SU1039899A1 - Process for purifying effluents from hydrolysis and yeast production - Google Patents

Abstract

1. METHOD OF SEWAGE WATER TREATMENT OF HYDROLYTIC-YEAST PRODUCTION, including biological treatment and treatment with calcium-containing reagent, characterized in that, to increase the degree of purification and cheapening of the process, liquid waste of sanitary scrubber titanium-titanium will be used as calcium-containing reagent. 2. The method according to claim 1, 6 tons is also carried out with the fact that the treatment of wastewater with liquid waste from sanitary scrubbers of titanium-magnesium production is carried out before biological treatment (L cleaning. (L 3. Method according to claim 1, tl and h and y - y and with the fact that liquid sources of sanitary scrubbers of titanium production were introduced in the amount of 0.5–3 vol.%.

Description

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The invention relates to wastewater treatment methods and can be used primarily for the treatment of wastewater from enterprises of the gyaropia industry. A known method of sewage treatment is carried out with the use of a treatment of calcium with a reagent followed by separation of the precipitated sludge; Oxide, calcium chloride or calcium hydroxide are used as chemical reagents. A disadvantage of the known process is the use of relatively expensive and scarce materials as a calcium-containing reagent. The closest to the proposed technical essence and the achieved result is a method of purification of water from hydrolysis-yeast production, including biological purification and treatment with calcium-containing reagent, which uses milk of lime. The method involves the treatment of waste water with lime milk, the subsequent separation of the precipitate, and the treatment is subjected to the last brew after its bio-coking treatment (the post-fermentation broth is the main component of the hydrolysis plant wastewater and is the culture fluid of the yeast growing process). The degree of purification of runoff — in terms of total contamination (COD) at doses of 1–6 g / l of the reagent is 6.5–25% s. The disadvantage of this method is the low degree of purification, the use of expensive reagents. The purpose of the invention is to increase the degree of purification and reduce the cost of the process. The goal is achieved by te1L that, according to the method of sewage treatment, hydrolysis-yeast production includes a biological wipe and treatment with a calcium-containing solution, in which liquid waste of sanitary scubbers of titanium-hgh production is used as the last, preferably in an amount of 0.5-3% by volume , and they are processed mainly before biological treatment. Liquid waste sanitary scrubber titanium-magnesium production is formed during the cleaning of gas emissions with lime milk and have the following content, g / l of water; calcium hydroxide 15 40, calcium carbonate 10-20, calcium chloride 50-80; calcium hypochlorite 5075, calcium chlorate 5-10. The use of liquid waste from sanitary scrubbers of titanium-magnesium production as calcium-containing reagents makes it possible to significantly increase the degree of wastewater treatment, in particular, hydrolysis production, as compared with the known method due to the combined effect of the reagent proposed; along with the coagulating properties of calcium hydroxide, carbonate, and calcium chloride, which form an insoluble precipitate with part of the pollutants, hypochlorite and calcium chlorate have oxidizing properties, partial oxidation of the pollutants leads to the formation of organic acids, which in the presence of calcium ions transfer In non-soluble calcium salts, oxidizing agents destroy hydrophilic organic compounds that stabilize dispersed contaminants, which facilitates coagulation and allows for a higher degree of purification. The amount of liquid waste discharged into sanitary wastewater from titanium-magnesium production scrubbers is 0.5–3% by volume, since, at doses of less than 0.5% by volume, the degree of purification is insignificant (Table 1), and increasing the dose more than 3% .% practically does not lead to a further increase in the degree of purification; moreover, at doses exceeding 3 vol.%, a significant concentration of residual active chlorine is found in wastewater, which may require additional costs for dechlorination. The wastewater treatment offered by the reagent not only allows achieving a high degree of purification in terms of total pollution, but also removes sediment and oxidizes the inhibitors of the biochemical purification process, in particular, lignohumic compounds, and also increases the ability of the remaining partially oxidized and degraded organic substances. knowledge of aerobic microbial utilization. As a consequence, the reagent treatment of the effluent is preferably carried out before biochemical purification, which allows achieving a higher total degree of purification. The method is carried out in the following way. The post-harvest fermentation plant is treated with liquid oiw

With the help of sanatorium scrubbers of titanium and magnesium production, the precipitate is settled and separated. Purified water is analyzed.

Example 1 The post-fermentation brewer. || 1DB) of the Leningrad hydrolysis plant is treated with milk of lime and liquid waste of sanitary scrubbers of Zaporizhzhya titanium-magnesium complex (ETMK) for 15 msh to separate the precipitate by settling for 2 hours and determine ъ purified samples of contamination concentrations. Kszhtsentra; qi pollution in the original PDB: COD 82OO mg O / l BOD5 5100 mg Q / l.

CaO content in lime 150 g / l.

Liquid waste sanitary scrubbers ZTMK have; Lying composition, g / l calcium hydroxide 38, calcium carbonate 15, calcium chloride 70, calcium hypochlorite 7O, calcium chlorate 7,

Carrying out the cleaning process according to the proposed method allows to achieve residual concentrations of contaminants by 20–25% less than with lime (Table 1), and the ratio of BOD5 / COD increases from 0.63–0.66 to 0.70 iE, 8O, which indicates an increase in the ability of the remaining contaminants and subsequent biochemical degradation. Table 1

Example 2, Since the composition of liquid waste sanitary. titanium-magnesium scrubber production was unstable; water was tested with various batches of reagent. Bio-oxidized afterbirth rozhny brazhka in the conditions of Prthler 1 processing;

The liquid from the ZTMK sanitary pipe scrubber moves, selected at different times and having different composition, the reagent dose is 1 vol%. Concentrations of impurities in the bio-oxidized post-yeast brew: COD 6240 mg O / l, PBC 357O mg O / l. The results are shown in Table. 2

15 12 10

70 55

38

1 2 3 25

70 40. 80

41620

milk powder, dose From table. It is clear that the variation in the composition of the reagent used does not reduce the degree of purification of wastewater, which is higher for all batches of reagent than for lime milk. Example 3 Biological treatment of wastewater and their treatment with calcium-containing reagent can be carried out in different sequences. In the known method, the reagent preparation is carried out after the biochemical purification. The following experiments have been carried out to determine the preferred sequence of these purification steps. Example 4 The wastewater of Zaporozhye GDZ after biological treatment of the waste is discharged with liquid waste from sanitary scrubbers ZTMK under the conditions of Example 1. Reagent dose is 1% by volume. Baseline i concentration of contaminants in the biologically treated wastewater COD 740 mg O / l, BOD5 76 mg. Example 5 Before biological treatment, Zaporozhskoye GDZ wastewater is treated with liquid waste of sanitary ZTMK scrubbers in KOJIH, 1% by volume is sent to the new septic tanks and then to the pre-aerators, aeroFank and secondary septic tanks. The concentration of contaminants in the effluent during the period of treatment with the treatment of the COD 50005600 mg / O / l, military industrial complex 5 24OO-2600 mg O / after treatment with liquid waste sanitary scrubbers ZTMK COD 25OO27OO mgO / l, military industrial complex 130O-1500 .. | The results are presented in the table . 3

table 2

2380 264О 270О

26OO 3140 Table 3 From the table. 3 it can be seen that wastewater treatment with liquid waste from sanitary scrubbers of titanium and magnesium production is preferably carried out before biochemical treatment, which allows reaching lower concentrations of COD contamination 1.3-1.7 times, and VPK5 2,6- 3 times. This is due to the fact that the treatment with the proposed reagent not only reduces the total contamination of the effluent, but also inhibits biochemical processes with sediment and increases the ability of the remaining partially oxidized contaminants to be biological | Destruction. The treatment with the proposed reagent leads to an improvement in the oxygen regime of the aerotank without additional costs for compressed air; microscopy of activated sludge shows inpicator microorganisms, indicating its best case-based composition. . The proposed method allows to increase the degree of purification and reduce Ostago 1039899.

the actual concentration of contaminants in the 1.3–5 lime range is about 15 rubles per ton, and to eliminate the use of scarce ized reagent about 3 rubles per ton, and reduce and reduce the cost of the cleaning process by reducing the consumption of compressed water

by changing the cheaper reagent (bi-chemical treatment).

Claims (3)

1. METHOD FOR SEWAGE TREATMENT OF HYDROLYSIS YEAST PRODUCTION, including biological treatment and treatment with calcium-containing reagent, characterized in that, in order to increase the degree of purification and cheapening of the process, liquid waste from sanitary titanium-magnesium scrubbers is used as a calcium-containing reagent. 2. The method according to π. 1, ό t jj and torn and j so that the wastewater is treated with biological waste from sanitary scrubbers of titanium-magnesium production by biological peeling. 3. The method according to π. 1, which is characterized in that the liquid waste of sanitary scrubbers of titanium-magnesium production is introduced in an amount of 0.5-3 vol.%. SU .... 1039899