SU893899A1 - Method of preventing formation of mineral salt deposition - Google Patents

Description

(54) METHOD FOR PREVENTING THE FORMATION OF SEDIMENTS GENERAL SALTS

The invention relates to methods for preventing the deposition of mineral salts in aqueous solutions and can be used in the field of water treatment, water supply during hydrotransport of ore and chemical production wastes, and wet gas cleaning. A known method of preventing the formation of deposits of mineral salts using inorganic polyphosphates ll. However, the method is not sufficiently effective due to the hydrolysis of the polyphosphates used to orthophosphates and the formation of deposits of basic calcium phosphate. The closest in technical essence and the achieved result to the proposed method is the prevention of deposits of mineral salts, which consists in introducing an aqueous solution of organic aminophosphonates 21 into the reagent being treated. The known method is not sufficiently effective, since, significantly, reducing crystallization, the reactant does not sufficiently reduce adhesion the ability of crystals to form to a metal surface due to poorly pronounced surface-active properties. In addition, the presence in the treated water of impurities and suspended solids in the amount of 200 mg / l significantly reduces the effectiveness of the reagent. The purpose of the invention is to increase the degree of sediment prevention. This goal is achieved by the fact that the treatment is carried out with organic aminophosphonates and the post-yeast brewing is additionally introduced in a weight ratio to the organic amino phosphonate from 1; 1 to; 10: 1. The post-fermented brew (PDB) is a waste product of sulphite liquor processing for alcohol and fodder yeast and has the composition,% :, Sodium salts of lignosulfonates 85-90 Mineral salts .5-8 Hydrocarbons 5-7 Amino acids 0.4-0.6 Post-fermentation brew in construction to liquefy cement raw material sludge, intensify the production of bricks and increase their strength, in production

pour to strengthen; Foundry casters during drilling operations.

Example. The influence of the proposed mixtures on the prevention of deposits of g. Of mineral salts in a suspension prepared from calcium chloride solution (C 0.5 g / l) and baud powder Na2COj (C 1.3 g / l) is determined. Due to the fact that the solubility of calcium carbonate is very small and amounts to 0.012 g / l, the solid content in the suspension during the experiment remains almost unchanged and is 0.4 g / l. The experiments were carried out in a thermo-fixed metal heat exchanger at 50 ± 0, and stirring (RCV 12500) for 2 hours. .

B. The solution is injected with a mixture of PDB and organic phosphonate in the form of a 0.1% aqueous solution in an amount of 10 / mg / l and in ratios from 0.5: 1 to 15: 1.06. tightly bound to the surface of the heat exchanger. At the end of the opyote, the heat exchanger is run through twice equal volumes of distilled water, then the residue bound to the surface of the heat exchanger is dissolved with a 0.1% HCI solution. Content

Calcium, in terms of calcium carbonate, is determined by a standard procedure.

The organic aminophosphonates used are: ethylene diamine tetraphosphonate (EDTP)

; C-HiPOjHfj.

./

N4CHi) l-N; Hr OijPH CSI RO Ig,

IP diethylenetriamine pentaphosphonate (DTPF)

CHQ POijH

Hf O-jPH t.

X

l- (oHQ.) li-N- (CHlz.)

/

  wi ° i a

;. Hexamethylenediaminetetraphosphonate GMDT)

-lC4i- °

/

(iHQ

Claims (1)

The table presents data on the effect of mixtures of the post-yeast 25 brew and organic aminophosphonates on the formation of calcium carbonate deposits (U mg / l, t 50 C). S89389 Add a crop yeast brew to an organic aminophosphonate to increase the effectiveness of a reagent for preventing mineral deposits. A small consumption of a post-brew yeast eliminates the danger of biological fouling in water supply systems. The Invention Method of Preventing & (Mineral Deposits Formation, Including Reagent Processing of Bacteria (Bones 96 Organic Aminophosphonates, characterized in that, in order to increase the degree of prevention of deposits, additional: 1 to 10si. Sources of information taken into account during the examination 1. Meshchersky NL Operation of water treatment in metallurgy, M., Metallurgists, 1974, .2, US Patent 9,331,350, class 210-58, published, 11.08 67 (prototype).