CZ11701U1 - Granulated organomineral fertilizer manufactured from fire extinguishing powder waste - Google Patents

Description

Granulated organomineral fertilizer produced from extinguishing powder waste

Technical field

The invention relates to the use of extinguishing powder waste based on mixtures of mono-ammonium dihydrogen phosphate and ammonium sulphate for the production of an organomineral fertilizer containing more than 70% by weight of the extinguishing powder waste.

BACKGROUND OF THE INVENTION

The extinguishing powder waste is due to its chemical composition destined for use as nitrogen, phosphorus fertilizer. Direct utilization of this waste for fertilization of plants is prevented by its physical properties, especially its grain size less than 0.1 mm and bulk density of about 900 kg / m ³ . The extinguishing powder waste does not form a homogeneous suspension with water and its water impermeability at 20 ° C is less than 1 g / l of water. Therefore, instead of recovery, the extinguishing powder is disposed of in landfills, mostly in containers.

A known method of utilizing extinguishing powder waste for fertilization is by mixing the extinguishing powder waste with sewage sludge or adding the extinguishing powder waste to the raw material composition of industrial compost. The enrichment of sewage sludge with this waste is a source of increased ammonia emissions in agricultural use of enriched sewage sludge. The addition of extinguishing powder waste to the compost raw material composition is useful to ensure an optimum ratio of carbon and nitrogen in fresh compost up to a value of 30. At lower levels, the amount of nitrogen delivered by the extinguishing powder waste exceeds the nutritional need for microflora for maturing. increased concentrations of ammonia from compost landings. Convenient additions of extinguishing powder waste to sewage sludge or compost represent a maximum of 5% by weight of the mixture. The resulting mixtures thus prepared are applied to the soil as organic fertilizers to maintain soil fertility and the addition of extinguishing powder waste has no significant effect on the quality of the prepared organic fertilizers.

Granular fertilizers with an extinguishing powder content of more than 70% by weight of fertilizers with good nutrient utilization by plants allowing accurate dosing of fertilizer with available applicators are not yet produced. This way of utilizing extinguishing powder waste is the most environmentally and energy efficient and because of the saving of non-renewable raw materials in the production of fertilizers.

The essence of the technical solution

The above purpose will be achieved by granulated fertilizer based on extinguishing powders and distillers or molasses residues from citric acid production, according to this technical solution, which consists in that the fertilizer contains 70-95% by weight of extinguishing powder waste and 55-30% by weight of dry matter distillery stillage or molasses residues from the production of citric acid.

The treated extinguishing powder waste contains 46 - 50% by weight of ammonium dihydrogan phosphate and 44 - 50% ammonium sulphate and is a source of mineral nitrogen and phosphorus and sulfur in the fertilizer. The addition of sticky liquid wastes from the production of fermented alcohol or citric acid is a source of potassium and easily microbiologically degradable organic matter with mobilized nitrogen.

This mixture of two wastes allows the production of granular fertilizer, which can be stored for a long time and applied by conventional fertilizer applicators. In the soil, organomineral granules disintegrate rapidly by the action of soil microorganisms and plant nutrients are made available for plant nutrition with minimal loss. The granulated organomineral fertilizer prepared in this way has a positive effect on the yield and quality of agricultural crops in comparison with conventional fertilizer type NPK with the same content of plant nutrients. Particularly favorable agronomic effect

The organic fertilizer had an organomineral fertilizer if the waste mixture prior to granulation was supplemented with agrochemicals containing other plant nutrients and microelements. Tests of agronomic efficiency of granular fertilizers carried out in containers and in small-scale trials showed a statistically significant increase in yield of 6.8-10.5% compared to standard fertilization with conventional industrial fertilizer NPKs while maintaining the same dose of applied nutrients. A particularly significant increase in yield compared to conventional industrial fertilizers occurs with the use of progressively reduced fertilizer rates of 8-14%.

Examples

EXAMPLE 11 The extinguishing powder waste was mixed with 30% dry matter distillers in a weight ratio of 4: 1 and the mixture was granulated into granules having a diameter of 3-4 mm and a length of 8-10 mm. The fertilizer produced contained 18.86% of total nitrogen, 10.83% phosphorus (24.81% P ₂ O ₃ ), 0.46% potassium (0.6% K ₂ O) and 4.45% carbon (8%). , 9% of combustible substances).

Example 2

70% by weight of the extinguishing powder waste was mixed with 30% by weight of the concentrated molasses residue after production of 40% citric acid. To 1 ton of the waste mixture was added 50 kg of solid agrochemicals containing 26% K ₂ O, 6% Mg (magnesium) and trace elements boron, cobalt, molybdenum, manganese, copper and zinc. After homogenization, the resulting mixture was granulated. The granular fertilizer produced contained 17.32% of total nitrogen in the dry matter, 9.92% of phosphorus (22.74%

P ₂ O ₃ ), 1.49% potassium (1.8% K ₂ O), 0.33% magnesium, 5.9% carbon (12% combustible substances)

0.03% boron, 0.01% cobalt, 0.005% molybdenum, 0.06% copper and 0.06% zinc.

Industrial applicability

Granular fertilizer according to the utility model can be used for fertilization of field crops, vegetables, fruit trees, both in agricultural production, as well as in small growers and gardeners.

Claims (1)

25 PROTECTION REQUIREMENTS Granular organomineral fertilizer based on extinguishing powder and distillery waste or molasses residue from citric acid production, characterized in that it contains 70 to 95% by weight of extinguishing powder waste and 5 to 30% by weight of dry matter of distillery stillage or molasses residue from acid production lemon. 2. A granular organomineral fertilizer according to claim 1, characterized in that it contains agrochemicals containing other plant nutrients and microelements.