NL8701130A - PLANT GROWING PRODUCTS BASED ON MINERAL FIBERS WHICH HAVE A SILICON COMPOUND AND A METHOD OF MANUFACTURING THESE. - Google Patents

Description

P HP / AB / Rw4P - 1 -

Plant cultivation product based on mineral fibers. is provided with a silicon compound and a method for its manufacture

The invention relates to a porous product based on water-absorbing mineral fibers for growing plants.

Cultivation media for plants which are particularly suitable for use in agriculture and horticulture mainly consist of water-absorbing mineral fibers. These products have the property that they are easy to moisten with water, and that the amount of water absorbed and water absorbed under the influence of capillary forces is adapted to plant cultivation.

Recent research has shown that silicon is a growth-promoting element for many plants, especially cucumbers, for example. In cultivation using the porous products referred to above, all nutrients intended for the plant are usually taken up in water which is regularly added via drippers to the product in which the plant roots grow. A major drawback of silicon compounds is that deposits are formed in the irrigation system, so that on the one hand an accurate administration of water and nutrients is hindered and, on the other hand, complete clogging can occur.

Surprisingly, it has been found that growth-promoting water-absorbable silicon compounds can be incorporated therein during the manufacture of the porous product and, moreover, are available to the plants during cultivation. Incorporating these silicon compounds into the porous product also avoids all problems with blockages of the irrigation system.

The porous product based on water-absorbing mineral fibers intended for plant cultivation is therefore characterized in that this product contains a growth-promoting, water-absorbing silicon compound for the plants to be cultivated.

It is preferred that the absorption of silicon by the roots of the plants and, accordingly, the absorption in the water, is attuned to the cultivation needs, and in particular, for example, is as uniform as possible over a long cultivation period and is further independent of the cultivation flow conditions. This can be achieved by using a preparation from which the silicon compound is released.

The composition may consist of silica-containing particles adhered to or interposed between the mineral fibers. In another form, the preparation consists of a mineral product that is relative to the mineral. fibers exhibit a higher silicon release in water. An example of such a product is a calcium-containing silicate, which preferably has a fiber form. Calcium disrupts the lattice in the silicate and promotes the water solubility of the silicate. For example, the preparation is admixed for about 10% by weight.

Requirements that silicon compounds according to the invention must meet include, for example: 1) The silicon compounds must be at least water-absorbable or, more particularly, water-soluble.

2) The silicon compound must be compatible with the binder to be used to make the porous product, and the hydrophilic wetting agent to be used, for example a tenside.

3) If the silicon compound is added prior to the curing of the binder resin in a curing oven, the silicon compound must be able to substantially withstand a curing temperature of about 200 ° C without a change in the silicon compound, thereby causing the solubility to be high It is also possible to add a preparation from which the silicon compound is formed. For example, an alkylsilanol (eg, ethylsilanol) or alkanolsiloxane <1, * * - 3 - (eg, hydroxyethylsiloxane) may be added. The silicon compound (silicic acid, silicon oxide) is formed during the production process.

4) The physical consistency can determine the manner of addition and the moment of addition of the silicon compound. In the case of a liquid, the silicon compound can be added when the binder or hydrophilic wetting agent is added. In this way, a particularly uniform distribution of the silicon compound is obtained. If the silicon compound consists of granular or fibrous solids, it is preferable to add the silicon compound when the mineral fibers have become somehow interrelated but the binder has not yet cured in the curing oven.

Depending on the manner of rooting the porous product, however, it may be useful to locally increase or decrease the amount of silicon compound. For example, the concentration of the silicon-20 compound can be increased in that part of the porous product in which the highest density of roots occurs, for example the lower part of the product. In order to achieve such an inhomogeneous distribution, the silicon compound or preparation can be added in a specific manner depending on the formation of the porous product. For optimum growth promotion, the water-absorbing silicon compound could be present, for example, for cucumbers, in such an amount that in the nutrient solution a concentration of more than 10 ppm, for example 20-40 ppm, preferably 30 ppm H4SO4 is achieved. In this connection it is noted that if the mineral fibers consist of rock wool fibers, in principle a very small amount of silicon compounds can be present which is absorbable in water. However, this amount is so small that there is no degree of growth promotion, while further the concentration varies greatly depending on the method used for manufacturing the material.

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s - 4 - porous product, of the density and the like.

In the following two examples, non-limiting two embodiments are given of a porous product in which a water-absorbing silicon compound is incorporated and a composition containing a silicon compound with a sustained release property, respectively, is included.

The porous product produced in accordance with the invention can be used in agriculture and horticulture as growth blocks, growth mats and germ plugs for the cultivation or cultivation or germination of plants, seedlings, cuttings and seeds, as well as soil improvers, in which the porous product the form of a granulate is added to soil, thereby loosening the soil and making it more suitable for growing certain products.

Claims (13)

Porous product based on water-absorbing mineral fibers for growing plants, characterized in that this product contains a water-absorbing silicon compound which promotes growth for the plants to be grown. Product according to claim 1, characterized in that the silicon compound is included in a preparation from which the silicon compound is released for absorption in water. 3. A product according to claim 2, characterized in that the preparation is a mineral product which exhibits a higher silicon release in water compared to the fibers. Product according to claim 3, characterized in that the mineral product is a calcium-containing silicate. Product according to claim 2, characterized in that the preparation consists of particles containing silicon oxide. The product according to claims 1 to 5, characterized in that the silicon compound or preparation is in the form of a particulate or fibrous solid. 7. Product according to claims 1-6, characterized in that the silicon compound or the preparation has a liquid consistency. Product according to claims 1-7, characterized in that the silicon compound is present in such an amount that in a nutrient solution a concentration of more than 10 ppm, preferably 20-40 ppm, more preferably 30 ppm H4SiO4 is set. 9. A method of manufacturing a porous product based on water-absorbing mineral fibers for plant cultivation, the mineral fibers being formed into a porous product using a binder and the mineral fibers being made water-absorbent with a hydrophilic wetting agent, characterized by the addition of a growth-promoting silicon compound for the plants to be grown. The method of claim 9, wherein the sili. % - <- - 6 - cium compound is a particulate or fibrous solid and is added during the formation of the porous product from the mineral fibers. The method of claim 9, wherein the silicon compound has a liquid consistency and is added to an air stream carrying the mineral fibers until formation of the porous product. 12. Process according to claim 9, characterized in that the silicon compound has a liquid consistency and is added to the finished porous product. Growth block, growth mat, germ plug and granulate comprising a porous product according to claims 1-8 or a porous product manufactured according to claims 9-12. 15 • r