment in this circuit is returned to the room 1 .

An absorber 5 ( FIG. 1) or a plurality of absorbers 51, 52 ( FIG. 2) for the absorption of atmospheric moisture and a regenerator 6 performing a desorption are arranged in the first-mentioned circuit. Each absorber 5 , 51 , 52 is followed by a humidifier 7 , in which the air dried in the absorber 5 is humidified while removing heat. The regenerator 6 is connected to a heat source 8 .

The operating medium is a lithium chloride solution, the salt content of which on the way from the regenerator 6 into the absorber 5 through the pipes 3 , 4 is approximately 25-35% by weight, where crystallization of the salt in solution is reliably avoided, and on the way from the absorber 5 into the regenerator 6 through the pipe 2 is around 18% by weight. The be in the circuit of the tubes 2 , 3 , 4 sensitive salt solution is circulated by a pump 17 and cooled in the heat exchanger 18 , since it had been heated in the regenerator 6 for the purpose of dehydration, but in the absorber 5 , 51 , 52 but the lowest possible temperature should have.

The downstream of the absorber 5 , serving as a humidifier 7 is equipped with a nebulizing device, which is realized by a rotating plate 9 , on the surface of which tear-off edges 10 are formed ( FIG. 4).

The air flow is led from the room 1 to be air-conditioned through the pipeline 11 in the second circle mentioned above to the absorber 5 . Before the entry of the air flow into the absorber 5 , a dust, pollen and odors from the air flow extracting filter system 12 are arranged, which is connected via the line 13 to the absorber 5 . In the pipe 11 , an air flow generating fan 14 is installed. The air flow ver then runs from the absorber 5 further via a droplet separator 15 arranged at the output of the absorber 5 , which serves to collect drops of the saline solution and which leads back into its circulation. The air flow reaches ge from the absorber 5 in the humidifier 7 , in which the air dried in the absorber 5 is cooled by humidification. The air leaving the humidifier 7 is introduced into the room 1 as cold air.

A cooling device 33 can expediently be arranged in the space under the droplet separator 15 . In addition, it may be advantageous to provide a heater 34 in the humidifier 7 so that the system with its air cleaning in winter operation when the absorber 5 and the regenerator 6 are not in operation can serve to heat the room.

The nebulizer in the absorber 5 is a ro tier plate 9 , on the surface of the supply pipe 31 is directed for the operating medium. In a similar way, the moistening device 7 is equipped with a rotating plate 9 as a nebulization device, onto which a water jet from the tube 19 is directed.

The humidifier 7 and the absorber 52 may be accommodated in a common housing 20, as Fig. 2 shows in space C 1. Absorber 51 and the humidifier 7 may be housed in different rooms, as shown by the areas A 1 and B 1. An absorber 52 (Room 1 C) may be associated with a single humidifier 7, but it can be ordered to an absorber 51 and a plurality of humidifier 7 as based on area 1 A and 1 B is shown.

For a control of the system, it is useful if in the leading from the absorber 5 to the regenerator 6 Lei device 2 and / or the line 4 leading from the regenerator 6 to the absorber 5 for the equipment, a transmitter 21 is arranged for its salt concentration.

There is also the possibility, as shown in FIG. 3, to assign a combination of absorber-humidifier-air filter to each room 1 A, 1 B, 1 C and to carry out the regeneration of the salt solution coming from the absorbers 5 in a common regenerator 6 . Each combination absorber-humidifier-air filter is in this case a separate ter air inlet and outlet assigned with valves 27 , 28 , 35 , 36 and a mixer 26 , which are arranged in a separate circuit and each have a separate fan 14 . This possibility has the advantage that each room 1 A, 1 B, 1 C retains its air and the air does not penetrate from one room into another room. B. in hospitals is set and there has the further advantage that the filter exchange can be carried out more easily because of the use of smaller filters.

It is expedient to provide a processor 22 for controlling the air conditioning, at the inputs thereof

• - Sensor 23 for the temperature in the room to be air-conditioned
• - Transmitter 21 for the salt concentration in the lines 2 , 4 for the operating medium between the absorber 5 and the regenerator 6
• - Transmitter 24 for the moisture at the absorber outlet and at the humidifier outlet
• - A selector 25 for the room temperature, air humidity in the room

and at its exits

• - The drive motor of the fan 14 for air circulation
• - The drive motor of the pump 17 for the solution circulation
• - Valves 27 , 28 in the mixer 26 circulating air - fresh air
• - Valve 29 in the water pipe 19 to the humidifier 7

are connected.

With individual control of the air conditioning of different rooms 1 , a control, preferably in the form of a room thermostat 23 , can also be provided for each room 1 , which has a valve 30 in the supply pipe 31 leading to the absorber 5 or a valve 29 in the water pipe leading to the humidifier 7 19 controls.

There is also the possibility that is provided for each indi vidually space to be conditioned 1, an individual control circuit in the processor 22, to whose input a accommodated in the space 1-temperature measuring sensor 23 and a temperature selector is connected 25th

The filter system is expediently constructed in such a way that that as a dust filter pocket filter EU 3-7, preferably EU 5 use that in the pollen filter with at least one polyalcohol, preferably glycerin, impregnated fleece is used and that as Odor adsorber a coated with activated carbon and in second layer of fleece soaked with zinc vicinoleate  is applied.

A further energetic improvement of the system can be achieved in that a cooling device 33 is arranged in the absorber 5 above the nebulizing device 9 .

For winter heating of the building to be air-conditioned, it is advantageous if a Heizvor device 34 is arranged in the humidifier 7 above the nebulizer 9 .

Reference list

1 room
2 pipe
3 pipe
4 pipe
5 absorbers
6 regenerator
7 humidifiers
8 heat source
9 rotating plate
10 tear-off edge
11 pipeline
12 filter system
13 line
14 fan
15 droplet separators
17 pump
18 heat exchangers
19 water pipe
20 housing
21 sensors
22 processor
23 Temperature sensor / room thermostat
24 humidity sensors
25 selector
26 mixers
27 valve
28 valve
29 valve
30 valve
31 supply pipe
32 blowers
33 cooling device
34 heater
35 inlet valve
36 exhaust valve
37 tube
38 tube
51 absorber
52 absorbers
1 A room
1 B room
1 C room

Claims (22)

1. method for air conditioning one or more rooms,
in which for the cooling air is first humidified by absorption of atmospheric moisture on a circulating liquid operating medium in an absorber and then let into the room to be air-conditioned,
after which the operating medium is regenerated in a desorption regenerator by heating evaporating the absorbed water,
an aqueous salt solution is used as the operating medium,
characterized,
that absorber and regenerator are housed in different rooms,
that a lithium chloride solution is used as the absorbent, the salt content of which is 25-35% by weight on the way from the regenerator to the absorber and about 18% by weight on the way from the absorber to the regenerator,
that the regenerated solution is pre-cooled in the absorber in the air flow to be cooled, after dust, pollen and odors have been removed from this air flow in a filter system
and that solution residues remaining in the air stream are extracted from the air stream in a droplet separator. 2. The method according to claim 1, characterized, that one to one regeneration device absorbers housed in different rooms  connects. 3. The method according to claim 1, characterized, that one desorption at a temperature between 50 and 65 ° C, preferably at 56-58 ° C carries out. 4. The method according to claim 1, characterized, that the salt content of the lithium chloride solution 29th % By weight. 5. device for air conditioning one or more rooms,
consisting of a circuit for an operating medium in the form of an aqueous salt solution, in which chemical absorbers for air humidity and a regenerator performing desorption are arranged,
a humidifier is connected downstream of the absorber and the regenerator is connected to a heat source,
characterized,
that the operating medium is a lithium chloride solution, the salt content on the way from the regenerator ( 6 ) in the absorber ( 5 ) 25-35% by weight, preferably 29% by weight and on the way from the absorber ( 5 ) in the Regenerator ( 6 ) is around 18% by weight,
that behind the absorber ( 5 ) serving as a humidifier ( 7 ) chamber with a nebulizer device ( 9 ) is arranged,
that before the entry of the air flow into the absorber ( 5 ) a dust, pollen and odors from the air flow extracting filter system ( 12 ) is arranged
and that a droplet separator ( 15 ) is arranged at the outlet of the air stream from the loading humidifier ( 7 ). 6. The device according to claim 5, characterized in that the nebulizing device is a rotation of the plate ( 9 ), on the surface of which a supply pipe ( 31 ) is directed for the operating medium. 7. The device according to claim 5, characterized in that the moistening device ( 7 ) with a rotating plate ( 9 ) is equipped, onto which a water jet is directed. 8. Apparatus according to claim 6 and / or 7, characterized in that tear-off edges ( 10 ) for liquids are arranged on the rotating plate ( 9 ). 9. The device according to claim 5, characterized in that the humidifier ( 7 ) in the air-conditioned room ( 1 ) is housed. 10. The device according to claim 5, characterized in that the humidifier ( 7 ) and the absorber ( 5 ) are housed in a common housing ( 20 ). 11. The device according to claim 5, characterized in that the absorber ( 5 ) and humidifier ( 7 ) are housed in various rooms. 12. The apparatus according to claim 5, characterized in that in the line from the absorber ( 5 ) to the regenerator ( 6 ) leading line ( 2 ) and / or from the regenerator ( 6 ) to the absorber ( 5 ) leading line ( 4 ) for the operating medium a sensor ( 21 ) is arranged for the salt concentration. 13. The apparatus according to claim 5, characterized by a processor ( 22 ) for the control of the air conditioning,
at its entrances

• - Sensor ( 23 ) for the temperature in the room to be air-conditioned ( 1 )
• - Measuring device ( 21 ) for the salt concentration in the lines ( 2 , 4 ) for the operating medium between the absorber ( 5 ) and the regenerator ( 6 )
• - Sensor ( 24 ) for the moisture at the absorber outlet and at the humidifier outlet
• - A selection device ( 25 ) for the room temperature, air humidity in the room

and at its exits

• - The drive motor of the fan ( 14 ) for air circulation
• - The drive motor of the pump ( 17 ) for the solution circulation
• - Valves ( 27 , 28 ) in the mixer ( 26 ) circulating air - fresh air
• - Valve ( 29 ) in the water supply (water pipe 19 ) to the humidifier ( 7 )

are connected. 14. The apparatus according to claim 5, characterized in that in an individual control of the Klimati sation different rooms ( 1 ) for each room ( 1 ) a control, preferably in the form of a valve ( 30 ) in the supply pipe leading to the absorber ( 5 ) ( 31 ) or a valve ( 29 ) in the humidifier ( 7 ) leading line (water pipe 19 ) controlling room thermostats ( 23 ) is provided. 15. The apparatus according to claim 13, characterized in that for each individually air-conditioned room ( 1 ), an individual control circuit is provided in the processor ( 22 ), at the input of which a temperature sensor ( 23 ) and a temperature selector ( 25 ) housed in the room ( 1 ) ) connected. 16. The apparatus of claim 5, characterized, that the filter and odor adsorber in a ge common housing are housed. 17. The apparatus of claim 16, characterized, that the housing for every filter and every Adsorber has a separate compartment in which Filters and adsorbers interchangeably housed are. 18. The apparatus according to claim 5, characterized in
that pocket filters EU 3-7, preferably EU 5, are used as dust filters,
that in the pollen filter with at least one poly alcohol, preferably glycerin, soaked fleece is used and
that as an odor adsorber be coated with activated carbon and in the second layer soaked with zinc vicinoleate fleece is used. 19. The apparatus according to claim 5, characterized in that in the absorber ( 5 ) above the nebulization device (rotating plate 9 ), a cooling device ( 33 ) is angeord net. 20. The apparatus according to claim 5, characterized in that in the humidifier ( 7 ) above the nebulizing device (rotating plate 9 ), a heating device ( 34 ) is arranged.