SU814893A1 - Method of biological purification of waste water - Google Patents

Description

A complex of blue-green algae and bacterial cultures possessing nitrogen-fixing ability, the ability to distribute phosphates, fiber and humates are introduced into the effluent. These microorganisms are cultivated separately on selective media. Then, the suspension of these microorganisms is cultivated in the waste liquid in an open tank until the maximum biomass of activated sludge is accumulated. In 8–17 h in tanks, contamination with COD of about 4,000–10,000 mg to 2,000 mg 0 / l is reduced. Further purification in this reservoir is inexpedient, since the community of blue-green algae and the basal crops with further cultivation will give secondary organic matter as a producer of its viability, which will lead to an increase in COD of effluent. After treatment of the effluent with a complex of algae and bacterial cultures, they are subjected to further additional purification, for example, purification in aeration tanks 3.

Thus, in this case, cleaning using algae. It is only a preliminary stage of wastewater treatment before devices for further biochemical treatment, but does not solve the problem of wastewater treatment completely. This method is rather expensive, since it requires considerable time and money to prepare the algobacterial complex, to build and operate aeration tanks or biofilters. The cleaning process is rather lengthy, since it provides, in addition to the treatment of the effluent with the algobacterial complex, further purification in aeration tanks or biofilters. Thus, this method does not fully purify the effluent, but is only a pretreatment of them.

The closest in technical essence and the achieved result to the proposed is a method of biological wastewater treatment by aeration followed by settling. The degree of purification in this case is about 20% 4.

The purpose of the invention is to increase the degree of purification. This goal is achieved by introducing monoculture of green microalgae in a known method of biological treatment into wastewater, preferably in an amount of 0.010.2 kg per m of wastewater, and aeration is carried out for 2-6 hours and settling for 8-24 hours

The essence of the method lies in the fact that the stock and inoculated with a monoculture of photosynthesized microalgae are subjected to intensive mixing and aeration with air.

which leads to a rapid saturation of the effluent being treated with oxygen. Due to. This, drastically changes the redox conditions of the environment, and this in turn causes a change in the state of aggregation of organic substances contained in the effluent. Already during aeration, flocculation of organic substances is observed in the effluent, indicating the formation of colloidal particles from molecules of dissolved organic substances. After mixing and aeration of the effluent is stopped, a flocculent precipitate is formed, containing the microalgae cell and aggregated organic substances, which are easily separated from the supernatant.

. The supernatant after settling (8-24 hours), during which the aggregation of colloidal particles and algae cells continues, significantly relieves, partially (or completely) the original, peculiar smell disappears. After settling, the supernatant liquid is drained off Inoculum of microalgae can be re-processed with vigorous stirring, and aeration followed by repeated settling.

PRI me R The raw COD value of the waste water is 2800 mg C. The water is a black liquid with a strong, specific odor. Sewage water is inoculated with a chlorella monoculture, and monocult-uru of chlorella of different concentrations is added to equal volumes of waste water. In the first case, 1 10 cells / ml, in the second - 10.10 cells / m After inoculation, the waste water is aerated with air (17 m-air per 1 m waste liquid per hour) and is stirred vigorously (fluid circulation to .250). The duration of treatment (aeration with mixing) in the indicated cases is different. In the first case - 4 hours, in the second - 5 hours. After treatment with vigorous stirring and aeration, clarification is observed. Liquids, the specific smell disappears. Then the stock is defended

In tab. 1 shows the results of wastewater treatment using a culture of chlorella. As these results show, various factors of the purification process, such as the amount of inoculum that was injected and the microconductor mixture, the duration of aeration and settling, affect the cleaning rate (reduction of COD). Increasing the amount of chlorella inoculum from up to 110 cells / ml accelerates the process of COD reduction. The same applies to the duration of settling drains after stirring and aeration.

Tab. faces

1. Aeration with mixing for 4 hours 2800 1870

Settling within 8 hours

2 Aeration with mixing for 4 hours

Settling for 21 hours

3. Aeration with mixing for 4 hours

Cleaning degree

in% to the original

90%

Table 2 shows the results of cleaning the wastewater of the microbiological industry using the percentage of cleaning from the initial contamination value.

. Aeration with over 1200 1200 stirring for 5 hours

Settling in

1200

900 for 16 h

Aeration with mixing in

900 for 5 h

360

Settling in

360

260 for 16 h

90%

Ervania aeration and aeration with the introduction of a culture of green microalgae.

Table 2

0%

60%

Thus, the initial introduction of green algae cultures with continuous aeration increases the cleaning effect several times. During the treatment of the effluent according to the proposed method, a decrease in oxidability up to 90-95% of the initial value is observed.

Claims (4)

1. A method of biological treatment of wastewater, including aeration followed by settling, is due to the fact that, in order to increase the degree of purification, a monoculture of green microalgae is introduced into the wastewater; 2. A method according to claim 1, characterized in that the monoculture of green algae is introduced in an amount of 0.01-0.2 kg per m of wastewater. 3. Method according to claims 1 and 2, characterized in that the aeration is carried out for .2-6 hours, and settling - 8-24 hours. Sources of information taken into account in the examination 1.Biologicheskie ponds in the practice of wastewater treatment.1966, p.1-8. 2. Authors certificate of the USSR 554214, cl. C 02 C 5/10, 1977. 3. USSR author's certificate No. 524777, cl. WITH 02 C 5/10, 1976. 4 .. Yakovlev S, V. and others. Kanapizadin. M., stroiizdat, .1972, p. 141.