SU1091890A1 - Method of separation of phytoplancton from natural or artificial water medium - Google Patents

Abstract

METHOD FOR THE EFFECTIVENESS OF FITOPLANK-; TONS OF NATURAL OR ARTIFICIAL AQUATIC ENVIRONMENT, including its concentration and removal of biomass into a receiver, characterized in that, in order to more fully release phytoplankton, the aquatic environment is subjected to electro-flotation, and the phytoplankton that floated to the surface and concentrated complexes - oxygen is removed. (L

Description

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The invention relates to the collection of utah for the breeding of hf organisms and can be used in fish farming or agriculture. There is a known method of phytoplankton isolation from a natural or artificial aquatic environment by creating an electric field to precipitate microorganisms on the electrodes; lj. This method is time consuming and requires a significant cost of electricity. Electroflotation is known for dividing various substances from water. This method is also time consuming and requires significant energy costs. There is also known a method of phytoplncton separation from a naturally occurring or artificial aqueous medium by precipitating it with tetrachloride solution of sodium sulfide with the subsequent removal of biomass з1. This method does not allow complete

to isolate the entire phytoplankton 5 requires considerable effort.

The aim of the invention is to take a lot of effort and a more complete isolation of the phytoapunk-ton from the aqueous media. This goal is achieved by the fact that according to the well-known method, the medium is electrofloted due to the electrolysis of water, oxygen, charge positively, favors everything; and the concentration of biomass is not according to: er.rkh carry water, then the biomass s.gpmayut .3 receiver.

The method of exiting, phytophic, anthropogenic or organic water environment includes its concentrate and its removal and bio-trails, while exchanging the elimination of phytoplankton to 100% for the fullest release of phytoplankton to the whole environment. The clarified solution is used for 11OBTOR 1OgKu.lgivirovna au in a closed system.

The proposed ") th method compared with the known almost complete extraction of plankton (by the same STOPKTVy to the possibility of OSU

To crown process is continuous, except for ioro, the early way of universalg. en5 in it. toxic re-arsHTMj-hence 5 lower-gs contaminated environment and ugs are eliminated. Ishots. Processologists & elimination of filtration and uke: 1-, penip proizvodstvevekkk e; .-: spies. HHHj, and the surfaced and phytosulfated complexes of the phyto-palactone oxygen are removed to the receiver,. P p and m: p. In the battery of the camera feeds a zod with a known unit: phytoplankton etration. TexnojjorHH flow-through, continuous, with a series of cameras. The time S needed for the most complete about: - 13fc; phytoplankton phycnical, is regulated by the volume of chambers, their quantity and the voltage of the current supplied to the electrodes immersed in water. The positively charged oxygen bubbles resulting from the electrolysis of water, due to electrostatic forces, adhere to negatively charged phytoplankton floccules, and under the influence of pushing forces, the resulting phytoplankton-oxygen complexes emerge and concentrate on the surface of the water in a form, foam, which I used. to receiver, voltage on electrodes 24 V-, time

Claims (1)

METHOD FOR ISOLATING PHYTOPLANKTON FROM NATURAL OR ARTIFICIAL AQUATIC ENVIRONMENT, including its concentration and removal of biomass into a receiver, characterized in that ₍ in order to more fully isolate phytoplankton, the aqueous medium is subjected to electroflotation, and the floated and concentrated complexes of phytoplankton ^{1 are} subjected to phytoplankton ¹ take off in the receiver.