RU2016851C1 - Method of fat-containing sewage treatment - Google Patents

Abstract

FIELD: sewage treatment in food industry. SUBSTANCE: sewage are treated with culture Aspergillus niger (strain 288) at pH 4.5-5 and temperature 28-30 C for 48-50 h. EFFECT: improved method of sewage treatment. 2 tbl

Description

 The invention relates to methods for biochemical wastewater treatment of food enterprises, in particular, the oil and fat industry.

 A known method of wastewater treatment for the production of palm oil [1], which contain protein and fatty substances, as well as a large number of suspended particles. This method provides centrifugation and subsequent treatment of wastewater with activated sludge.

 The disadvantage of this method is its inefficiency, since activated sludge does not find further application.

 Closest to the proposed invention is a method of treating wastewater of food production [2], according to which it is proposed to carry out the cultivation of fungi, in particular Aspergillus orysae, Asp. fumigatus, Asp. niger, Trichoderma viride, in wastewater containing organic waste, in order to reduce the chemical consumption of oxygen (COD). Then filtering is provided, while along with the mycelium, solid particles that are not disposed of during biological treatment are also retained. Therefore, when selecting the appropriate microorganisms to increase the filtration efficiency, preference is given to fungi capable of forming filamentous mycelium. It is unprofitable to sterilize effluents for the subsequent cultivation of selected strains of microorganisms. Therefore, in order to slow the development of extraneous microflora, it is proposed to conduct the process at pH = 3-3.5. To create favorable conditions for the growth of mycelial fungi, the cleaning process is carried out only under aerobic conditions. The precipitate remaining after filtration is recommended to be used as a feed additive.

 The disadvantage of this method is the use in the cleaning process of pathogenic microorganisms, which reduces the biological value of the resulting feed biomass. Some strains of Asp. fumigatus are causative agents of pulmonary diseases in poultry, while it is proposed to use the dry residue as a feed additive in poultry farms. Also, this method provides for the isolation of only solid particles from wastewater, while the cultivation of some recommended types of fungi releases substances belonging to the antibiotic group into the external environment, for example: Asp. orysae - kojic acid; Asp. fumigatus - fumigacin, glitoxin, aspergellin, sinulosin; Trichoderma viride is viridin, which cannot but affect the environment when such filtrates are dumped into a reservoir. The disadvantage of this method is also the limitation of its application. It is recommended to use this method for wastewater treatment containing starchy waste and waste from fermentation plants. On the other hand, the widespread use of biological treatment in various sectors of the food industry is of interest.

 The aim of the invention is to increase the degree of extraction of polluting components of effluents and increase the growth of biomass of microorganisms with its further use as feed for animal husbandry.

This is achieved in that, the processing of the active microbial culture wastewater species Aspergillus niger strain 288 (Asp. Niger 288) at an initial pH of 4.5-5 and a temperature of 28-30 ^{° C} for 48-50 hours.

The studies were conducted on the wastewater model of mayonnaise production, as the most characteristic for the oil and fat industry and, in addition, difficult to clean by traditional methods. The composition of the drain, g / l: mayonnaise 30; Na ₂ CO ₃ 5.

 After sterilization by autoclaving (0.5 h at 1 ATM), media samples were inoculated with the prepared Asp culture. niger 288.

 An increase in the biomass of the microorganism, which occurs due to the consumption of carbon of fatty substances that make up the polluting components of the runoff, is taken as an indicator of the efficiency of wastewater treatment.

 In the first four examples, when identifying the optimal physicochemical parameters of the cultivation process of the fungus Asp. niger 288, the result is determined 48-50 hours after inoculation of the medium, since this time is enough to obtain a result that reliably reflects the effect of the considered parameters on the physiological state of the microorganism.

 Increasing the degree of extraction of contaminating components is due to the possibility of their disposal by the fungus Asp. niger 288, which has a strong enzymatic system operating under optimal physico-chemical conditions.

 The increase in biomass is due to the fact that the substances in stock are used as a substrate for building cellular material.

Wastewater Treatment Asp. niger 288 was carried out at pH 4.5-5, since at lower pH values the microorganism does not develop, and at higher pH there is a decrease in enzymatic activity
The treatment temperature should be maintained within 28-30 ^{° C,} because at values below 28 ^{° C} fungus develops poorly and settings above ^{30 °} C causes deterioration of the physiological state of the microorganism.

 Processing within 48-50 hours is sufficient, since during this period the adaptation stage Asp. niger 288 and the fungus growth stage.

 From the scientific and technical literature were not found distinctive signs from the prototype in this and related industries.

PRI me R 1. In a medium simulating the wastewater of mayonnaise production, prepared culture Asp. niger 288 to a biomass content of 0.9 g / l. Previously, media samples were acidified to pH = 7.0. Cultivation was carried out at a temperature of 30 ^about C.

 After 48 h, the growth of biomass was 1.5 g of absolutely dry matter per 1 liter of culture fluid (g ASB / l).

PRI me R 2. The method was carried out according to example 1, only cultivation was carried out at a temperature of 37 ^o C. In this case, the growth of mycelium is not observed, in addition, at the end of the process, the pH of the medium increased to 9.3, which indicates autolysis has occurred microorganism cells.

PRI me R 3. The method was carried out according to example 1, only cultivation was carried out at pH = 4.5 and a temperature of 37 ^about C. In this case, the growth of mycelium is not observed.

PRI me R 4. The method was carried out according to example 1, only the cultivation was carried out at a pH of 3.0; 4,5; 5.0; 6.0, and a temperature of 30 ^about C. The result is shown in table. 1.

The best result was obtained when using a microorganism at pH 4.5 and ³⁰ ° C.

PRI me R 5. The method was carried out according to example 1, the cultivation was carried out at pH = 4.5 and a temperature of 30 ^about C. The results obtained after 24 hours, 48 and 72 hours are presented in table. 2.

 From the analysis of the table we can conclude that there is a significant increase in biomass due to the consumption of polluting runoff components, which can be judged by the value of COD. But from 48 hours to 72 hours there is also an increase in the content of organic acids, as a result of which COD sharply increases. Therefore, the optimal process is a duration of 48-50 hours

Compared with the prototype of the present invention has the following advantages:
obtaining complete fodder protein, which implies a partial payback of the effluent treatment process;
the use of non-pathogenic microorganism;
treatment of fat-containing wastewater that is difficult to treat by traditional methods;
increased yield of feed biomass.

Claims (1)

METHOD FOR CLEANING fat-containing sewage, which comprises administering to wastewater culture microscopic fungi, wherein the fungi is used as Aspergillus niger strain 288, while the pH and temperature of the waste water is maintained in the ranges of 4.5 - 5 and 28 - ^{30 °} C, respectively and water treatment is carried out for 48 to 50 hours

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