PL209047B1 - Method for the biological removal of heavy metal ions from liquid industrial wastes and liquid wastes - Google Patents

Description

Description of the invention

The subject of the invention is a method of biological treatment of industrial wastewater with a low degree of pollution and a large volume, containing no organic carbon source from heavy metal ions such as Al, Ba. Be, Zn, Sn, Cr, Co, Cu, Mo, Ni, Pb. Ag. Cd.

A method of removing metal ions by thermally immobilized microorganisms, such as e.g. green alga of the genus Chlorella species, is known from the US patent description No. 5,055,402. Microorganisms adsorb metal ions and / or other dissolved materials. Patent application MD 20020045, in turn, discloses a method of purifying sewage sewage from radioactive contaminants, consisting in the cultivation of Lemna minor aquatic plants and Spirulina bacteria in the treated sewage. The process is carried out in two stages, the first stage with Lemna, the second with Spirulina, which are then separated from the biomass.

From another US patent No. 5,087,353, an apparatus for removing various types of pollutants from municipal wastewater with the use of biologically active organisms is known. The camera is built. from at least 3 irradiated sewage tanks. The first reservoir contains photosynthetic bacteria - phytoplankton, in the second - terrestrial plants, and the third - fish.

There is known from US patents 6,416,993 and US 6,465,240 a method of wastewater treatment with the use of prokaryotic organisms. preferably purple non-sulfur bacteria and green algae of the genus Chlorella species. A consortium of prokaryotic microorganisms assimilates the first batch of pollutants and green algae performs the final treatment and produces a substantially treated effluent. The installation is made of a photobioreactor, the task of which is to increase the amount of light available to photosynthetic microorganisms, which is associated with increasing the efficiency of wastewater treatment. The cultured and isolated microorganisms constitute a valuable commercial product.

There is also known from the US patent No. 5,389,257 a method of water purification, consisting of a number of tanks connected in series containing water and organisms removing pollutants from the water, such as fish, snails, jams, bacteria, algae, water lilies, etc.

There is known from US Patent No. 6,203,700 a method of purifying acidic waters containing metal ions by adding a solution with a high pH, which results from the biological activity of, among others, algae. This is the stage that generates alkalinity and causes the precipitation of metal hydroxides.

The method of purifying acidic waters, known from US Patent No. 6,110,370, consists in increasing the alkalinity of the aquatic environment with the use of algae, then separating the algae from the solution with increased pH.

The continuous operation device for purifying wastewater contaminated with metals and / or radionuclides, known from US Patent No. 5,447,629, comprises compartments in which there are immobilized live cells of bacteria or photosynthetic organisms. The device is made of a material transparent to light rays.

Also known from US Patent No. 6,660,509 are methods and devices for remediation and fermentation in which living cells or subcellular biocatalysts are combined into support complexes used to remove metal ions and gases. The organisms used are bacteria, algae, yeasts, plants, fungi, etc.

The method of treating wastewater and liquid waste from heavy metal ions according to the invention consists in this. that in treated industrial wastewater and liquid waste, metal cations such as Al, Ba, Be, Zn, Sn, Cr, Co, Cu, Mo, Ni, Pb, Ag and Cd bind in the process of biosorption to the surface of the cell wall of microalgae with Spirulina species species, and / or in the bioaccumulation process blue-green microalgae are grown in the presence of impurities and under natural light irradiation at a temperature of 20 to 45 ° C, at a pH of 5-7, for 0.5 to 24 hours , introducing metal cations inside the cells. In addition, impurities in the form of organic or inorganic carbon, nitrogen and phosphorus compounds are removed in the photosynthesis process, and then the biomass is separated from the wastewater in the filtration process.

The metal ions are removed by a biosorption process in which the microalgae are brought into contact with the treated sewage for a residence time of 0.5 to 2 hours at a pH of 3 to 7.

According to the invention, in the biosorption process, metal ions are bound by ion exchange to carboxyl, hydroxyl and phosphoryl functional groups. and impurities in the form of organic or inorganic carbon compounds, in the form of carbonates and bicarbonates, nitrogen in the form of

Nitrate, ammonium and organic matter as well as phosphorus in the form of orthophosphates are removed in the process of photosynthesis, in which the algae consume these pollutants.

Organic pollutants mean substances included in the BOD5 pollutant index.

According to the method, blue-green microalgae in the bioaccumulation process are introduced into the sewage treated in a living form, and in the biosorption process they are introduced into the sewage in a non-living form.

As a result of biosorption, cells can bind up to 20% by mass of metal in biomass. In the process of bioaccumulation, in the first stage, metal ions are bound to the cell surface, and in the next stage, they are introduced into the cell interior. This increases the ion binding capacity.

The waste water treatment process according to the invention is carried out in open tanks, ponds, pools, lagoons or closed bioreactors. which are preferably illuminated with artificial or natural light.

Preferably, wastewater treatment is carried out in shallow pools, covered with transparent materials such as glass, plexiglass, foil. It is also advantageous to locate the treatment system in plants with excess heat, as elevated temperatures up to 35 ° C greatly increase the speed of the wastewater treatment process.

Surprisingly, it turned out that microalgae of the Spirulina species genus can also grow in highly polluted environments. The effluent is the culture medium and provides the cells with everything they need to grow. Thanks to a flexible metabolism and modest nutritional requirements.

Spirulina species thrives in low-nutrient wastewater under conditions where other microorganisms do not thrive.

The degree of removal of metal ions from wastewater by bioaccumulation is greater than in the biosorption method. Other impurities, such as carbon, nitrogen and phosphorus compounds, which are the building blocks of microalgae cells, are also removed.

The method according to the invention enables the treatment of industrial wastewater from the chemical industry, e.g. from plants producing chromium compounds, cathode copper, from tanneries, as well as high-volume and low-contamination leachate to the level of contamination regulated by legal regulations by selecting appropriate process parameters: residence time, cell concentration, irradiation.

The advantage of the method is its versatility and the fact that by not using chemicals and not generating large amounts of sewage sludge containing pollutants, the assumed cleaning effect is obtained.

The method of biological treatment of industrial wastewater from heavy metal ions using photosynthetic microalgae of the genus Spirulina species according to the invention is explained in the working examples.

P r z k ł a d I

Wastewater treatment is carried out using the bioaccumulation method in a pool located at plants with excess heat, the depth of which does not exceed 30 cm, covered with a light-permeable cover made of glass, foil, plastic or plexiglass. The process is carried out at a temperature of 20-35 ° C.

Chromic wastewater with pH 4, containing up to 30 mg / kg of Cr (III) ions, is inoculated with Spirulina species microalgae cells, so that the concentration of dry cell mass is 0.25 g / dm ³ . The treatment is carried out in a batch mode, with the contact time of sewage and biomass being 24 hours. After the purification process, the biomass is separated from the sewage by filtration. The concentration of chromium (III) ions in the treated sewage is below 0.4 mg / kg.

P r z x l a d II

Wastewater from plants producing copper and other non-ferrous metals contaminated with mercury (II) is treated as in Example 1, with the difference that the biomass of Spirulina species microalgae is discharged into the wastewater at a concentration of 0.20 g / dm ³ . The treatment is carried out in a continuous mode, with the contact time of sewage and biomass being 24 hours. The concentration of mercury (II) ions in the treated sewage is below 0.1 mg / kg, and the degree of purification is 95%. At the same time, other impurities were removed from the sewage.

PL 209 047 B1

P r z x l a d III

Wastewater containing cadmium ions at a concentration of 18 mg / kg is treated as given in Example 1. The concentration of this pollutant in the treated wastewater is 0.25 mg / kg.

P r x l a d IV

Industrial wastewater with pH 5 containing Al, Ba, Be, Zn, Sn, Cr, Co, Cu, Mo, Ni, Pb, Ag, Cd cations in concentrations of 0.5-20 mg / kg is treated at a temperature of 0.5- 25 ° C by biosorpcyjną in a mixer-reactor continuous with a capacity of 0.1 m ^3. The concentration of cells in the reactor is 10 g sm / dm ³ . The waste water is contacted with the Spirulina species cells for a residence time of 0.5 hour. After the purification process, the cation concentration is 0.3-0.5 mg / kg.

P r z k ł a d V

Industrial sewage with pH 5.5 containing Al, Ba, Be, Zn, Sn, Cr, Co, Cu, Mo, Ni, Pb, Ag, Cd cations in concentrations of 0.5-5 mg / kg is purified by bioaccumulation in a shallow a pool capacity of 1 m ^3, covered by perspex, in which the conditions of sunlight. The process is carried out continuously. The initial concentration of cells in the reactor is 1 g sm / dm ³ . The waste water is contacted with the Spirulina species cells during a residence time of 24 hours. After the purification process, the cation concentration is 0.1-0.3 mg / kg.

Claims (3)

1. Method of biological treatment of industrial wastewater and liquid waste from heavy metal ions such as Al, Ba, Be, Zn, Sn, Cr, Co, Cu, Mo, Ni, Pb, Ag, Cd, characterized in that in the treated sewage , metal cations Al and / or Ba and / or Be and / or Zn and / or Sn and / or Cr and / or Co and / or Cu and / or Mo and / or Ni and / or Pb and / or Ag and / or Cd binds in the process of biosorption to the cell wall surface of microalgae of the genus Spirulina species, introduced into the wastewater in an inanimate form, during which, at a pH of 3 to 7 for 0.5 to 2 hours, metal ions are bound in the process of exchange ion with carboxyl, hydroxyl, phosphorus and Iowa functional groups. and / or through a bioaccumulation process, blue-green microalgae are grown. introduced into the wastewater in a living form, in the presence of impurities and irradiated with natural light, at a temperature of 20 to 45 ° C, at a pH of 5-7, for 0.5 to 24 hours, metal cations are introduced into the cells, and the pollutants in the form of organic or inorganic carbon, nitrogen and phosphorus compounds are removed by photosynthesis, and the biomass is then separated from the wastewater by filtration. 2. The method according to p. The process according to claim 1, characterized in that the process of purifying industrial wastewater and liquid waste is carried out in open tanks, ponds, pools, lagoons or closed bioreactors. 3. The method according to p. The process of claim 2, characterized in that the tanks or bioreactors are illuminated with artificial or natural light.