NL2004390C2 - METHOD FOR AERATING A GROWING AREA AND GROWING AREA. - Google Patents

Description

Method for aeration of a growing area and growing area.

The present invention relates to a method for aerating a cultivation area, comprising supplying an air flow via hoses to that cultivation area, wherein moisture is added to that air flow.

It is generally known in the art to lay air hoses in greenhouses which extend into the crop. In this way, air can be supplied to the crop deep into the crop. This air can serve as cooling air or heating air.

Moreover, it is known to add moisture to this air. For this purpose a so-called "pad" is used, that is to say the air is passed through or along an moisture-saturated absorbent material through which moisture is released to the longitudinal moving air. Local cooling can hereby be obtained, but this effect is limited.

In greenhouses, a large number of such pipe hoses are often used to optimize the climate for the crop. This concerns both the moisture content and the temperature (cooling). The aim here is on the one hand to introduce as much moisture as possible into the greenhouse or near the crop, but on the other hand to prevent the formation of condensation on the leaves of the crop in general.

This requires a particularly accurate control of the moisture dosage and it has been found that the systems described above are unable to do so.

It is an object of the present invention to provide an improved method with which it is possible to dose the amount of moisture supplied to a greenhouse or other growing area or growing area in a very accurate manner.

This object is achieved in a method described above in that said moisture is introduced into the air stream by spraying water.

Growing area is not only understood to mean a greenhouse, but any other space or area where crops are grown. The outdoor cultivation is mentioned as an example, with conditioned air being supplied close to the crops.

In general, however, the invention will be applied in combination with greenhouses in which the hoses then lie on the ground next to the crop or are suspended or in which the crop is for instance above the pipe hoses. Here carrier is understood to be any carrier for crops such as the soil, substrates and the like. The crop can be grown in gutters, on tables and in the ground.

2

With the present invention, it is possible to accurately control the amount of moisture supplied. More in particular, this means that relatively large amounts of moisture can be supplied via the pipe hoses for air without there being any danger of the condensation described earlier. The system can be used for both cooling and heating.

With the present invention, it is possible to cause up to 100% moisture mist to be present in the air emerging from the openings of the pipe hoses without condensation occurring. Moreover, by spraying, it is possible to lower the air that is sucked in from outside, for example, and has to be transported in a greenhouse, to temperature by evaporating the sprayed water. As a result, the costs of cooling a growing space with external energy can be considerably reduced.

Moreover, it is possible to provide air circulation in this way in a greenhouse which is provided with air discharge openings such as windows to be opened. As a result, a ventilation of air located near the roots of the crop and supplied through the hoses to the skylights can be provided, whereby the crop is always exposed to optimum conditions in terms of temperature and moisture and overheating of the crop even on sunny days. to fear.

Atomization can take place both in the pipe hose and in the case of fans arranged in front or behind or in the pipe hose. In addition, it is possible to spray water at different locations on hoses with longer lengths (hundreds of meters), thereby eliminating the effects of demixing. To this end, it is possible, for example, to lay a water supply line parallel to the hose and to provide it with sprayers at various points, as a result of which water is displaced in the pipe hose. It is also possible to arrange the water supply with a separate pipe in the interior of the pipeline and to provide it with nebulisers. However, it is also possible to arrange the water supply pipes perpendicular to a number of parallel pipe hoses. Moreover, it is possible to install different fans to accurately control the air flow and to limit energy consumption as much as possible. By spraying in general and spraying at different places (height levels) in particular, an optimum cooling of the air flow can be achieved if desired without the risk of condensation.

3

Depending on the needs of the crop, it is possible to add further moisture by, for example, sprinkling the crop from above or by means of controllers to increase the moisture content in the greenhouse or other growing area. It is possible to use a corresponding fogging system for this.

It has been found that if a greenhouse is ventilated, for example by opening the windows, it is possible to set an optimum climate by supplying cold mist from below with the system according to the invention and feeding it from above to the above described method of applying a cold mist. As a result, it has been found that especially warm air is forced out of the greenhouse or other cultivation space by the excess pressure.

Moreover, under certain circumstances, a somewhat warmer layer may be present between the cold layer located above in the greenhouse and the cold layer located below in the greenhouse on which the cold layer generated above in the greenhouse continues to "float". As a result, the cooling can be more effective. Moreover, it is thereby possible (depending on the crop) to set a temperature profile over the height of the greenhouse which in the most extreme case is such that the upper part of the greenhouse is colder than other locations thereof.

The invention also relates to a cultivation area comprising carriers for crops, hoses arranged near those carriers for supplying an air flow and means arranged at said hoses for humidifying an air flow moving through said hoses, said means comprising water atomisers for releasing moisture to the air stream.

The nebulizers can include any type of nebulizer for bringing water from the liquid state to the vapor state. Mouthpieces are used for this purpose in particular. If the moisture content is to be relatively high and condensation is to be prevented, it may be advantageous to accurately determine the moisture content in any way, for example with sensors. Moreover, it is advantageous if spraying takes place at different locations and that all this can be controlled with a control. This applies in particular if a combination is used with the addition of moisture to the crop.

With the present invention it is possible to accurately control the temperature and the moisture content in a greenhouse or other growing area. In a greenhouse in particular, it is possible to limit the influence of the prevailing wind as much as possible, so that an optimum climate can always be provided regardless of the external climatic conditions.

The present invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. The following shows: FIG. 1 schematically a greenhouse provided with the tubular system according to the invention; and

FIG. 2 a detail of a used tube or hose according to the invention.

In Fig. 1 a greenhouse is indicated in its entirety by 1. Plant carriers 2 are provided therein, which may consist of growing tables, growing gutters, the open ground, and so on. From there, crop 3 extends. To optimize the climate near the crop, different pipe hoses 4 are provided. In the drawing, only a single tube hose 4 is shown, but it will be understood that a large number of such tubes can extend through the greenhouse. Details of each pipe hose 4 are shown in Fig. 2. Air is transported by means of fans 6 and 9 arranged at regular intervals in the pipe hose 4 from the inlet 5 which in the example is outside the greenhouse to openings 8 which are located near the crop. Such an inlet is preferably located transversely to the facade of the greenhouse shown. 10 present. These are fed with the aid of a water supply line 11 and the spraying, whether or not and the duration or resp. the extent thereof is controlled by a control 13 which is electrically connected to each of the injectors. If desired, (not shown) sensors may be present to measure the moisture content upstream or to increase the moisture content. downstream of the nebulizers.

In addition, further nebulisers 15 are present with which, depending on the circumstances, further moisture can be supplied to the greenhouse. Cooling occurs as a result of the atomization. With the present invention it is possible to provide a significant contribution to the temperature reduction in the greenhouse on hot days. After all, due to the large amount of moisture that can be supplied via the atomisers into the air entering at inlet 5 without condensing, considerable cooling of the entering air can be provided. Ventilation to the outside can then be provided through the open windows 14. As a result, the cool air arrives at the most optimal place for the crop, i.e. near the bottom (depending on the crop).

5

Without special measures it is possible to introduce up to 70% moisture (relative humidity) into the supplied air via the tubes 4. With precise control, full air saturation can be achieved without condensation occurring.

After the above, those skilled in the art will immediately come up with variants that are within the range of what has been described above and that are obvious after what has been described. In addition, rights are explicitly requested for variants described in the subclaims independent of claim 1 or 7.

10

Claims (15)

Method for aerating a cultivation area (1), comprising supplying an air flow via hoses (4) to that cultivation area, wherein moisture is added to that air flow, characterized in that said moisture is sprayed through by spraying water into said cultivation area air flow is introduced. Method according to claim 1, wherein said spraying takes place in said hose (4). 10 Method according to one of the preceding claims, wherein said air flow is displaced by a fan (6, 9) and atomization takes place near said fan. 4. Method as claimed in any of the foregoing claims, wherein water is sprayed at different remote locations in a hose (4). A method according to any one of the preceding claims, wherein further moisture is supplied to said cultivation area separately from said air flow. A method according to claim 5, wherein said further moisture is supplied at a higher location than said air stream via hoses for cooling the air in said cultivation area. 7. Method as claimed in any of the foregoing claims, wherein said cultivation space comprises a greenhouse (1). 8. Cultivation area (1) comprising carriers (2) for crops, hoses (4) arranged near said carriers for supplying an air flow and means (7, 10) arranged at said hoses for moistening an air flow moving through said hoses wherein said means comprise water injectors (7, 10) for releasing moisture to the air stream. The cultivation area according to claim 8, wherein said water sprayers comprise spray nozzles. 10. Cultivation area according to one of claims 8 or 9, wherein said hoses are connected to a fan (6, 9) and water nozzles (7, 10) are arranged at said fan. 11. Method according to one of the preceding claims, wherein water supply lines are arranged at said hoses, wherein each water supply line (11) for each hose comprises a number of water nozzles (7, 10). 12. Cultivation area according to claim 11, wherein said water supply extends in said hoses. 13. Cultivation area according to one of claims 8-12, comprising a greenhouse, wherein said hoses are arranged after / underneath said crop carriers (2). The cultivation area according to claim 13, wherein a further moisture dosing system (15) is provided for moistening the crop. 20 A growing area according to claim 14, comprising a control (13) which controls the supply of moisture via the air supply through the hoses (4) and via the further moisture dosing system (15).