Abstract
The article shows research into the non-fuel use of brown coal derivatives in the production of membranes based on hybrid biodegradable materials. The work used polylactide brand Terramac TP-4000, humic substances obtained from brown coals. Membranes for water purification from heavy metals were obtained from hybrid biopolymer materials based on pol- ylactide and humic substances in the form of polymer porous films with a pore size of 20 microns and a working surface area of the membrane of 28.26∙10-4 m2 with a circle diameter of 6 cm. Used in our The work of humic substances belonged to the group of well-hummified, more aromatic with a high content of acidic functional groups, which leads to their high com- plexing ability to form stable metal-humic complexes. The developed hybrid biodegradable materials based on polylactide and humic substances were used as highly effective sorption membrane materials to reduce the content of heavy metals in aqueous solutions. Obtaining membranes of hybrid biodegradable materials based on polylactide and humic substances have maximum selectivity for the extraction of metal ions in relation to Cu2+ – 95 % and Pb2+ – 94 %; and for metals such as Cd2+, Hg2+, Zn2+ and Co2+, it ranges from 82 to 89 %. Comparing the percentage of metal ions adsorbed, it can be seen that the easiest adsorbed metal was lead, copper and zinc adsorbed similarly, with cadmium showing the lowest percentage, but its adsorption was slightly worse than in the case of copper and zinc. The highest value was obtained for single adsorption of Cu2+ ions; in the case of adsorption from a mixture, this metal also had the highest distribution coefficient, and strong adsorption was also found for Pb2+. On the other hand, the adsorption of Zn2+ was, according to the “partition coefficient,” relatively weak. Strong and residual phases were highest for copper and lead, these two metals were largely bound into strong complexes by humic substances and only a very small amount could be washed out under normal conditions. It was found that the leaching of metal ions from mem- brane hybrid biodegradable materials based on polylactide and humic substances into water was very low, in most cases it was about 10 % and did not exceed 20 %. Most of the metal ions (≥60 %) were very tightly bound and were partially leached out under strongly acidic conditions. The obtained results of adsorption resistance vary significantly and correlate well with the age and degree of humification of humic substances.
Published Version
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