MX2011000641A

MX2011000641A - Method and device for preparing air to be supplied to a room to a desired temperature and a desired humidity.

Info

Publication number: MX2011000641A
Application number: MX2011000641A
Authority: MX
Inventors: Urs A Weidmann; Gustav Hans Weber; Reto Holzner
Original assignee: Mentus Holding Ag
Priority date: 2008-07-18
Filing date: 2009-07-08
Publication date: 2011-02-24
Also published as: JP2011528426A; KR20110053964A; CH699192A1; WO2010006968A1; AU2009272836A1; US20110185752A1; TW201009270A; EP2310755A1; CN102149979A; BRPI0915964A2

Abstract

The air to be supplied to a room is brought to a desired temperature and a desired humidity through the following processing steps: - flowing outside air as a first air stream through a first line (20) and flowing a first portion of exhaust air coming from the room as a second air stream through a second line (21), wherein moisture is exchanged between the first air stream and the second air stream by way of a device for exchanging moisture, condensing, by way of a drying and cooling device (19), moisture in the form of water from the first air stream and/or from the second air stream and/or within the device for exchanging moisture, and flowing a second portion of the exhaust air as a third air stream through another line (32) comprising another drying and cooling device (33) and returning said second portion back to the room, wherein moisture is condensed from the third air stream in the form of water in the other drying and cooling device (33).

Description

ROCEDIMIENTO AND DEVICE TO CONDITION THE A NDUCIDO TO A SET TO A TEMPERATURE AND A HUM DESIRED FIELD OF THE INVENTION The invention relates to a method and to conditioning the air that is conducted to an enclosure, and as an air inlet, at a temperature and a few days, the humidity and heat being exchanged with and expelled from that enclosure.

BACKGROUND OF THE INVENTION In US Pat. No. 6,189,866, a device is known, such as fresh outdoor air conducted to an extracted area that is expelled from the enclosure, with two hollow spaces, which are separated.

I will regulate the moisture exchange. These devices allow the transfer of the extracted residual moisture and heat to the external air during the winter, and in the summer, transferring the extracted cold to the outside air that is conditioned in the outside air to be added to the extracted air, for the child to bring the outside air to the temperature ad desired, that people who are to consider as pleasant.

SUMMARY OF LwA. INVENCIfÓN invention proposes the task of improving the incoming air.

The aforementioned task is solved of the invention by the characteristics . The procedure comprises the steps of: to make the outside air flow as an entity of air through a first fractional conduit of the exit air that leaves the air stream through a second cond between the first air stream and the air body, the humidity is exchanged medium for the exchange of moisture, by means of a single moisture exchanger or coupled heat exchangers, for example, heat exchangers coupled in a liquid or liquid circuit; by means of the drying and cooling dampening device the moisture is collected from the first air stream and / or the air stream inside the device as circulating air.

The drying and cooling of the current flows through one of the required sensing devices is done by the er.

The drying and cooling of the current flowing through that sealing device can be done alternatively, the air stream is compressed by a co-current of the air at a temperature of the ambient temperature, so that air can expel heat to the environment of compressed air is expanded by a nde the stream of compressed air is cooled below the dew point, adу to be removed in the form of a ua. of water.

The invention also relates to a device for performing the method of treatment. Such a device comprises: a first duct with an inlet to t can suck out the outside air, and one ss from which the circulating air is introduced to the r a second duct with an inlet to which the extracted air is sucked and a room to the environment the outgoing air, a device for the interconnection between a first stream of air flowing through the conduit and a second stream of air than a second conduit, A drying and cooling device placed in the first duct or in the duct placed in the next duct.

The selling device presents other means through which it can be conducted to one or both of the sensing devices and then conducted to the environment (co nte), to eliminate the heat that is present in the drying and cooling device. when necessary, they present a ventente.

The device for exchanging moisture in the air stream flowing through the cto and the second air stream flowing to the second conduit is, for example, a single inter- mediate, advantageously a humidity exchanger e having two hollow spaces, which are a membrane is made impermeable to the water, in any fourth hollow space through a perme membrane of water, and where the hollow spaces. If they are placed in a closed air circuit, the air flow can circulate, or in a closed circuit. In this case, the sensing device may be placed in that circuit of the liquid circuit.

Under the term vapor permeable membrane, any structure that is permeable to water, but not to air, can be understood.

BRIEF DESCRIPTION OF THE FIGURES The description will be described in detail below with examples of realization and with the help. The drawings are schematic and not in detail DETAILED DESCRIPTION OF THE INVENTION Figures 1 and 2 show two different ways of aligning a device 1 to condition ior a desired temperature and a humidity as the outside air exchanges the moisture waste and conducts it to the room as given. The device has a first inlet 2 the outside air is sucked, as first run is led to a first outlet 3 and there is inlet air in the room, and a second one where the waste air is sucked, current is drawn of air to a second outlet 5 and sa as outgoing air. The device 1 comprises a fan 6, a second fan 7, an optional filter 8, optionally a second heat exchanger filter 10, a heat exchanger 2 as the first air stream flows through the filter 8, the heat exchanger 10 and 12 of the first humidity exchanger 11 h to outlet 3. The outside air entering from day 4 in a second duct 21 as first cours flows through the first filter 9, the rimer heat exchanger space 15 and the interc 10 until the second exit 5. The dis nta. furthermore, a closed air circuit 22, in the third air stream produced by a coil 23, flows through the hollow space r of the moisture exchanger 11 and the hollow space of the humidity exchanger 15. The third flow preferably flows in the opposite direction to the. I ran first and second as shown on the arrows of the fans 6, 7 and the electrostatic filter 25. The electronic filter, that the dust and dirt came heat exchanger and / or the membrane of the inter- mediate. The heat exchanger 10 prefer a plate heat exchanger. The rheostatic 5 can be integrated in the exchanger 10, as described for example in d 04085946. In the drying and cooling device it imitates the waste heat. To eliminate that e ho to the environment a third conduit 26 is provided, which is conducted to the drying and cooling device which receives the waste heat and leaves it to the environment. The third conduit 26 disengages as shown, in the second conduit 2 second outlet 25. In this example the condta a fourth fan 27, to let flow 15 and the hollow space 13 of the first exchange 11 in the air circuit 22 In the second example of embodiment shown in Figure 2 the drying and cooling device placed after the second filter 9, without second hollow space 16 in the second drying and cooling conduit 19 'is placed first outlet 3 in the first conduit 20 of cooling 19 and 19 'are placed is indicated.

In the exemplary embodiments represented as 1 and 2 the heat exchanger 10 is exchanging the heat between the waste air and ior, and both heat exchangers of 15 are present, to exchange the humidity with the air body. In FIG. 3 4, the devices according to FIGS. 1 and 2 are provided with two moisture exchangers, which, by means of the closed air circuit 22, which the humidity exchange can regulate at 4, shows an example of embodiment in the the exchange of moisture between the first c and the second air stream by means of a humidity changer 28, which has a space located in the first duct and in a space in the second duct, which are separated by water vapor permeable embrana. 31. The moisture exchanger with this construction is possible in all the examples of reali According to the invention in all the alignments as illustrated in the example of real figure 5, a first part of the drying and cooling waste air 33 and a salt is directly with the space or as it is after its Input 4 is connected duct. The outlet opens either directly or as it is immediately shown before 3 in the first conduit 20. The filter 34 is a filter for coarse particles and a rostático.

Such a stream of. The agreement entry is also provided in the examples given in figures 1 to 4.

For the drive of different streams of eren several fans. The ventilation number within the device 1 may also correspond to the specific realization 1 rovides are also suitable for the realization also of moisture exchangers, which are physical principles, for example exchanged with adsorption and desorption processes or those absorption processes. and degassing.

The described devices 1 can co-operate with two types of operation that are designed for winter and operation. The types of operation will be described briefly.

Winter weather Device 1 transfers the moisture and goes into the waste air into the outside air. The fan 6 conveys the outside air in the ventilator 7, the waste air from the fan 6 can be placed in some 1st duct 20, the fan 7 can be placed in the outside air and the air can be discharged. Part of the heat of the outside air to the ho, this is the colder waste air, the hotter outside air is used. He transmitted it ad del. outside air to the waste air meet both heat exchangers 11 and 15, which each other through the closed air circuit 1 waste air can not absorb as much humid wants, in the embodiment according to 1 in the current The air circulating in the c 22 is additionally dried, that is, the dis- covery and cooling 19 draws from the irculate stream in the air circuit 22 that ad, which the waste air can not absorb and thus be made. The air presents the humidity in accordance with the fi gure 2 or outside the room. The blowing device 19 is in operation of the air at the outlet of the blower fan 19 is drier and colder than the air of the drying and cooling device 19. closed air 22 circulates air that depended on the air. alisation of the drying and cooling device flow either through the third fan 23 or through the flow 1.

In addition, that fraction of the air through the fourth conduit 31, mediating drying and cooling 33 is cooled and then transferred back to the enclosure. The air and the outside air are conditioned by the air conduction to the room with the desired temperature.

At least one part of the air humidity condenses in the form of water. The heat fests there, as described above, is carried by a stream of air conducted through the conduct to the outgoing air through the second). In the case that the heating block te, the heat fraction transferred to the outgoing air and the fraction subtracted transferred is conducted through a conduit and heater 37 and then to the outgoing air, to entangle the cold air leaving the block of enfri Figures 7 to 10 illustrate different example of drying and cooling 191 contained in heater block 37. The block heats without ignoring or omitting. In this case the cold wall 40 and a hot wall 41. The cold wall temper 40 is cooled by the rich application, where at least in the direction of air stream 38, the last Pelt element aa value, which is below the p of the flowing air. The air stream 38 which flows from this cold wall 40 is condensed as ag or the temperature of the air stream 38 is its dew point. The water is conducted through a collecting well 43 or directly driven. In the case of the cooling of the current, the heat that is presented to the condenser is humid, the electric energy fed to the elements, which is likewise transformed into heat, reaches the point 41. A fraction of this heat per axis through a conduit 44 to the hot block figure 8. The device for drying and cooling several Peltier elements 39, in which it is cooled and dried. The air flow along the cold side of the elements is still along the hot side of one of the Peltier elements.

During the winter drying and cooling operation, the regulator is in operation, since the air is extremely dry and should not be dried. The elements present in this example can be used for air stream flowing through the device and cooling 19. The current flowing to Peltier elements 39 then flows in a day, so that now the wall 40 is lime red. It cools the air is heated When the relative air flows through the ejection chamber d, it encourages the heat transfer chamber 47 which is clearly above the temperature, so that the transmission chamber can transfer the heat to the environment. The feride is conducted through the outside air that is in the conduit 26. The outside air enters in a heat transfer 47. In this way it is lor the air stream 38. When the run 38 subsequently flows through the turbine to the turbine 48. The air stream 38 of the turbine 48 must produce so much that it cools to a temperature below CIO. The cold air thus cools the chamber so that it is in the condensation chamber through a conduit 44. Because the drive axes 46 and the turbine 48 are connected between n 48 drives the compressor 46 in such a way 46 from outside only the T must be applied, where the quantity PK represents the rida by the compressor and PT represents that charged by the turbine 48. what 3 In the example shown in the drying and cooling figure 19, there is shown a vortex tube 53. The compressor 46 comprises air 38 and thus increases the pressure of the atmosphere so that the air stream 38 flows towards the ee with greater speed. This is how the air temperature rises 38. An art of heat is removed, the heat is extracted, for example, by means of a 55 heat exchanger. There is a cold air flow of hot air then they are joined or they come out of the drying device. and cool

Claims

NOVELTY OF THE INVENTION The invention having been described as antec a as property contained in the following: CLAIMS 1. A process for the incoming acpndicionamie at a temperature and a moisture of terized because it comprises the steps of: to make the outside air flow as an air entity through a first conduit (20 sec fraction of the outlet air) leaving the recirculation of air stream through a second c where between the first air stream of air current the humidity is exchanged for the exchange of moisture, through a single moisture exchanger; (33) and drive it back to the enclosure and another device for drying and cooling nsa in the form of water as a third stream d 2. The method according to the invention is characterized in that the drying of the air stream flowing through the drying and cooling devices (19) drying and cooling device (33) is at least one Peltier element. 3. The method according to claim 1, characterized in that the drying is carried out through the sensing device (19) and / or through the stream of a through the other drying and cooling device by the following steps: compress the average air stream or which moisture is removed in the form of water. 4. The method of compliance 1, characterized in that the flow flowing through one of the flow devices (19) and / or the other sensor device (33) is done by compressing it by means of a compressor (46) and by means of a tube is separated in a stream of hot air between cold air, where the temperature of cold air is below p, so that the moisture separates in the form of water; 5. The procedure of compliance 1 to 4, characterized in that the intemacy in the device for humid exchange by an exchange of moisture between the a 6. The device to condition the e expels the outgoing air into the environment, a device for the interconnection between a first stream of air flowing through conduit (29) and. a second stream of a in the second conduit (21), a drying and cooling device is placed in the first conduit (20) or in the cto (21) or is placed in the device I exchange humidity between the air stream attached, and another conduit (32) with an inlet, to be conducted to the air extracted from the enclosure, and an outlet in the space or in the first conduit of the outlet (3); Y another drying and cooling device that is placed in the next conduit (32). 8. The conformance device S or l, characterized in that when I dry and cool Peltier cooling devices (39) so that the air stream coming from the drying and cooling device is below the dew point. 9. The device according to claim 6 or 7, characterized in that when the drying and cooling devices compress (46) to compress the air, and a turbi expand the compressed air and with this the temperature is cooled to a temperature below of the p 10. The device according to cication 6 or 7, characterized in that when I dried and cooled devices