CS205774B1 - Method of preparation of biologically effective compounds of copper,zinc,cobalt and molybdenum and mixtures or concentrates thereof for nutrition of plants - Google Patents

Description

The invention relates to a process for the preparation of physiologically active compounds of copper, zinc, cobalt and molybdenum and mixtures or concentrates thereof on insoluble inactive carriers for the growth of rhizomes. These physiologically active plant nutrients can be prepared from waste catalysts containing copper, zinc, cobalt and molybdenum in the form of oxides or sulfides of these metals.

The physiological efficacy of copper, zinc, cobalt and molybdenum in soil in trace amounts, their mechanism of action and their impact on crop growth and yields are generally known.

The actual application of copper, zinc, cobalt and molybdenum to the soil environment is carried out so far mainly in the form of their water-soluble salts. This method has advantages in the ease of self-dosing of micro-nutrients in the soil · The practical usefulness of these micro-nutrients introduced into the soil in the form of water-soluble salts is reduced during crop growing by leakage of these elements together with water into the lower soil layers. the crop period decreases and during this unevenly affects crop growth and yields. The introduction of micronutrients in the necessary and necessary amount into the soil on an inactive carrier is also known. The disadvantage of this method of introducing micronutrients into the soil is only the partial release of the microwaves in the soil environment from the surface of the mechanically treated glass, which is not large due to the mass of the glass. Part of the microelements enclosed in the enamel mass remain unused.

Said drawbacks can be overcome by introducing into the soil micronutrients prepared according to the process of the invention.

The process according to the invention makes it possible to prepare physiologically active compounds of copper, zinc.

cobalt and molybdenum and mixtures thereof Si concentrates on an insoluble inactive carrier, the source of which is waste industrial catalysts containing copper, zinc, cobalt and molybdenum, the contents of physiologically active copper, zinc, cobalt and molybdenum metals in mixtures , for copper not more than twice the zinc content, for zinc not more than twice the copper content and for cobalt not more than one third the molybdenum content, which is ground to a particle size of 0,001 - 3,0 mm ·

The process for obtaining the physiologically active copper, zinc, cobalt and molybdenum compounds of the invention has a number of advantages.

The sources of copper, zinc, cobalt and Molybdenum are waste industrial catalysts, which reduces the consumption of fresh raw materials for these purposes and gives the possibility to reuse waste products from a number of chemical plants.

Particularly suitable are waste catalysts from the production of polyethylene and polypropylene and waste hydrotreating catalysts. By controlled combustion at temperatures not exceeding 400 ° C, unwanted impurities such as hydrocarbons, coke and pyrophoric compounds can be removed from the waste catalysts if they are contained in petrochemical or refining catalysts.

This process simultaneously converts sulphides, in particular cobalt and molybdenum, into the oxide form. The treated catalysts containing copper, zinc, cobalt and molybdenum can be used as a source of these metals for the preparation of mixtures or concentrates of copper, zinc, cobalt and molybdenum. mixtures with other fertilizers for direct application without the risk of introducing other undesirable substances into the soil environment ·

The process according to the invention takes advantage of the fact that in the waste catalysts copper, zinc, cobalt and molybdenum are anchored on an insoluble inactive carrier which does not contain any other substances in amounts preventing the use of waste catalysts for agriculture. .

The following examples illustrate the invention.

Example 1

A laboratory vessel containing 7 kg of substrate consisting of 80% glass sand and 20% soil was charged with a 0.001-3.0 mm waste catalyst mixture containing 50 mg molybdenum, 16 mg cobalt, 5 mg copper, 10 mg zinc, 3 mg carbon and 3 mg sulfur · White mustard (Sinapis alba) was seeded into this substrate. The crop increment was 31% higher than in control substrates without the addition of these metals and corresponded to increments of control substrates containing molybdenum, cobalt, copper and The amount of metals determined in the ashes of the plants from both comparative experiments corresponded to the dosed amounts of these metals both in the form of waste catalysts and in the form of water-soluble salts.

Example 2

50 mg of molybdenum, 50 mg of copper and 50 mg of carbon and sulfur-free zinc in the form of waste catalysts with a particle size of 0.001 - 3.0 mm were added in parallel to laboratory vessels containing 7 kg of substrate consisting of 80% glass sand and 20% soil. these substrates were seeded with white mustard (Sinapis alba). The crop increment was 20% higher than the control substrate without the addition of molybdenum, 15% higher than the control substrate without the addition of copper and 17% higher than the control substrate without the addition of zinc; corresponded to increments of control substrates in which molybdenum, copper and zinc were used in parallel in the form of the water-soluble salts of these metals at the same dosing.The quantity of individual metals at the same dosing. in the form of waste cat as well as in the form of their water-soluble salts.

Claims (1)

SUBJECT OF THE INVENTION A process for the preparation of physiologically active compounds of copper, zinc, cobalt and molybdenum and mixtures or concentrates thereof for the nutrition of plants on an insoluble inactive carrier, characterized by the use of waste industrial catalysts containing copper, zinc, cobalt and molybdenum, Copper, zinc, cobalt and molybdenum active metals in the mixture may not be more than 10 times the copper content for molybdenum, not more than twice the zinc content for copper, not more than twice for the zinc content and not more than one-third for the cobalt content. 0 mm ·