DD284274A5 - METHOD FOR VENTILATING HYDROPONIC DRIVEN PLANT CULTURES, IN PARTICULAR CHICOREE - Google Patents

Abstract

The invention relates to the ventilation of plants in multiply stacked propellants for hydroponics, especially of chicory. The delivery of the supply air takes place horizontally from a side wall below the ceiling via air openings of * m axial distance and with a running length of the core jets * of the room depth. The introduction of the exhaust air takes place horizontally from the same side wall above the corridor via air openings in the above-mentioned distance. The pile height is * the height of the room. The run length is set by the exit pulse. As a result, sufficient air flushing of all parts of the blowing space is effected at a high degree of obstruction. {Propellant container, stack, height; Air opening, center distance; Core jet, barrel length, exit pulse; Versperrungsgrad; Luftdurchspuelung}

Description

Process for the ventilation of hydroponically driven crop plants , in particular chicory

Field of application of the invention

The invention relates to a method for aeration of plants within a drift space, wherein the plants are in drums, which are stacked several times over and next to each other, leaving technologically necessary gaps, and are fed by hydroponics.

Characteristic of the known state of the art

It is known that in the hydroponic drive of chicory cultures to ensure favorable growth conditions, a climatic rest is used. The disadvantage is that the required spatial uniformity of the climatic parameters is not achieved. This disadvantage increases as the degree of obstruction increases (stack volume based on the total volume of space). This leads to significant yield and quality reductions.

According to DD-PS 134 671 an air circulation method of storage containers at a high barrier degree is known. About the Zuluftführungselement a portion of the air is blown through the air outlet openings horizontally over the containers. A minor portion of the air exits vertically beyond the air outlet openings next to the containers with a lower impulse. Through this air duct, a primary roller and secondary rollers and thus a uniform flushing room are generated. The exhaust air is extracted via air inlet openings, which are arranged horizontally and vertically on the exhaust air guide element, which is located opposite the Zuluftführungselement.

This method works only with very large room depths! Greater than 15 m). At the customary for the hydroponic driving room depths of less than 10 m form no space rollers; Short circuits are created which are intensified by the interstices. The temporal and spatial uniformity of the temperature is not guaranteed. Finally, it is a disadvantage that would be technologically difficult by the mutually opposite air guide elements, the supply and discharge of the container stack.

According to EP-PA 154 461 a device for air circulation in offices is known, which consists of a wall-side cabinet with an air inlet at the bottom, an air outlet at the top and a built-in fan. This device is only suitable for rooms with a negligible degree of obstruction.

Object of the invention

It is therefore the object of the invention to ventilate hydroponics-driven crops at a high degree of occlusion and technologically simple supply and removal of the container stacks uniformly throughout the drift space and to temper.

Explanation of the essence of the invention

It follows as a technical task to create a ventilation process with equilateral horizontal extraction and introduction of modified jet air.

According to the invention, the removal and introduction of the air via a plurality of air openings in the center distance of 0.5 ... 1.0 m with a set by the exit pulse run length of the core beams of 1.2 ... 1.8 times the space to be ventilated , the stack height is 80 ... 90% of the room height.

The method is particularly advantageous if the run length is set at 1.5 times the spatial depth.

The (theoretical) run length is at a spatial depth of 5 ... 10 m with an outlet impulse of the supply air in the range of 1 ... 4 N (kg / sm / s), preferably at a spatial depth of 9 m in the range of 1, 7 ... 2 _r 2 N set.

The proposed method ensures at a large obstruction degree of 50 ... 70% sufficient supply air transport and temperature compensation in the entire blowing space. This is effected by the good flushing of the container stacks as a result of the sufficient suction effect in the entire upper region and the sufficient supply of the vacuum regions in the entire lower region. In addition, a trouble-free supply and removal of the container stack from the other side is ensured by introducing and discharging the air on one and the same side.

embodiment

The invention will be explained in more detail using an exemplary embodiment. In the accompanying drawing shows

1 shows schematically a driven according to the proposed method blowing space in the lateral cross section,

Fig. 2: the same blowing space in cross-section from above.

In Treibraum 1 chicory-occupied drift container 2 for hydroponic eight-fold stacked. The container stacks 3 are in turn arranged several times behind and next to each other, with intermediate passages 4 being left free for the working personnel in the longitudinal direction.

The stack height 3 is 85% of the room height h, that is, for example, at h = 4.7 m, s = 4.0 m. In front of the left-hand side wall 5, the supply air is blown in horizontally through an air inlet 8 on the ceiling side through air openings 7 at the axial spacing a = 1 m, and the exhaust air is sucked horizontally via an exhaust air duct 9 on the fl ow side. The spatial depth t is in the example 8.9 m, This results in the choice of the exit pulse of the supply air jets for each air opening 7 in the range of 1.7 ... 2.2 N, a theoretical length of the core jets of about 1.5, t = 13 ... 14 m. With this modified jet air all areas of the blowing space 1 are sufficiently flushed with air and uniformly tempered. The right side wall 6 is not installed by ventilation devices, so that on this page, the container stack 3 can be freely added and removed.

Claims (2)

claims 1. A method for ventilation of hydroponics-driven crops, especially of chicory, by means of the release of interstices multiply stacked drums, horizontal spreading the supply air below the ceiling on a side wall and horizontal introduction of the room air pberhalb the corridor on the same side wall, characterized in that Discharging and introducing the air over a plurality of air openings (7) in the center distance (a) of 0.5 ... 1.0 m with a set by the exit pulse barrel length of the core jets of 1.2 ... l, 8 times the the room depth (t) to be ventilated takes place and the stack height (s) is 80 ... 90% of the room height (h). 2. The method according to claim 1, characterized in that the run length of the core jets at the l, 5 times the spatial depth (t) is set. For this 1 page drawings