PL194101B1 - Calcium-magnesium mineral fertilizer - Google Patents

Abstract

Mineral calcium and magnesium fertilizer containing calcium derived from carbide lime, characterized in that it contains homogenized carbide lime in an amount of 20-80% by weight, ground dolomite in an amount of 20-80% and possibly gypsum in an amount of 10-20% by weight.

Description

REPUBLIC

POLAND

Patent Office of the Republic of Poland (12) PATENT DESCRIPTION (19) PL (11) 194101 (13) B1 (21) Application number: 356786 (51) Int.Cl.

C05D 11/00 (2006.01) C05D 3/02 (2006.01) (22) Date of notification: 22.10.2002 (54)

Mineral calcium and magnesium fertilizer

(43) Application was announced: 04.05.2004 BUP 09/04 (73) The right holder of the patent: Fertilizer Research Institute, Puławy, PL (45) The grant of the patent was announced: April 30, 2007 WUP 04/07 (72) Inventor (s): Stanisław Nastaj, Puławy, PL

⁽⁵⁷⁾ 1. Calcium-magnesium mineral fertilizer containing calcium derived from carbide lime, characterized in that it contains homogenized carbide lime in the amount of 20-80% by weight, ground dolomite in the amount of 20-80% and possibly gypsum in the amount of 10-20% by weight.

PL 194 101B1

Description of the invention

The subject of the invention is a calcium-magnesium mineral fertilizer containing calcium derived from carbide lime and dolomite.

Known from Polish patent specification No. 136 859 is a mineral fertilizer containing calcium and magnesium, constituting a homogenized composition of 75-25% by weight of carbide lime from wet acetylene generators with a composition in percent by weight of about CaO -46%, Al2O3 -1%, SiO2, -1 %, Fe2O3 - 1%, C-1%, H2O -50% and 25-75% by weight of hard coal fly ash with a composition in percent by weight of ca. CaO -8%, Al2O3 - 28%, SiO2 - 48%, Fe2O3 - 11%, MgO -up to 4% and small amounts of Mn, Zn, Cu, Ni, Mn, K, P.

The mixture with a higher ash content was intended for lighter soils, poorer in magnesium, and the compositions with a lower ash content for coarser, acidic soils requiring greater de-acidification.

The fertilizer according to the invention is characterized in that it contains homogenized carbide lime in an amount of 20-80% by weight, ground dolomite in an amount of 20-80% by weight and, optionally, gypsum in an amount of 10-20% by weight.

Preference is given to using as carbide lime with the approximate composition: CaO -46%, A12O3 - 1%, Fe2O3 - 1%, SiO2 - 1.5%, C - 0.5%, H2O -50%, while dolomite is used as dolomite with an approximate composition: CaO -27%, MgO - 22%, CO2 -51%, H2O -10%. Gypsum is used as gypsum with an approximate composition: CaO - 32.5%, SO3 - 46.5%, H2O -21%.

The fertilizer is definitely alkaline due to the presence of carbide lime - reactive calcium hydroxide. When it is used on acidic soils, the proportion of components derived from carbide lime in the fertilization should be higher, as this component is able to quickly change the acidity of the soil.

The second component - dolomite, a mixture of calcium and magnesium carbonate having the characteristics of a slow-release fertilizer, will maintain the pH produced by carbide lime, while releasing calcium and magnesium ions into the soil at a slow rate, resulting from the product of solubility of both carbonates.

The third component of the fertilizer, gypsum, also has a low solubility product, and if it is a fertilizer component, calcium and sulphate ions will be released at a slow rate.

If the fertilizer is to be applied to neutral or slightly acidic soils, the proportion of dolomite and possibly gypsum components should be higher.

The specific proportions of the above-mentioned components are determined by the condition of the soil on which the fertilizer is to be applied and the content of Ca, Mg, S and soil pH in the soil.

Example I.

10 kg of ground dolomite with a water content of 10% was added to 10 kg of carbide lime with a water content of 10%, thoroughly mixed in a paddle mixer, obtaining irregular agglomerates, which were then granulated (coated) in a granulating plate. The fresh granules with a granule size ranging from 2 to 6 mm contained about 30% water.

The granules had relatively low mechanical strength. After drying to a moisture content of about 1-1.5%, the average strength of the granules with a diameter of about 4 mm was 10-12 N / granule. The fertilizer does not tend to clump. In terms of dry weight, the fertilizer contained: 32.8% CaO in the form of active Ca (OH) 2, 17.3% CaO in the carbonate form and 14% MgO in the carbonate form.

Example II

To 10 kg of carbide lime with a water content of 50%, 7 kg of ground dolomite with a water content of 10% and 3 kg of crushed dihydrate gypsum were added, thoroughly mixed in a paddle mixer, obtaining irregular agglomerates, which were then granulated (coated) in a granulating plate.

The fresh granules with a granule size ranging from 2 to 6 mm contained approximately 32% water. After drying the pellets to a moisture content of approx. 5%, the average strength of the pellets is approx

4mm was 10-15 N / pellet. In terms of dry weight, the fertilizer contained: 32.8% CaO in the form of active Ca (OH) 2, 20.5% CaO in the carbonate and sulphate form, 11% MgO in the carbonate form, 4% sulfur in the sulphate form.

PL 194 101 B1

Claims (4)

Patent claims CLAIMS 1. Calcium-magnesium mineral fertilizer containing calcium derived from carbide lime, characterized in that it comprises homogenized carbide lime in an amount of 20-80% by weight, ground dolomite in an amount of 20-80% and optionally gypsum in an amount of 10-20% by weight. 2. The fertilizer according to claim The method of claim 1, characterized in that the carbide lime is composed of lime with an approximate composition: CaO - 46%, Al2O3 - 1%, Fe2O3 -1%, SiO2 - 1.5%, C - 0.5%, H2O -50%. 3. The fertilizer according to claim 2. The process of claim 1, wherein the dolomite is used as dolomite with an approximate composition: CaO -27%, MgO -22%, CO2 -51%, H2O - 10%. 4. The fertilizer according to claim The method of claim 1, wherein the gypsum is gypsum with an approximate composition: CaO - 32.5%, SO3 - 46.5%, H2O -21%.