SU899514A1 - Process for producing complex n-p-k fertilizer - Google Patents

Description

one

The invention relates to chemical technology of mineral salts and fertilizers.

A known method of producing fertilizer is by decomposing potassium chloride with phosphoric acid, followed by neutralization of the resulting potassium acid orthophosphate plaza with gaseous ammonia (1.

The disadvantages of the method are the relatively low content of nitrogen B fertilizer and the fact that all the phosphorus in it is in ortho form.

The closest to the proposed technological essence and the achieved result is a method of obtaining complex N-P-K fertilizer by decomposition of potassium-containing raw materials with high content of acid, followed by neutralization of the melt with a nitrogen-containing component. In this method, potash ore is treated with concentrated phosphoric acid, and the resulting melt is then neutralized with urea 2J.

The disadvantages of the method are the unbalanced ratio N: Pjpj:; KjO in the fertilizer, which is 1: 5: 1.5, which does not satisfy the requirements of agriculture,

It also means that the fertilizer does not contain sulfur, an essential trace element for plants.

The aim of the invention is to obtain a fertilizer with a balanced ratio of 1LrO O: KO to sulfur containing.

The goal is achieved by the fact that according to the method of obtaining

10 complex NPK fertilizers by decomposing the potassium-containing raw material with an acid with a high content, followed by neutralization of the melt with the nitrogen-containing component. guanidine, biguanidine, or guanine20 dicarbonate, take (in the weight ratio N of guanidine - PjOj. acid 0.5-1.0: 1.0.

Example 1.67 g of potassium chloride decompose 100 g of SPFC (84.5 ftOs)

25 in a quartz reactor equipped

stirrer, for 45 min. After distilling off the chlorine to the gas phase, the melt is cooled and 47 g of guanidine carbonate are neutralized at. Neutralized light water

granulated. A fertilizer is obtained that has a composition,%: P., 48.78 PjOseo H, 48r72f 22.4; N 21,74 and SOj 5,61, the ratio of nutritional components N - - 0.5: 1: 0.5 amount of nutritional components of 94.91%

Example 2. 74.54 g of potassium carbonate decompose 100 g of SPFC at 260 ° С within 30 minutes. The melt is cooled and neutralized with 49 g of guanidine at. The neutralized melt is granulated. Get fertilizer composition,% i PtOy, 5m, 36,69; PjLOyMe 36.05 Kj; O 18.35; N 35.46; SOj 5.62. Sotsis yenie nutritional components N - PjOf- jO l; ljO, 5. The amount of nutrients is 90.50%.

PRI and MER 3. 85.5 g of potassium chloride decompose 100 g of SPFC at DPS within 20 minutes. The resulting play is cooled and neutralized with 26 g of biguanide at. The neutralized melt is granulated. Semi, convenient 1 | its composition.%: P OusKm ,. 49.09; PrOvooon 40.04; K, O 26.38j .N18.90; SO 5.57. The ratio of nutritional components of N-PaOj-kiO 6.5: 1: 0 66. The sum of nutrients is 85.37%.

Using the proposed method allows to obtain complex N-P-K fertilizers with the most favorable ratio of nutrients (0.5-1) i1 (0.5-0.8) and with a content of 2-22% sulfur.

Claims (2)

1.Ind and Eng Chem. Prood. Res c and Develop, 1971, 10, 4, p. 437441. 2. Japanese Patent No. 8379, cl. 1, Sat 121, 1959.