RU2024078C1 - Method of biological treatment of liquids from radionuclides and heavy metals and strain of fungus penicillium chrysogenum bkmf - 3330d used for biomass preparing extracting radionuclides and heavy metals from liquids - Google Patents

Abstract

FIELD: applied microbiology. SUBSTANCE: method of treatment of liquids from radionuclides and heavy metals involves treatment of liquids with sorbent in the form of fungal biomass. Biomass of fungi of species Penicillium chrysogenum, mainly biomass of new strain, is used as sorbent. EFFECT: enhanced effectiveness of treatment. 3 cl, 4 tbl

Description

 The invention relates to applied microbiology and can be used for biological treatment of radionuclides and heavy metals from wastewater, liquid radioactive waste or solid materials after preparing solutions containing radionuclides and heavy metals from them.

 A known method of purifying liquids from uranium and thorium, including the use of the biomass of the fungus Rhizopus arrhizus as a sorbent [1].

 The disadvantage of this method is that it does not provide for the cleaning of solutions from other radionuclides and from heavy metals.

 A known bacterial strain Pseudomonas aeruginosa, whose biomass is used as a sorbent for cleaning liquids from radionuclides such as uranium and thorium [2].

 A disadvantage of the known strain is the lack of information about the possibility of using its biomass to extract other radionuclides from liquids (Pu, Cs, Sr), as well as heavy metals.

 The purpose of the invention is to increase efficiency by expanding the range of radionuclides and heavy metals removed from liquids and reducing their residual content in the treated liquid.

 The aim of the invention is also the selection of a strain of the fungus, whose biomass provides an effective purification of liquids from a wide range of radionuclides and heavy metals.

 The goal is achieved in that according to the method for purifying liquids from radionuclides and heavy metals, including treating liquids with a sorbent in the form of mushroom biomass, the biomass of Penicillium chrysogenum species, mainly the biomass of the new Penicillcum chrysogenum MH-21 fungus strain, is used as the sorbent. A new strain of Penicillium chrysogenum MH-21 was isolated from soil taken from the 30-km zone of the Chernobyl nuclear power plant. The strain is characterized by the following features. On solid media of a colony, consisting of a relatively thin basal felt structure of the mycelium, which has dense conidial structures, more or less velvety, often radially furrowed, sometimes relatively thick, up to 1 mm or more, with a rapidly growing edge, 1-2 mm wide, with vegetative mycelium yellowish to cream, with a conidial zone of yellow-green to bluish-grayish-green tones, sometimes from dull grayish green to dull green, then close to yellowish shades, after 2-3 weeks on the back bright yellow and and greenish-yellow, with the surrounding agar, painted in the same colors, but lighter. The escudate is usually plentiful in drops of light lemon yellow tones. Conidiophores depart mainly from the substrate, 3-3.5 μ in diameter, smooth, colorless tassels, two-tiered and asymmetrical, with a whorl of 2-5 mules at the apex with one or more branches. Sterigma 4-6 in compressed bundles. Conidia are elliptical, sometimes almost spherical, smooth, yellow-green in mass.

 Physiological and biochemical characteristics: the culture hydrolyzes starch, dilutes gelatin, and coagulates milk.

 As the sole carbon source, glucose, fructose, sucrose, xylose, galactose, lactose, maltose, dextrins, cellobiose, glycerin, starch, mannitol, ionite, lecithin are used.

 As a source of nitrogen, nitrates, ammonium salts, peptone, amino acids can be used. It does not require stimulants for growth. The initial pH value of the medium can vary from 3 to 8, the optimum pH for growth is 5-6.

Aerobe. Detects growth at ⁵ ° C and above. At 35-37 ^{° C} growth was observed. The optimum for growth 25-28 ° ^C. The strain is non-toxic. It is supported on jambs with Chapek's environment, wort agar, potato agar by reseeding 1 time per month or less. To obtain biosorbent, any medium for the cultivation of mycelial fungi is used.

The species affiliation of the strain is determined by N. Podoplichko. Penicillia (keys for determining species). Kiev: Naukova Dumka, 1972;
JIPitt The genes Penicillium and its teleomorphic states Eupenicillium and Talaromyces, Acad. Press London, 1979;
Penicillium and Acremonium, Ed. J. Peberdy, 1987, New-Jork.

PRI me R 1. The studied strains of Penicillium chrysogenum were stored on shoals of agarized wort at a temperature of + 4 ± 1 ^about With replanting on fresh shoals after 2-4 months.

 The accumulation of biomass of fungi, used as a sorbent to remove radionuclides and heavy metals from liquids, was carried out in several stages.

The culture stored on the jambs was plated on Chapek-Doks medium of the following composition, g / l: Glucose 30 NaNO ₃ 1 K ₂ HPO ₄ 1 KCl 0,5 MgSO ₄ ^. 7H ₂ O 0.5 FeSO ₄ 0.01 Yeast extract 0.1
To prepare the medium, tap water up to 1 liter was added to the listed components. Before sterilization with a 10% solution of H ₂ SO _{4, the} pH of the medium was adjusted to 5.5. The medium was sterilized at 121 ^{° C} for 30 min. The strain was incubated in Erlenmeyer flasks on a rotary shaker at 230 rev / min and a temperature of 28 ^{° C} for 48-60 hours. For inoculating material derived biomass was inoculated into the same medium in an amount of 5-6 vol.% And incubated for 48 -60 h in fermentation apparatus of the company "Biotec" under conditions: pH 5.5; aeration: two volumes air to one volume of the medium, with stirring at 300-500 rev / min at a temperature of 28 ^C. After completion of the fermentation cycle, the biomass was separated by centrifugation, washed with distilled water and used as a sorbent for the removal of radionuclides and heavy metals from solutions of their salts .

 PRI me R 2. The cultivation of the fungus was carried out as in example 1. We compared the effectiveness of the use of biomass of different strains of the species Penicillium chrysogenum to remove radionuclides contained in the presence of heavy metals from solutions of their salts.

The sorbing properties of the biomass of the three Penicillium chrys strains were studied by the example of purification of specially prepared individual solutions of ⁹⁰ Sr, ¹³⁷ Cs, ²³⁹ Pu and solutions of their mixture with addition of heavy metal ions, for example Fe, Ni, Cr, etc. A known amount was added to the biomass suspension radionuclides and heavy metals and then shaken on a rocking chair with a frequency of about 250 times per minute for 2 hours. Then, the biomass was separated by centrifugation.

 The content of radionuclides and heavy metals in the solutions purified from them was determined before and after treatment of the solutions with a sorbent — the biomass of the studied strains.

, где А_нач и А_кон - полная активность данного радионуклида в водной фазе до и после биосорбции соответственно, Бк;
W - масса сухого вещества в данном образце биосуспензии, г.For convenience of comparison, in all experimental variants, model solutions of ⁹⁰ Sr, ¹³⁷ Cs, ²³⁹ Pu chlorides with specific activity of each element of about 10 ⁷ Bq / l were subjected to purification from radionuclides and heavy metals. The results are shown in Tables 1 and 2, in which the following notation is used: C _con — concentration of the corresponding radionuclide in solution after biosorption, Bq / l; K is the distribution constant of the radionuclide between the aqueous phase and biomass, l / g. Dry weight. The value of the distribution constant was determined from the expression
K =

where A _beg and A _con are the total activity of a given radionuclide in the aqueous phase before and after biosorption, respectively, Bq;
W is the dry matter mass in this biosuspension sample, g.

· 100% .To characterize the completeness of extraction of radionuclides from the aqueous phase, their degree of extraction γ,% was calculated:
ϒ =

· 100% .

 The data presented in Tables 1 and 2 show that the biomass of all tested strains of the Penicillium chrysogenum species is an effective sorbent for removing both individual radionuclides and their mixtures from their solutions, including in the presence of heavy metal salts, the content of which after processing liquid biomass of the studied strains of Penicillium chrysogenum was less than 1 mg / ml.

It should be noted that sorption occurred from ultra-diluted radionuclide solutions (the equilibrium concentration for ⁹⁰ Sr was of the order of 10 ^-8 g / l or less, for ¹³⁷ Cs - 10 ^-6 g / l, for ²³⁹ Pu 10 ^-4 g / l), which indicates an extremely high chemical affinity of the biochemical structures of the studied species of microorganisms to ⁹⁰ Sr, ¹³⁷ Cs and ²³⁹ Pu. the most effective biosorbent was the biomass of the new strain MH-21.

 PRI me R 3. The cultivation of the fungus was carried out as in example 1. We compared the effectiveness of the use of biomass of the fungus of the species Penicillium chrysogenum for cleaning liquids from radionuclides and heavy metals and biomass of other studied types of microorganisms. The results are presented in table 3 and indicate the highest efficiency of fungi of the species Penicillium chrysogenum.

PRI me R 4. The cultivation of the fungus was carried out as in example 1. As an object of purification was used an aqueous solution of chlorides ⁹⁰ Sr, ¹³⁷ Cs and ²³⁹ Pu with an initial concentration of 9.96 ^. 10 ⁵ Bq / l, 5.93 ^. 10 ⁶ Bq / l and 4.21 ^. 10 ⁴ Bq / l, respectively. In addition to these radionuclides, the liquid being purified contained FeCl ₃ . Thus, in addition to the heavy metal of plutonium, the system also contained ions of another heavy metal - Fe ³⁺ with a concentration of 7.5 mg / L. Purification of this liquid was carried out by biomass of a new strain of Penicillium chrysogenum MH-21. The cleaning procedure was as follows.

The biomass of the strain was suspended in the liquid to be purified at the rate of about 10 cm ^{3 of} crude biomass per 100 ml of liquid. The resulting biosuspension was stirred on a rocking chair for at least 30 minutes with a frequency of about 240-250 vibrations per minute. After mixing, the biomass was separated by filtration and washed. After sampling for analysis, the purified liquid was treated by the same method with the new strain biomass. It should be noted that already after the first cleaning cycle, iron was present in the aqueous phase only in trace amounts (<1 mg / l). The purification of the liquid was completed by passing it through a layer of crude biomass of a new strain (layer thickness 25-30 mm). The biomass was in a column at the bottom of which a bacterial filter was already installed. Liquid was passed through the column at a rate of about 1 ml / h. The results are shown in table. 4 and indicate the removal from the liquid of ≥97.5% of the radionuclides contained in it.

Claims (2)

 1. A method for biological purification of liquids from radionuclides and heavy metals, comprising treating liquids with a sorbent in the form of mushroom biomass, characterized in that the biomass of Penicillium chrysogenum fungi is used as the sorbent.  2. The strain of the fungus Penicillium chrysogenum BKMF-3330D, used to obtain biomass that extracts radionuclides and heavy metals from liquids.

Images