NL1030426C2 - System and method are for cooling and dehumidification of space within enclosed area - Google Patents

Abstract

The system (1) and method are for the cooling and dehumidification of a space (4) within an enclosed area and are provided with a first air/dry medium or air/water heat exchanger (6) for the cooling of dry medium or water by ambient air and a second air/dry medium or air/water heat exchanger (26) connected with the first heat exchanger for the receipt of dry medium or water. The second air/dry medium or air/water heat exchanger is provided with an air inlet which runs from the enclosed space and a cooled air outlet which runs to the enclosed space. Heat and vapor are withrawn without ventilation from the enclosed space.

Description

System and method for cooling and dehumidifying air

Field of the Invention! The present invention relates to air coolers and dehumidifiers and in particular to air cooling and dehumidification systems and methods for cultivation greenhouses.

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BACKGROUND OF THE INVENTION

As is known, modern greenhouse greenhouses require the addition of carbon dioxide (CO2) to improve plant growth. It is also known that solar radiation and artificial light entering greenhouse greenhouses form heat that normally requires ventilation to remove excess water and vapor. Such ventilation, however, has the disadvantage that it also removes the carbon dioxide gas supplied, which naturally causes wastage in that considerable amounts of carbon dioxide gas must constantly be produced and supplemented.

Revelation of the invention

It is therefore a general object of the present invention to overcome the aforementioned disadvantage of prior art cooling and dehumidification systems and methods.

It is a further object of the present invention to provide provide a system and method for cooling or dehumidifying a confined space, in particular a greenhouse.

It is yet another object of the present invention to provide a system and method for cooling and dehumidifying a confined space, in particular a greenhouse, without ventilation.

In accordance with the present invention, a system is provided for cooling and dehumidifying a space inside and enclosure, comprising: a first air / desiccant or air / water heat exchanger for cooling desiccant 1 0 7 fl / λ * 2 or water from ambient air; a second air / desiccant or air / water heat exchanger connected to the first heat exchanger for receiving cooled desiccant or water; which second air / desiccant-5 or air / water heat exchanger is provided with a heated air inlet that runs from the confined space and a cooled air outlet that extends into the confined space, whereby heat and vapor are extracted from the enclosed space without ventilation.

The invention also provides a method for cooling and dehumidifying a space within an enclosure, comprising: providing a first air / desiccant or air / water heat exchanger with an ambient air inlet and outlet leading to the atmosphere, a Second air / desiccant or air / water heat exchanger connected to the first heat exchanger, which second air / desiccant or air / water heat exchanger is designed with an inlet coming from the confined space and a recess into the confined space running exhaust; cooling the desiccant or water in the first heat exchanger and feeding the cooled desiccant or water to the second heat exchanger, extracting heated air from the confined space and passing it through the second heat exchanger, and cooling the heated air air in the second heat exchanger and bringing the cooled air back into the confined space.

Brief description of the drawings

The invention will now be described in connection with certain preferred embodiments with reference to the accompanying figure, so that it will be better understood.

In the specific reference to the drawing, it is to be underlined that the details shown are given by way of example only and for the purpose of illustrative discussion of the preferred embodiments of the present invention, and are presented for the purpose of describing the principles and conceptual aspects of the invention in a manner that is most useful and easy to understand. In this regard, no attempt is made to present constructive details of the invention in more details than is necessary for a fundamental understanding of the invention, the description in conjunction with the drawing making it clear to those skilled in the art. makes how different forms of the invention can be put into practice.

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FIG. 1 is a schematic cross-section of a system for cooling and dehumidifying a space within an enclosure without ventilation.

Detailed description of the preferred embodiments

FIG. 1 shows a system 2 for cooling and dehydrating a confined space 4, for example a greenhouse. The system 2 comprises per se known first air / desiccant or air / water heat exchanger 6, formed of an air inlet 8, heat exchange media 10, desiccant or water spray nozzles 12, a fan 14, a drip chamber 20 and a desiccant or water reservoir 18. The latter is connected via a pump 20 and a pipe 22 to drying agent or water spray nozzles 24 of a second heat exchanger 26. Similar to heat exchanger 6, a heat exchanger 26 also comprises an air inlet 28, heat exchange media 30, a fan 32, a drip chamber 34 and a second desiccant or water reservoir 36. A pump 38 and conduit 40 connect the reservoir 36 to the desiccant or water nozzles 12 of the first heat exchanger 6. Advantageously, the first and second reservoir 18 and 36 are in fluid communication with each other by means of a conduit 42 to keep the desiccant or water level at both reservoirs at least about the same.

As can be seen further in the figure, while the first heat exchanger 6 is open to the atmosphere, the air outlet of the second heat exchangers 26 leads to an inlet 34 of the confined space 4.

The air cooling and dehumidification system 2 of the present invention works as follows: 1030426 4

The heat exchanger 6 cools and removes water from the drying agent or water, i.e. concentrates the drying agent or cools the water using the outside air. The cold desiccant or water flows to the heat exchanger 26 where it cools the air entering the confined space 4 and cools the air in the space 4 in its vicinity.

In order for the air / desiccant or air water heat exchangers 6 and 26 to be effective, the Reynolds number of air within the heat exchange media 10 and 30 must be smaller than 2000. This can be controlled by, among others, the fans 14 and 32, the desiccant or water pumps 20 and 38, respectively. Advantageously, the mass flow of desiccant or water in the heat exchangers 6 and 26 is at least approximately equal to the mass flow of air in the heat exchangers.

It will be clear to the person skilled in the art that the invention is not limited to the details of the preceding exemplary embodiments and that the present invention can be carried out in other specific ways without departing from the scope of the invention. The illustrated embodiments are therefore to be considered in all respects as illustrative and not restrictive, and the scope of the invention is determined by the appended claims, rather than by the foregoing description, so that all modifications within the broad scope of the claims below should to be understood.

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Claims (7)

A system for cooling and dehumidifying a space within an enclosure, comprising: a first air / desiccant or air / water heat exchanger for cooling desiccant or water by ambient air; a second air / desiccant or air / water heat exchanger connected to the first heat exchanger for receiving cooled desiccant or water; which second air / desiccant or air / water heat exchanger is provided with a heated air inlet that runs from the confined space and a cooled air outlet that runs into the confined space, whereby heat and vapor are supplied to the confined space without ventilation evaded. A system according to claim 1, wherein the first heat exchanger is provided with an ambient air inlet and an outlet leading to the atmosphere. 3. System as claimed in claim 1, wherein each of the first and second heat exchanger is furthermore provided with a fan placed at these outlets. The system of claim 1, wherein the first and second reservoirs are in fluid communication with each other. 5. Method for cooling and dehumidifying a space within an enclosure, comprising: providing a first air / desiccant or air / water heat exchanger with an ambient air inlet and atmospheric exhaust, a second air / desiccant- or air / water heat exchanger connected to the first heat exchanger, which second air / desiccant or air / water heat exchanger is provided with an inlet coming from the confined space and an outlet extending into the confined space; cooling the desiccant or water in the first heat exchanger and feeding the cooled desiccant or water to the second heat exchanger, 1030426 extracting heated air from the confined space and passing it through the second heat exchanger, and cooling the heated air in the second heat exchanger and bringing the cooled air back into the confined space. The method of claim 5, wherein the first and second heat exchangers are operated at a Reynolds number of less than 2000. 7. Method as claimed in claim 5, further provided with the step of controlling the mass flow of the drying agent or water in the heat exchangers in order to be at least approximately equal to the mass flow of the air. 1 to 3 0 4 "6