Abstract: The present invention relates to the environment protection and, more specifically, to microbiological processes for recultivation of industrial refuse heaps.The process of the present invention involves treatment of the heaps with fertilizers resulting from purification of production-communal waste waters, followed by treatment with a humic preparation containing a culture of the mold fungus Aspergillus niger. Then plowing of the ground is effected with a subsequent sowing with seeds of perennial plants. The heap surface sown with said seeds is inoculated with a bacterial preparation containing a culture of ammonifying and nitrifying bacteria.During the period of the plant sprouting and tillering inoculation is effected by means of a bacterial preparation containing a culture of azotobacter and phosphate-dissolving bacteria. All these bacteria are recovered from said refuse heaps, wherefore they are already adapted thereto.
Type:
Grant
Filed:
January 4, 1980
Date of Patent:
March 2, 1982
Inventors:
Anatoly N. Khoroshavin, Irina V. Kataeva, Gennady A. Oborin, Alexandr P. Krasavin
Abstract: A process of stabilizing soil which comprises contacting such soil with an aqueous solution of a water-soluble diacrylate ester of a polyoxyalkylene glycol monomer, which solution also contains a water-soluble polymerization catalyst capable of polymerizing the monomer into a water-insoluble gel.
Abstract: Esters of comenic acid were found to form metal chelate compounds with various metal ions and these chelate compounds are soluble in organic solvents. This finding makes it possible to recover or remove metal ions from industrial drainage and the like.
Abstract: The invention relates to a method and a device for separating liquids and solids from a mixture, in which the mixture is applied in the form of a layer to a movable, endless filter belt, which is supported from a subjacent suction box adapted to move parallel to the belt, in which box a subatmospheric pressure is intermittently produced, the liquid constituents of the mixture being drawn across the filter belt during the periods of subatmospheric pressure, while the filter belt and the suction box are in intimate contact with each other and do not move relatively to each other owing to the suction force, whereas at the restoration of the atmospheric pressure in the suction box a relative displacement of the filter belt and the suction box is carried out.