EA017614B1 - Chlorella vulgaris buzovna microalga thermophilic strain for producing biomass and method therefor - Google Patents

Abstract

The invention relates to biotechnology, in particular to producing a biomass applicable in a wide range of different spheres of human activity, e.g. medicine, cosmetology, sports, agriculture and veterinary. CCAP 211/115 Chlorella vulgaris Buzovna termophilic strain is obtained by direct separation from natural body of water (Beyuk-Shor relict lake) on Apsheron peninsula in Azerbaijan Republic. A method for producing CCAP 211/115 Chlorella vulgaris Buzovna termophilic strain is realized in conditions providing photosynthesis at natural solar and/or artificial lighting at pH 4-10, temperature 25-40°C by culturing the strain during 5-10 days and periodic separation biomass from a liquid phase directed to recycling by a reverse osmosis in an agitated unified Tamia medium containing (g/l): potassium nitrate 0.5; ammonium sulfate 0.2; calcium phosphate 0.03; sodium hydrocarbonate 1.0; magnesium sulfate 0.08; potassium chloride 0.0025; iron (II) sulfate 0.15; cobalt nitrate 0.00001; zinc sulfate 0.00002; vanadium-acidic ammonia 0.00002; manganese chloride 0.00001. The suspension is agitated mechanically and/or by air bubbling or a mixture air:COin ratio (98-99.8):(0.2-2) accordingly.

Description

(57) The invention relates to biotechnology, to the production of biomass with a wide range of uses in various fields of human activity: medicine, cosmetology, sports, agriculture and veterinary medicine. The thermophilic strain SogogsPa \ i1c | ap5 Βιιζονηη SSAR 211/115 was obtained by direct isolation from a natural reservoir (relict lake BoyukShor) on the Absheron peninsula of the Republic of Azerbaijan. A method for producing biomass of a microalgae strain СЫоге11а \ и1с | ап5 Βιιζονηη ССАР 211/115 is carried out under conditions that provide photosynthesis in natural sunlight and / or artificial lighting at pH 4-10, a temperature of 25-40 ° C, by culturing the strain for 5-10 days with periodic separation of biomass from the liquid phase, sent for reclamation by reverse osmosis, in a Tamiya mixed unified medium containing (g / l): potassium nitrate 0.5; ammonium sulfate 0.2; calcium phosphate 0.03; sodium bicarbonate 1.0; magnesium sulfate 0.08; potassium chloride 0.0025; iron (II) sulfate 0.15; cobalt nitrate 0.00001; zinc sulfate 0.00002; ammonium vanadium acid 0.00002; manganese chloride 0.00001. Mixing of the suspension is carried out mechanically and / or by sparging with air or with an air: CO2 mixture in the ratio (98-99.8): (0.2-2), respectively.

017614 B1

The invention relates to biotechnology and is a thermophilic strain of unicellular green algae C111oge11a yi1dap8 ζυζονηα, intended for the production and processing of biomass as an additive in feed for poultry, livestock, fish farming and sericulture [2, 3, 5, 6, 7]. Equally important is the use of biomass SYogeya ui1dap8 Βυζονηα for biological fuels - biodiesel, waste water and waste CO _2.

Known thermophilic strain of unicellular green algae C111oge11a yi1dap§ N with a temperature optimum of 42 ° C, obtained by mutational selection using nitrosomethylurea from wild strain 132. The strain was deposited in VKPM under N A-29. The morphological and physiological properties of the strain are presented. Cultivation in laboratory conditions on the environment of Tamiyya, in experimental conditions on mineral media. [KN, 2005777, ί.Ί2Ν 1/12, 01/15/1994]. The disadvantage of strain C111oge11a yi1dap§N is a narrow temperature spectrum (42 ° C), adaptability to the hot climate of Central Asia and cultivation in glass tube industrial photoreactors (patent KN 2005777). Also known is a strain of unicellular green algae Syoge11a ui1dap8 LARG-3, intended for industrial production. The temperature optimum for the growth of this strain is 38 ° C, at which the strain productivity is 45-50 g asv / m per day. There is also known a method for biological wastewater treatment of fish processing enterprises using strain C111oge11a ke§81eg1 1PPA S-112 (patent KN 2064454). The essence of the method consists in the treatment of wastewater with microalgae C’111oge11a ke§81eg1 1PRA S-112 in order to form algocenosis. The disadvantage of this method is the narrow range of treatment - only the wastewater of fish processing enterprises - and incomplete purification from microorganisms. A strain of unicellular green algae Syoge11a ui1ad8 N S-111 is known, which has high productivity and meets the requirements of industrial cultivation (Aut. St. 8ϋ 1751981). The disadvantage of the strain Cioge11a yulapad8 N C111 is the seasonality in development (from May to December), the exactness of the composition of the nutrient medium, a stable cycle of cell development, a narrow range of cultivation temperature (26-36 ° C).

Claims (3)

CLAIM 1. Thermophilic strain of microalga Сыогеба уЫдапз Втоупа ССАР 211/115 to obtain biomass. 2. The method of producing biomass of the microalgae Sygegeb ui1dabz Woupa SSAR 211/115 c strain - 4 017614 conditions providing photosynthesis under natural solar and / or artificial light at pH 4-10, temperature 25-40 ° С, by cultivating the strain for 5-10 days with periodic separation of biomass from the liquid phase, sent for recultivation by reverse osmosis, in a stirred unified medium of Tamiya containing (g / l): potassium nitrate 0.5; ammonium sulfate 0.2; calcium phosphate 0.03; sodium bicarbonate 1.0; magnesium sulfate 0.08; potassium chloride 0.0025; iron (II) sulfate 0.15; cobalt nitrate 0.00001; zinc sulphate 0.00002; ammonium vanadium 0,00002; manganese chloride 0.00001. 3. The method according to claim 2, characterized in that the mixing of the suspension is carried out mechanically and / or by bubbling with air or an air: CO ₂ mixture in the ratio (98-99.8) :( 0.2-2), respectively.