Research Article
Year 2011,
Volume: 1 Issue: 4, 57 - 62, 31.12.2011
Abstract
Divinil benzen (stiren) kimya endüstrisinde geniş çapta kullanılan zenobiyotik organik bileşiklerdendir. Bu yüzden kimya endüstrilerindeki atıksu ve atıkgazlardan bu bileşiğin etkili ve ekonomik giderimine ihtiyaç duyulur. Bu çalışmada stirenin karışık kültür ile aerobik şartlar altında biyolojik giderim performansı incelenmiştir. Denemeler kesikli şartlarda 50-150 mg L-1stirenin farklı başlangıç konsantrasyonları için yürütülmüştür. Mikroorganizmaların büyümesi üzerine organik bileşiklerin konsantrasyon etkisi araştırma süresince çalışılmıştır. Sonuç olarak kesikli işletme şartlarında kullanılan karışık kültürün stiren gideriminde oldukça yüksek performans gösterdiği belirlenmiştir. Karbon ve enerji kaynağı olarak bu bileşikleri kullanan kültür başarılı bir şekilde stireni giderebilmiştir
References
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- Top, E.M., Springael D., 2003. The Role of Mobile Genetic Ele- ments in Bacterial Adaptation to Xenobiotics Organic Compo- unds. Current Opinion in Biotechnology, 14.262–269
- Warhust, A.M., Fewson, C.A.,1994. Microbial Metabolism and Bi- otrasformation of Styrene, Journal of Applied Bacteriology. 77, 597–606,
Year 2011,
Volume: 1 Issue: 4, 57 - 62, 31.12.2011
Abstract
Divinylbenzene (styrene) are among the xenobiotic organic compounds that are widely used in
chemical industries. For this reason, it is necessary to effectively and economically remove these compounds from
the waste waters and effluent gases of chemical industries. In this study, the performance of mixed cultures for the
biological removal of styrene mixture was investigated under aerobic conditions. Batch experiments were conducted
with different initial concentrations of styrene (50-150 mg L-1). The effect of the concentration of these organic
compounds on the growth characteristics of the microorganisms was studied during the conducted research. In conclusion,
mixed cultures were identified to perform highly satisfactorily in the removal of styrene in batch operating
conditions. The culture has successfully removed styrene using these compounds as the carbon and energy source.
References
- Anonymous, 2005. SIRC- Sponsored Scientific Investigations to Understand Styrene’s Potential Health Effects
- Araya P., Chamy, R., Mota M., Alves, M., 2000. Biodegradability and Toxicity of Styrene in The Anaerobic Digestion Process. Biotechonology Letters, 22: 1477-1481
- Arnold, M., Reittu, A., Von Wright, A., Martikainen P.J., Suihko, M.L., 1997. Bacterial Degradation of Styrene in Waste Gases Using A Peat Fitler. Appl. Microbial Biotechnol 48: 738-744
- Beltrametti F., Marconi, A.M., Bestetti, G., Colombo, C., Galli, E., Ruzzi, M., Zennaro, E., 1997. Sequencing and Functio- nal Analysis of Styrene Catabolism Genes from Pseudomo- nas fluorescens ST. Applied and Environmental Microbiology, 2232–2239
- Bestetti, G., Gennaro, P.D., Colmegna, A., Ronco, I., Gali E., Sel- lo, G., 2004. Characterization of Styrene Catabolic Pathway in Pseudomonas Fuorescens ST. International Biodeterioration& Biodegradation 54 183 -187.
- Bina B., Dehghanzadeh R., Pourmoghadas H., A.Kalantary, A. Tor- kian, 2004. Removal of Styrene from Waste Gas Stream Using A Biofilter. Journal of Research in Medical Sciences, 6.31–39
- Braum-Lülleman A., Majcherczyk A., Hüttermann.A., 1997. Deg- radation of Styrene by White-rot Fungi. Appl. Microbiol. Bio- technol. 47, 150–155
- Cox, H.H.H., Faber, B. W., Van Heiningen, N. M., Radhoe, H., Doddeme, H. J., and Harder W., 1996. Styrene Metabolism in Exophiala Jeeanselmei and Involment of A Cytochrome P-450 Dependent Styrene Monooxygenase. Applied and En- vironmental Microbiology. 1471-1474
- Fallah, N., Bonakdarpour, B., Nasernejad, B., Alavimoghaddam, M., 2010. Long-term Operation of Submerged Membrane Bi- oreactor (MBR) for The Treatment of Synthetic Wastewater Containing Styrene as Volatile Organic Compound (VOC) : Effect of Hydraulic Retention Time (HRT). Journal of Hazar- dous Materials.
- Fallah, N., Bonakdarpour, B., Nasernejad, B., Alavimoghaddam, M., 2010. The use of A Submerged Membrane Bioreactor for The Treatment of A Styrene Contaınıng Synthetic Wastewater. İran J.Environ. Health. Sci. Eng.,7 (2), 115-122
- Fu, M.H., Alexander M., 1992. Biodegradation of Styrene in Samp- les of Natural Environments. Environ. Sci. Vol. 26, No. 8
- Gaszczak A., Szczyrba, E., Bartelmus G., 2009. Kinetics Studies of The Biodegradation of Volatile Organic Compounds in A Batch Reactor. Proceedings of Ecopole.3 (2)
- Gbric-Gallic D., Churchman-Eisel N., Markovic I., 1990. Microbi- al Transformation of Styrene by Anaerobic Consortia. J. Appl. Bacterial. 69, 247–260
- Gennaro, P.D., Colmegna, A., Gallı, E., Sello, G., Pelızzonı, F., Bes- tettı, G., 1999. A New Biocatalyst for Production of Optically Pure Aryl Epoxides by Styrene Monooxygenase from Pseudo- monas fluorescens ST. Appied and Envıronmental Microbio- logy, June 1999, p. 2794-2797.
- Jang, J.H., Hirai, M., Shoda, M., 2005. Performance of A Styre- ne–degrading Biofilter Inoculated with Pseudomonas sp. SR- 5. Journal of Bioscience and Bioengineering, Vol. 100, No.3, 297-302,
- Park, M.S., Han, J.H., Yoo, S.S., Lee, E.Y., Lee, S.G., Park, S., 2005. Degradation of Styrene by A New Isolate P. putida SN1. Korean J. Chem. Eng., 22(3), 418-424
- Jang, J.H., Hirai, M., Shoda, M., 2006. Enhanccement of Styrene Removal Efficiency in Biofilter by Mixed Cultures of Pseu- domonas sp. SR-5. Journal of Bioscience and Bioengineering, Vol.102, No.1, 53-59
- Lee, J.W., Lee, S.M., Hong, E.J., Jeung, E.B., Kang, H.Y., Kim, M.K., Choi, I.G., 2006. Esrrogenic Reduction of Styre- ne Monomer Degraded by Phanerochaete Chrysosporium KFRI20742. The Journal of Microbiology., 177-184
- Mooney, A., Ward, P.G., O’Connor, K.E., 2006. Microbial Degrada- tion of Styrene: Biochemistry, Molecular Genetics and Pers- pectives for Biotechnological Applications. Appl Microbiol Biotechnol 72: 1-10.
- O’ Connor, K., Buckley, C.M., Hartmans, S., Dobson, A.D.W., 1995. Possible Regulatory Role for Nonaromatic Carbon So- urces in Styrene Degradation by Pseudomonas putida CA-3. Applied and Environmental Microbiology,544- 548.
- Top, E.M., Springael D., 2003. The Role of Mobile Genetic Ele- ments in Bacterial Adaptation to Xenobiotics Organic Compo- unds. Current Opinion in Biotechnology, 14.262–269
- Warhust, A.M., Fewson, C.A.,1994. Microbial Metabolism and Bi- otrasformation of Styrene, Journal of Applied Bacteriology. 77, 597–606,
There are 22 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Çevre Mühendisliği / Environment Engineering |
| Authors | |
| Publication Date | December 31, 2011 |
| Submission Date | October 1, 2011 |
| Acceptance Date | November 28, 2011 |
| Published in Issue | Year 2011 Volume: 1 Issue: 4 |