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UDC 628.16:546.(72+711)
Askerniia A. A., Sorokina A. Iu., Dubinina G. A.
Microbiological aspects of natural underground water deironing and demanganation
Summary
The purpose of the presented work was studying the role of microorganisms that participated in the transformation of iron and manganese compounds in technogenic drinking water purification systems. The studies were carried out at the water treatment facilities of the Novourengoisk gas chemical complex and of Iuzhnyi settlement of Barnaul city. At different stages of water treatment process alongside with studying the composition of bacterial communities and number of different physiological and taxonomical groups of microorganisms performing bidirectional processes of Fe and Mn compounds oxidation and recovery the analysis of physical and chemical parameters of the studied water (concentrations of O2, CO2, CH4, NH3, soluble forms of Fe2+ and Mn2+, pH, temperature, oxidability) was carried out with an account of the observation seasonality. It is shown that during the operation of a single-stage water purification system the filters uploaded with inert filtering material are functioning as biofilters, and transformation of Fe and Mn compounds in technogenic water purification systems is provided by the microorganism activity. Precipitated forms of Fe and Mn sludge are represented by exclusively biogeneous (bacterial) structures of iron- and manganese-oxidizing bacteria. Depending on the physical and chemical conditions the latter are presented mostly either by Gallionella species (the Novourengoist water treatment facilities) or by filamentous ferrobacteria Crenothrix and Siderocapsa – Arthrobacter unicells. The efficiency of biological deironing and demanganation of underground water during single-stage purification process is determined by the physical, chemical and microbiological properties of the raw water and depends on the conditions required for microorganism evolution that are provided by the adequate choice of the process equipment and operation modes.
Key words
ground water , single-stage deironing and demanganation , autotrophic ferrobacteria , heterotrophic microorganisms