NL9100087A - GRANULAR GROWTH SUBSTRATE. - Google Patents

Description

GRANULAR GROWTH SUBSTRATE

The present invention relates to a granular growth substrate for growing plants.

The great advantage of a granular growth substrate compared to a form-retaining growth substrate is that such a growth substrate can be used in a wide variety of containers which differ in shape and size. Thus, the drawbacks associated with the use of growth substrates of a substantially solid form are avoided. These drawbacks relate to the cost of manufacturing such growth substrates, and the inventory cost of stocking various shapes and sizes of such rigid growth substrates.

Furthermore, the granular growth substrate must be of such a nature that the raw materials incorporated therein do not substantially lead to irritations, in particular skin irritations, among the users of the growth substrate.

Finally, the granular growth substrate should be easy to handle and substantially free from contamination compared to, for example, potting soil. Therefore, the granular growth substrate must be substantially dust-free (for example at a minimum moisture content of 10% m / m).

According to the invention, a granular growth substrate for growing plants is provided which satisfies the aforementioned requirements and substantially avoids the aforementioned drawbacks in that the granular growth substrate of the invention consists of coherent particles containing clay particles and mineral wool fibers. Each coherent particle is composed of clay particles and mineral wool fibers that are interconnected.

It has surprisingly been found that the growth substrate is spreadable, and the coherent particles are permeable to the roots of the plants to be grown therein. In addition, it appears that the suction of a granular growth substrate contained in a container is optimal for plant cultivation. For example, the granular growth substrate according to the invention has a suction force through which water is sucked up to a height of approximately 20 cm, while at this height in the granular growth substrate there is a moisture content of approximately 5% v / v.

In general, the coherent particles contain amounts of clay particles and mineral wool fibers such that the growth substrate is optimally suitable for growing plants. For example, the coherent particles contain 5-95% w / w clay particles and 95-5% w / w mineral wool fibers. Favorable results are obtained with coherent particles containing 5-75% w / w clay particles and 95-25% w / w mineral wool fibers.

The individual coherent particles may consist of a substantially homogeneous mixture of clay particles and mineral wool fibers. These coherent, substantially homogeneous particles preferably contain 15-50% w / w clay particles and 85-15% w / w mineral wool fibers. More preferably, these substantially homogeneous particles contain 20-45% w / w clay particles and 80-55% w / w mineral wool fibers.

According to another embodiment, the coherent particles each consist of a core of substantially mineral wool fibers surrounded by a coating of mainly clay particles. These coherent particles provided with a clay coating preferably contain 30-70% w / w clay particles and 70-30% w / w mineral wool fibers. More preferably, these particles contain 40-60% w / w clay particles and 60-40% mineral wool fibers.

Before use, clay is ground very finely, then dried and then sieved to the desired clay particle size distribution. The clay particles have a particle size distribution of generally 0.01-100 µl.

As mineral wool fibers, for example, a rock wool granulate can be used, which granulate consists of mineral wool fibers with a length of approximately 0.1-2 mm and a diameter of approximately 1-10 μια. The rock wool granulate may have a granulate size of about 1-30 mm, preferably 3-10 mm.

If the clay particles and the mineral wool fibers show insufficient cohesion with one another, it is preferred that the coherent particles also contain a binder. The amount of binder should be chosen to form coherent particles. Generally, the binder can be incorporated into the coherent particles in an amount of 2-10% m / m, preferably 3-6% m / m.

For optimum production of the granular growth substrate, it may be preferable that a flocculant is added thereto for flocculating the clay particles from an aqueous suspension. The amount of flocculant is not critical, but generally good results are obtained if the flocculant is added in an amount of 0.01-6% m / m, preferably 0.5-3% m / m.

To increase the wettability of the coherent particles with water, it may be beneficial to add a surfactant to the coherent particles.

Furthermore, it may be preferred for the cultivation of the plants that the granular growth substrate contains a fertilizer which is released for some time by the granulate particles when water is supplied to the granular growth substrate during plant cultivation.

An optimal, spreadable granular growth substrate is obtained if the coherent particles have a particle size distribution of 1-20 mm, preferably 2-10 mm, more preferably 3-6 mm.

It is noted that during the cultivation after addition of water and in an aqueous environment, the coherent particles substantially maintain the particulate character.

The granular growth substrate according to the invention will be further elucidated hereinbelow on the basis of a number of embodiments.

Example 1

To prepare a granular growth substrate consisting of coherent particles with a homogeneous mass of clay particles and mineral wool fibers, finely ground, dried clay with clay particles with a particle size distribution of 1-40 μπι and conventional rock wool granulate with a flake size of 4-50 mm, absorbed in an amount of water. The water also contained 1.5% m / m flocculant (Solvitose; Avebe). The homogeneous dispersion is allowed to settle and the dehydrated cake is then mechanically processed into spherical to oval shaped particles, dried at 250 ° C and sieved on a 3-6 mm screen size. The amounts of clay and rock wool are chosen such that the coherent particles consist of a mixture of clay particles and mineral wool fibers in a ratio of 25% m / m and 75% m / m, respectively.

Example 2

Conventional rock wool granulate with a flake size of 3-10 mm is placed in a rotating, internally smooth drum. Clay, also used in Example 1, is then added and then a binder solution (5% Ludox, a trademark of Dupont). Finally, a 1% sulvitose solution is added as a flocculant. The total water content is 15% m / m. The particles formed in the rotating drum are dried at 250 ° C and sieved to a particle size of 3-6 mm. The separate coherent particles consist of a core of substantially (more than 95%) rock wool and a coating of mainly (more than 95%) clay.

Example 3

Example 2 is repeated except that after the clay particles are added, ionized air is supplied, eventually resulting in coherent particles of substantially a homogeneous mixture of clay particles and rock wool fibers. The mixture in this case consists mainly of 40% clay particles and 60% mineral wool fibers.

Example 4

A mixture of 30% m / m clay with a 70% m / m rock wool is introduced into a grain press known per se. To this is added 15% m / m binder solution (5% Ludox). The particles formed in the grain press are dried at 250 ° C and sieved to a particle size of 3-6 mm. The particles are coherent and homogeneous in composition.

The products of Examples 1-4 have been tested in plant cultivation experiments, showing that the coherent particles are rootable, the porosity of a containerized granular growth substrate is about 25%, and the cultivation results are good.

Claims (12)

1. Granular growth substrate for growing plants, consisting of coherent particles containing clay particles and mineral wool fibers. The granular growth substrate of claim 1, wherein the coherent particles contain 5-95% w / w clay particles and 95-5% w / w mineral wool fibers. The granular growth substrate of claim 2, wherein the coherent particles contain 5-75% w / w clay particles and 95-25% w / w mineral wool fibers. Granular growth substrate according to claims 1-3, wherein the coherent particles contain a mixture of clay particles and mineral wool fibers. The granular growth substrate of claim 4, wherein the mixture contains 15-50% w / w clay particles and 85-50% w / w mineral wool fibers. Granular growth substrate according to claims 1-3, wherein the coherent particles contain a core of mainly mineral wool fibers and a coating of mainly clay particles. The granular growth substrate of claim 6, wherein the coherent particles contain 30-70% w / w clay particles and 70-30% w / w mineral wool fibers. Granular growth substrate according to claims 1-7, wherein the coherent particles contain 2-10% w / w binder, preferably 3-6% w / w binder. Granular growth substrate according to claims 1-8, wherein the coherent particles contain 0.01-3% m / m, preferably 0.05-2% m / m flocculant. Granular growth substrate according to claims 1-9, wherein the coherent particles contain a surfactant. Granular growth substrate according to claims 1-10, wherein the coherent particles contain a fertilizer. Granular growth substrate according to claims 1-11, wherein the coherent particles have a particle size distribution of 1-20 mm, preferably 2-10 mm, more preferably 3-6 mm, cultivation results are good.