NL8002341A - work-room air-conditioning system - has tubular fresh air guide with thin walls in path of discharged air - Google Patents

Abstract

The air-conditioning system directs fresh air through a thin- walled tubular guide mounted in the path of the air discharged from the room, after which the fresh air is discharged into the room via a tubular duct with outlet openings. The guide can be of foil-type material, with air-suction equipment at its inlet, and metal or plastic foil can be used. There can be an air heater between the guide and the duct, typically of the combustion type, with a heat exchanger in the flue and between the guide and the duct.

Description

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Title: Climate control system for a "business space"

The invention relates to a method for controlling climatic factors in an industrial space.

Controlling climatic factors in a farm space is a costly affair, which is particularly true in a rearing business of animals. After all, in order to obtain well-developed, healthy animals, it is necessary to maintain the oxygen level in a rearing room, which means an intensive exchange of the air and therefore a substantial discharge of the consumed air to the outside and an equally large supply. of fresh air from the outside in. With the exhaust air to the outside, a large amount of heat also disappears, which has been generated in the rearing room for the benefit of and by the animals themselves. 15 Furthermore, the fresh, cold air, especially in winter, must be heated, which can be carried out in advance or in the commercial space itself, which in turn entails high heating costs. In case gas-blasting elements are used for the heating of air will have to increase the air exchange in such a room even more; after all, these steel elements consume a lot of oxygen and also produce a lot of water vapor, which causes wet spots on the bottom or litter, which encourages the formation of germs in the rooms.

The object of the invention is to provide a solution for this, which results in a reduction of heating costs while maintaining the correct oxygen level and maintaining the moisture content in the operating space.

According to the invention, in the method of the type of fresh air described in the opening paragraph, at least partly thin-walled, tubular or tubular air conduction system is introduced through an air to be discharged from the said operating space and 800 2 3 41 2 .

this air is supplied into said operating space via a tubular or tubular air guide system provided with outflow openings;

The invention will now be elucidated with reference to the annexed figures, of which:

Fig. 1 shows a schematic representation of a first embodiment of a device for controlling climatic factors in an operating space, using a central heating installation; and

Fig. 2 shows a schematic representation of a second embodiment of a device for controlling climatic factors in an operating space, using a heat pump installation.

"* 5 Fig. 1 shows the contours of a farm space 1 for rearing poultry with broken line parts. On top of the roof 2 of the farm space 1 are ventilation hoods 3 provided with fans} via these hoods 3 the exhaust air must be discharged from the operating room 1 must be removed, and fresh air must be supplied elsewhere in operating room 1.

This ventilation process is necessary, since the air consumed in the operating space is low in oxygen and of a high moisture and ammonia content, which is disadvantageous for the rearing of healthy animals in the operating space.

It is advantageous to extract as much heat as possible from the air to be discharged and thereby heat the freshly supplied air at a low temperature. · For this purpose, an air guide system 4 is provided in the ridge of the operating space 1, via which fresh air is transported from one side of the facade (ie the back side of the facade) to the other side of the facade (ie the front side of the facade). The air guiding system 4 must be made of thin-walled material, so that a good heat transfer is possible from the air to be discharged via the ventilation caps 3 to the fresh air in the air guiding system 4.

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The amount of heat present in this air to be extracted may be called considerable, since not only the fresh air to be supplied will be preheated, but will also rise further in temperature as a result of the body heat to be released by the animals and the heat generated in the formation of ammonia gas.

The air guiding system 4 is made of foil-like material of the tubular or tubular type.

Preferably, use can be made of plastic foil, which results in a low purchase price.

Instead of ordinary coastal film, a plastic film with a metal coating or metal film that may or may not be reinforced can also be considered.

It is advisable to have the air guiding system 4 comprise several parallel suspended tubular or tubular elements 5 a-n, in order to be able to keep the flow rate throughout the system 4 low, so that a better heat transfer to the fresh air can be obtained.

In order to keep the air guiding system 4 in a stretched state when using a limp thin-walled material, it is necessary to create a certain overpressure in the system 4, which is achieved by installing an air suction unit 6 on the inlet side of the system 4. take. For this purpose use can be made, for example, of a fan or blower. In order to avoid unnecessary costs, a number of tubular or tubular elements 5 a-n can be fed with one air suction unit 6, for which purpose a coupling piece 7 with a single inlet and several outflow openings must be included between the air suction unit 6 and the elements 5 a-n.

On the other side, the elements 5a-n are connected by means of a coupling piece 8 to a vertically oriented transport pipe 9, which splits at the bottom side into two horizontally extending pipe sections 10, 11.

At the end of each of the parts 10, 11 is one tubular or tubular element 12 or a system of these elements · 800 2 3 41 <r ί- 4.

connected, which element or assembly thereof is arranged close to the ground over the full length of the side wall. This element 12 (or its system) is provided along its entire length with outflow openings 13 a-n, which are small in relation to the cross section of the element 12; sufficient fresh air of good temperature is thus supplied over the entire length of each of the two side walls. floating space, while heating costs can remain low. Flexible elements such as foil 10 can also be used for the elements 12. This has the advantage that these elements 12 can also be hung along the doors, since it is then only necessary to lift such an element 12 when entering the operating space.

In winter it is possible that additional heating of the air to be supplied to the operating space must take place, for which purpose an air heating unit 14 must be included between each of the pipe parts 10 and 11, respectively, and the element 12 or system thereof connected thereto.

If use is made of a central heating unit 15, each of the air heating units 14 will be designed as a heating lamella element, which elements are then connected to the water transport pipe 16 of the heating unit 16. If the heating unit 15 is of the combustion type which must be kept outside the (rearing room), then again a part of the heat which otherwise would have simply been lost via the flue 17, can be used for heating the , to supply the industrial space with fresh air; this is done by including in the transport pipe 9 a heat exchanger 18 cooperating with the flue 17.

An air heating unit 14 can be combined with an air control valve, which can be provided with a dust filter element if necessary.

With an air regulating valve it can be ensured that on warm days the elements 12 besides warm fresh air also cool 800 23 41 e 5.

fresh air is supplied.

Instead of a central heating unit 15 of the combustion type, it is also possible to use a heat pump installation for the additional heating of the heated fresh air. Such a heat pump installation is in Pig. 2 and comprises a closed circuit, which successively comprises a throttle 19, an evaporator 20, a compressor 21 and a heat exchanger 22. The liquid (eg freon) present under relatively low pressure at the outlet of the throttling member 19 evaporates in the evaporator 20 using the heat present in the ridge of the operating space 1 as evaporative heat. The vapor pressure is increased by means of the compressor 21, making it possible to condense the vapor 15 at a much higher temperature. In the heat exchanger 22, the condensation heat is transferred, directly or indirectly, via a second water-filled circuit to the fresh air present in the transport line 9. The heat transferred to the air in the transport conduit 9 is then conveyed in the manner already described to the two air control valves 14 equipped with dust filter elements.

For the additional heating of the preheated fresh air, it is possible to use both a central heating unit 15 of the combustion type and a heat pump installation.

The climate control systems shown in this way provide great fuel savings compared to other 30 systems. On days that are not too cold, the heat absorbed by the rearing animals in the air is sufficient to transfer the heat from the air to be removed to the fresh air for the working space via systems 4 and 12.

Furthermore, due to the absence of gas caps 35 in the operating space, it has even become possible to operate the fans in the ventilation caps 3 at a lower level. Finally, the climate control has 800 2 3 41 β.

system the advantage of an overpressure system, which means that the warm fresh air is brought under a certain overpressure into the industrial space, so that there is no longer a draft in the industrial space. 5 Besides rearing companies, other industrial spaces can also use one of the following climate control systems, provided that such an industrial space has to be heated and air has to be changed, whereby heat is likely to be lost with the exhaust air.

10 It is also possible to provide several commercial spaces as well as living spaces with warm, fresh air with a single climate control system.

It is also possible to implement a climate control system to a high degree of automation, so that when the temperature in the operating space increases, the fans in the ventilation hoods work harder, the central heating unit 14 (with its own thermostat) or the heat pump installation is less hard. operate and allow the air control valve in the air heating unit 14 to supply more fresh air unheated into the elements 12, 810 2 3 41

Claims (10)

Method for controlling climatic factors in an industrial space, which method is characterized by conducting fresh air through an air supplied in the said industrial space, at least partly thin-walled, tubular or tubular air-guiding system and subsequently supplying this air into said operating space via a tubular or tubular air conduction system, provided with outflow openings. 2. Device for carrying out the method according to claim 1, characterized in that said thin-walled, tubular or tubular air guide system is manufactured from foil-like material, which air guide system is provided with air suction means on the inlet side. Device according to claim 2, characterized in that the two air guide systems are made of similar material. 4. Device according to claim 2, characterized in that at least one of the air guiding systems is made of plastic. 5. Device as claimed in claim 2, characterized in that the foil-like material of the air guide systems suspended in the air to be extracted is made of metal foil. 6. Device according to claim 5, characterized in that the foil-like material of the air guide systems suspended in the air to be discharged is provided with a metal coating. 800 2 3 41 8. Device as claimed in claim 2, characterized in that an air heating unit is included in the connection between both air guiding systems. 8. Device as claimed in claim 7, wherein the air-heating unit is of the combustion type with a flue outlet, characterized in that the connection between the two air conduction systems comprises a heat exchanger co-operating with said flue outlet. 9. Device as claimed in claim 7, characterized in that the air heating unit forms part of a liquid circuit with heat exchanger which cooperates with a heat pump installation. 10. Device as claimed in claim 9, characterized in that the vapor-active heat exchanger of the heat pump installation extracts heat from the air to be discharged from the operating space. 800 23 41