RU2626584C1 - Method for estimation of microorganisms suitability for purification plants active silt formation - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: method for assessment of algae and cyanobacteria suitability for purification plants active silt formation is proposed. The method includes determination of the critical values of natural and anthropogenic impact parameters causing the death of microorganisms, comparing them to the maximum possible values of these parameters in the event of an emergency and/or abnormal weather conditions, and determination the integral indicator of microorganisms resistance.

EFFECT: increased reliability of the purification plant for cases of extreme emissions of pollutants, and extreme increase or decrease in ambient or sewage water temperature.

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Description

The invention relates to ecology, and more specifically to wastewater treatment, and may find application in the construction of treatment facilities, in particular biological treatment facilities such as activated sludge. The invention may also find application for studies of the ecological state of water bodies.

The biological treatment method is based on the ability of certain types of microorganisms to use pollutants under certain conditions as their nutrition. Many microorganisms that make up the active sludge of a biological treatment plant, while in the wastewater, absorb pollutants into the cell, where they undergo biochemical transformations under the influence of enzymes. Activated sludge is a complex ecological system of various microorganisms capable of oxidizing organic substances in the presence of oxygen. The choice of specific types of bacteria and unicellular depends on the composition of the wastewater and the process conditions. It was found that the optimal conditions for wastewater treatment are: water temperature: 16-23 degrees Celsius, dissolved oxygen concentration: 1.0-2.0 mg / cu. dm, pH: 6.7-7.8 (Zhmur NS “Biological purification systems”). There is a fairly wide list of frequently occurring types of microorganisms in activated sludge.

Microorganisms are an effective indicator for determining sludge quality. To carry out bio-indicator control, a hydrobiological analysis of the water-sludge mixture is carried out by microscopy. The structural features of the biocenosis of activated sludge are determined, the organisms of which have the ability to respond (by qualitative change and quantitative distribution of individual groups) to the composition and properties of the treated wastewater, as well as to life support conditions. The numerical predominance of one or another component of the biocenosis serves as an indicator of the stability and efficiency of the wastewater treatment process. This method allows you to determine the deviation of microorganisms and the change in the species composition of the biocenosis from the normal state, and the degree of such deviations can not only determine the state, but also predict the timing, prospects of changes in the normal course of the biological wastewater treatment process.

The well-known "Method of controlling the process of wastewater treatment with activated sludge" according to patent No. 2104967, according to which the composition of healthy sludge is formed according to a predetermined recipe, it is taken as a standard. In the control process, a portion of the sludge is taken from the aeration tank, the luminescence of this sample is compared with the reference one, and the efficiency of activated sludge is judged by the difference. This method allows you to determine only the current state of microorganisms of activated sludge and does not provide information about levels of external exposure that are hazardous to their life.

The prior art also knows about numerous experiments that were conducted to determine the influence of external factors, such as, for example, high and low temperatures, the influence of heavy metals, on the adaptation, growth and other properties of algae and cyanobacteria.

These experiments allowed us to determine the most optimal, from the point of view of life, values of the above factors. However, in practice it is very important to know the boundaries of the resistance of microorganisms to one or another external factor in order to objectively assess the possibility of their use in specific production and climatic conditions. The type of microorganisms in activated sludge currently depends primarily on the composition of polluting effluents. In this case, the risk from the influence of extreme values of climatic factors on microorganisms is not taken into account.

From the analysis of the prior art it is seen that the influence of chemical factors on plants, algae and bacteria that populate activated sludge and neutralize harmful substances of industrial wastewater in the course of their life is fairly widely studied. These data can be used in developing recommendations for the construction of treatment facilities. Knowing the nature of a particular production and, accordingly, the chemical composition of wastewater, they achieve maximum biological treatment efficiency for each particular enterprise. However, the authors did not find any work on assessing the resistance of bacteria and algae to the influence of natural atmospheric factors, such as elevated and low temperatures. Meanwhile, treatment facilities, including activated sludge tanks, are in the open air and are fully exposed to these influences. In addition, in an emergency, a sharp increase in the temperature of the wastewater is possible, harmful to microorganisms of activated sludge. Therefore, it is important to know what elevated and / or lowered temperatures are critical for the survival of biosystems in order to ensure the reliability of biological treatment plants at the construction stage and to prevent their failure due to the death of algae and cyanobacteria.

The problem to which the invention is directed is the development of a method for assessing the suitability of microorganisms for the formation of activated sludge from treatment plants, taking into account the specific production and specific climatic conditions. The technical result is to increase the reliability of the treatment plant for cases of extreme emissions of pollutants, as well as an extreme increase in ambient temperature and / or wastewater, as well as the establishment of extremely low sub-zero ambient temperatures.

To solve the problem, a method is proposed for assessing the suitability of microorganisms from among algae and cyanobacteria for the formation of activated sludge from sewage treatment plants, according to which the critical values of the exposure parameters of natural and anthropogenic origin are determined that cause the death of microorganisms (d _flex.i ), they are compared with the maximum possible values of these parameters in case of an emergency and / or abnormal weather conditions (Pi _, ), determine the integral indicator of microorganism resistance ƒ

and for ƒ <0, they conclude that microorganisms are suitable for the formation of activated sludge in a particular treatment plant, where at least the maximum and minimum possible ambient temperatures, which are determined on the basis of long-term observations, are taken into account as factors of natural origin, and as factors of anthropogenic origin, the composition of the wastewater of a particular production is taken into account, and the predicted estimated concentration of pollutants in the wastewater is taken as Pi in case of emergency.

The problem is also solved by the fact that as factors of natural origin take into account at least the maximum and minimum possible ambient temperature, which is determined on the basis of long-term observations.

To solve this problem, the composition of wastewater of a specific production is taken into account as factors of anthropogenic origin, and the predicted calculated concentration for an emergency is taken as Pi.

The inventive method is as follows. At the preliminary stage, the limits of stability (survival) of those microorganisms that are most suitable for neutralizing wastewater of a particular production are determined experimentally. At the same time, the maximum plus and minus ambient temperatures are ascertained from meteorological observations. The calculation method determines the possible indicators of the concentration of pollutants in wastewater in the event of an emergency. Next, for each microorganism, the integral stability index ƒ is determined. If this indicator is greater than 0, they conclude that this microorganism is unsuitable for the formation of activated sludge, since in the event of an emergency it will die, which will negatively affect the efficiency of the treatment plant as a whole and will further exacerbate the negative environmental impact of the emergency plant, which is unacceptable.

An example of a specific implementation of the method

The most time-consuming and crucial step in the implementation of the proposed method is to determine the boundaries of the resistance of microorganisms. Work was carried out to assess the stability limits of microscopic algae and cyanobacteria. The following factors were selected as impact factors: temperature, reaction of the medium, influence of heavy metals, herbicides and fertilizers.

The experiments are mainly carried out in a liquid medium, in addition to experiments on the effects of freezing, which are carried out using an agar medium.

The effect of each factor on microorganisms is studied and its value is determined, which leads to death. A sign of the death of algae and cyanobacteria is the appearance of at least one of the following disorders found in all studied objects: complete discoloration, the appearance of an unnatural color, the destruction of cell structures and the cell membrane, the change in the shape of cells, threads and trichomes. In laboratory experiments, a 2-week-old culture with a starting concentration of 1 × 10 ⁵ cells / ml, which is in the stationary phase of growth, is used.

When studying the influence of high positive temperatures, we study the effect of temperature in the range from 30 to 100 degrees with an interval of 10 degrees. The algal cell suspension is placed in 5 ml tubes, which are exposed for 20 minutes in a BWT-U water bath (Biosan, Latvia). After this, the cultures are incubated at room temperature.

After determining the maximum temperature at which the death of algal cells is observed, a second series of experiments is carried out, in which the influence of temperature from 30 to 76 ° C with an interval of 2 degrees is examined and the observed changes are recorded. Control variants are grown at room temperature. In a series of preliminary experiments, it was found that after 14 days a complete picture of morphological changes appears, which does not subsequently change. Therefore, viewing is carried out for 15 days. In experiments to study the influence of other factors, viewing is carried out after 7 days, since during this time their toxic effects are manifested.

For use in wastewater treatment plants in harsh climates, microorganisms that can recover after freezing are needed, so experiments were carried out to study the effect of negative temperatures on algae and cyanobacteria. A suspension of microorganisms is placed on the surface of agarized Petri dishes, then the plates are incubated in the freezer for 1.5 and 9 days.

pH is studied in the range from 2 to 13.5 with an interval of 0.5. The control is Bold's liquid nutrient medium with a pH of 6.5. The reaction of the medium is measured using a Multitest IPL-311 pH meter (Semiko, Russia) with an ESK electrode No. 1060317. Before starting the experiments, the pH meter electrodes are calibrated using standard buffer solutions (pH = 6.87 and pH = 9.18). The desired pH values are achieved by adding 0.1 molar solutions of NaOH or HCl.

When conducting experiments to study the influence of heavy metals, herbicides, and fertilizers, an approximate lethal concentration is selected from the literature and experiments are conducted to determine the concentration range from the minimum at which no toxic effect is observed to the maximum at which algal cell death is observed. Solutions of toxicants are poured into test tubes, into which 0.01 ml of a culture of algae in a stationary phase of growth with a cell concentration of at least 10 ⁵ cells / liter is instilled.

When studying the effect of salinization, NaCl is tested in concentrations of 0.1-7 mol / L, Na ₂ CO ₃ - 0.0001-5 mol / L. In experiments with salts of heavy metals, the concentration of copper and nickel chlorides is calculated per 1 mol of pure metal. CuCl _{2 was} tested at concentrations of 1 × 10 ^-10 -10 ^-1 mol / L, NiCl ₂ - 1 × 10 ^-8 -10 ^-1 mol / L, MnCl ₂ - 1 × 10 ^-6 -1 mol / L.

The reliability of the research results is determined using the student criterion. To process the results of studies using the method of regression analysis.

To determine resistance to extreme factors, authentic (by which species were described) and reference strains (determined at least to the genus) of algae and cyanobacteria, which are characterized by wide geographical distribution and occurring in a wide range of environmental conditions, were selected. Species characterized by almost universal geographical distribution include Chlorella vulgaris Beijerinck Bracteacoccus minor (Chodat) Petrová, Pseudococcomyxa simplex (Mainx) Fott, Chlorococcum infusionum (Schrank) Meneghini (Chlorophyta); Eustigmatos magnus (JB Petersen) DJ Hibberd, Xanthonema exile (Klebs) PC Silva (Ochrophyta); Klebsormidium flaccidum (Kutzing) PC Silva, KR Mattox & WH Blackwell (Streptophyta) and Microcoleus vaginatus Gomont ex Gomont (Cyanobacteria).

Table 1 presents the impact of environmental factors on the studied species of eukaryotic algae and cyanobacteria. The table shows the values of factors for which the death of organisms is recorded; t _floor - high positive temperatures; t _neg - freezing; the “-” sign indicates the absence of exposure, the “+” sign indicates the presence of exposure; concentrations of toxicants are given in mol / L.

Table 1 - The impact of environmental factors on the studied species of eukaryotic algae and cyanobacteria

The greatest sensitivity to heating was shown by X. exile, which can withstand temperatures up to 44 ° C. The most stable were B. minor and Ch. vulgaris, withstanding heat up to 54 ° C. The remaining species withstood temperatures up to 48-52 ° C (table 1).

The most resistant to freezing were B. minor and M. vaginatus, fully recovering after freezing for 1–9 days (Table 1).

The most tolerant to changes in pH were B. minor, Ch. vulgaris, P. simplex, K. flaccidum, surviving at pH 3.5–11.5 (Table 1).

Salinity experiments showed that sodium carbonate was more toxic than sodium chloride for all species. The studied species withstood the effects of a toxicant up to 1-7 mol / L. The most stable were B. minor and Ch. vulgaris, least - X. exile and M. vaginatus. Soda concentrations of 0.01-2 mol / L caused the death of the investigated microorganisms. The greatest stability showed Ch. vulgaris and P. simplex, the smallest - M. vaginatus (table 1).

Among the studied chlorides of heavy metals (copper, nickel and manganese), copper chloride was the most toxic. The studied types of toxicant concentration up to 1 × 10 ^-5 -1 × 10 ^-2 mol / l, the most stable were B. minor, Ch. infusionum, Ch. vulgaris, P. simplex, K. flaccidum, the most sensitive was X. exile (table 1). The highest resistance to nickel chloride was shown by B. minor and P. simplex, withstanding concentrations up to 1 mol / L, the least resistant was M. vaginatus, surviving to a concentration of 1 × 10 ^-3 mol / L. Almost all types of algae and cyanobacteria withstood concentrations of manganese chloride up to 1 mol / L, except for M. vaginatus, which survived to a concentration of up to 1 × 10 ^-1 mol / L (table 1).

Thus, the claimed method gives the hands of a practical ecologist a simple and reliable method of forming activated sludge suitable for neutralizing wastewater of a particular production, not only taking into account normal operation, but also in case of an emergency, as well as with reference to a specific climatic zone.

Claims (3)

A method for assessing the suitability of microorganisms from among algae and cyanobacteria for the formation of activated sludge from sewage treatment plants, according to which critical values of the parameters of the impact of natural and anthropogenic origin that cause the death of microorganisms (d _flex.i ) are _determined , compare them with the maximum possible values of these parameters in case of emergency and / or abnormal weather conditions (Pi,), determine the integral indicator of the resistance of microorganisms ƒ

and for ƒ <0, they conclude that microorganisms are suitable for the formation of activated sludge in a particular treatment plant, where at least the maximum and minimum possible ambient temperatures, which are determined on the basis of long-term observations, are taken into account as factors of natural origin, and as factors of anthropogenic origin, the composition of the wastewater of a particular production is taken into account, and the predicted estimated concentration of pollutants in the wastewater is taken as Pi in case of emergency.