2. ENVIRONMENTAL ChEMISTRy & TEChNOLOGy 2.1. Lectures

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Chem. Listy, 102, s265–s1311 (2008) Environmental Chemistry & Technology bacterially treated “stabilizate” and “stabilizate” of abiotic control are shown in Figs. 2.–4. They show the significant qualitative changes in the “stabilizate” initiated by SRB. The sulfates from the original major component of “stabilizate” – CaSO 4 . 2H2 O (Fig. 2.) – were reduced according by SRB forming hydrogen sulfide as proved by the sensorial detection of classical strong H 2 S smell. This is indirectly confirmed by Fig. 3, which proves the extinction of CaSO 4 and formation of CaCO 3 according to equation (1): SRB 2C 3 H 5 O 3 na + CaSO 4 → 2CH 3 COOna + CO 2 + CaCO 3 + H 2 S + H 2 O The above-mentioned changes have not been observed in abiotic control as documented by the comparison of qualitative X-ray analysis of “stabilizate” before applying SRB (Fig. 2.) with the qualitative X-ray analysis of “stabilizate” in abiotic control (Fig. 4.). The results of energy dispersive spectrometry (EDS) analysis and scanning electron microscope of original “stabilizate”, bacterially treated “stabilizate” and “stabilizate” of abiotic control are shown in Figs. 5.–7. They fall into line with Figs. 2., 3. and 4. and suggest on the Fig. 1. Changes of sulfates concentration during the discontinuous cultivation of sulfate-reducing bacteria. c – sulfates concentration, t – time of sulfate-reducing bacteria cultivation, – “stabilizate” with SRb, – “stabilizate” without SRb (abiotic control) Fig. 2. Qualitative x-ray analysis of “stabilizate” before application of sulfate-reducing bacteria. I – intenzity, u – 2-theta uhol, 1 – CaSO 4 . h2 O, 2 – SiO 2 (1) s413 elimination of CaSO 4 . 2H2 O form “stabilizate”. The element composition of solid phases (Figs. 5., 6. and 7.) accepts with this fact. Fig. 3. Qualitative x-ray analysis of solid phase formed by the effect of SRb on “stabilizate”. I – intenzity, u – 2-theta uhol, 1 – CaCO 3 , 2 – SiO 2 Fig. 4. Qualitative x-ray analysis of solid phase in abiotic con- Fig. 5. EDS qualitative analysis of “stabilizate” before application of sulfate-reducing bacteria
Chem. Listy, 102, s265–s1311 (2008) Environmental Chemistry & Technology Fig. 6. EDS qualitative analysis of solid phase formed by the effect of SRb on“stabilizate” Conclusions The results confirmed the theoretical assumptions on the use of gypsum, which forms the substantial component of “stabilizate”, as the source of sulphate for sulphate-reducing bacteria, which produce hydrogen sulphide in the process of bacterial reduction of sulphates. They also showed the possibility of recycling desulphurization agent – limestone. This work was supported by the Slovak Research and Development Agency under the contract No. APVV-51- 027705, Slovak Grant Agency VEGA No. 2/0075/08 and Slovak – Italian bilateral project. s414 Fig. 7. EDS qualitative of solid phase in abiotic control REFEREnCES 1. Castro H. F., Williams n. H., Ogram A.: FEMS Microbiol. 31, 1 (2000). 2. Odom J. M., Rivers Singleton J. R.: The sulphate-reducing bacteria Contemporary Perspectives, Springer- Verlag, new York 1993. 3. Karavajko G. I., Rossi G., Agate A. D., Groudev S. G., Avakyan Z. A.: Biogeotechnology of metals. Centre of projects GKnT, Moscow 1988. 4. APHA, Standard Methods for the Examination of Water and Wastewater, 17 th edition, American Public Health Association, USA, Washington D. C., 1989.
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2. ENVIRONMENTAL ChEMISTRy & TEChNOLOGy 2.1. Lectures

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