Vlerësimi i procesit të degradimit të fenolit në ujra duke përdorur procese të avancuara oksidimi (AOP)
DOI:
https://doi.org/10.55312/op.v14i2.4731Abstract
Ky studim prezanton të dhëna për analizat e fenolit në mostra uji dhe vleresimin e shpejtësisë së degradimit të tij në mjedise të ndryshme duke përdorur agjentë oksidimi të ndryshëm. Fenoli është një komponim i zakonshëm sidomos në ujrat e derdhjeve urbane. Ky komponim edhe pse është produkt i metabolizmit të organizmave të gjallë përfshirë dhe njeriun, klasifikohet si një komponim toksik dhe i rrezikshëm. Një tjetër burim i rëndësishëm i fenileve janë industria, degradimi i komponimeve të ndryshme (pesticide, PCB, etj) dhe nga proceset e hidratimit të komponimeve të benzenit dhe derivateve të tyre. Proceset e degradimit të fenolit në ujra janë vërejtur duke përdorur agjentë natyralë (drita UV, oksigjeni i ajrit, etj) dhe agjentë oksidimi si peroksidi i hidrogjenit, acidet e ndryshme, katalizatorë apo agjentë oksidimi të ndryshëm. Kombinime të këtyre agjentëve oksidativë janë marrë në studim gjithashtu (1; 2; 3).Parole chiave:
Fenoli,, Proceset e degradimit,, AOP, naliza kimike,, UV-VISDownloads
Riferimenti bibliografici
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Akl M. A., Dawy M. B. and Serage A. (2014) Efficient removal of phenol from water samples using sugarcane bagasse based activated carbon. Journal of Analytical & Bioanalytical Techniques Doi: 10.4172/2155-9872.1000189.
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Bevilaqua J., Commarota, M. and Freire, D. (2002) Phenol removal through combined biological and enzymatic treatments. Brazilian Journal of Chemical Engineering 19, pp. 151–158
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Möder M., Schrader S., Franck U. and Popp P. (1997) Determination of phenolic compounds in waste water by solid‐phase micro extraction. Fresenius’ Journal of Analytical Chemistry 357, pp. 326–332
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Sun R, Wang Y, Ni Y, Kokot S (2014) Spectrophotometric analysis of phenols, which involves a hemin–graphene hybrid nanoparticles with peroxidase-like activity. Journal of hazardous materials 266: 60-67.
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Wilberg K. D. Q., Nunes D. G. and Rubio J. (2000) Removal of phenol by enzymatic oxidation and flotation. Brazilian Journal of Chemical Engineering 17, pp. 907–914
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Shesterenko Y. A., Sevast’yanov O. and Romanovskaya I. (2012) Removal of phenols from aqueous solutions using tyrosinase immobilized on polymer carriers and inorganic coagulants. Journal of Water Chemistry and Technology 34, pp. 107–111
-
Khaled F. and Mossallam (2009) Peroxidase catalyzed the removal of phenol from synthetic waste water. Thirteenth International Water Technology Conference, IWTC, pp. 363–376
-
Kazemi P, Mohammad P, Alireza B, Toraj M, Omid B (2014) Stability and extraction study of phenolic wastewater treatment by supported liquid membrane using tributyl phosphate and sesame oil as liquid membrane. Chemical engineering research and design 92(2): 375-383
-
Olak M, Marta G, Jacek SM (2012) Phenolic compounds in the environment-occurrence and effect on
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living organisms. Proceedings of ECOpole, pp. 355–363
-
Monasterio RP, Ariel RF, María FS (2014) Matrix solid-phase dispersion: a simple and fast technique for the determination of phenolic compounds in olive oil by liquid chromatography. Analytical Methods 6(22): 8986-8995
-
Liu J, Hua H, Sheng Z, Xichun S, Dulin Y (2016) Electro-chemical Simultaneously Determination of Phenol and o-Cresol in Water Basedon ZnO Nanosheets. Int J Electrochem Sci 11: 3921-3930
-
EPA Method 528 (2000) Determination of phenols in drinking water by solid phase extraction and capillary column gas chromatography/mass spectrometry (GC/MS)
-
Rahmani A. R., Shabanloo A., Mehralipour J., Fazlzadeh M. and Poureshgh Y. (2015) Degradation of phenol in aqueous solutions using electro‐Fenton process. Research Journal of Environmental Sciences 9, p. 332
-
Maria D. V.‐O., Javier M. O.‐P. and Antonio M.‐F. (2016) Equilibrium studies on phenol removal from industrial wastewater through polymeric resins. Chemical Engineering Transactions, pp. 253–258
-
Marcos S. H. (2017) Phenolic Compounds - Natural Sources, Importance and Applications, Published by InTechOpen, ISBN: 978-953-51-2958-5
Riferimenti bibliografici
Akl M. A., Dawy M. B. and Serage A. (2014) Efficient removal of phenol from water samples using sugarcane bagasse based activated carbon. Journal of Analytical & Bioanalytical Techniques Doi: 10.4172/2155-9872.1000189.
Bevilaqua J., Commarota, M. and Freire, D. (2002) Phenol removal through combined biological and enzymatic treatments. Brazilian Journal of Chemical Engineering 19, pp. 151–158
Möder M., Schrader S., Franck U. and Popp P. (1997) Determination of phenolic compounds in waste water by solid‐phase micro extraction. Fresenius’ Journal of Analytical Chemistry 357, pp. 326–332
Sun R, Wang Y, Ni Y, Kokot S (2014) Spectrophotometric analysis of phenols, which involves a hemin–graphene hybrid nanoparticles with peroxidase-like activity. Journal of hazardous materials 266: 60-67.
Wilberg K. D. Q., Nunes D. G. and Rubio J. (2000) Removal of phenol by enzymatic oxidation and flotation. Brazilian Journal of Chemical Engineering 17, pp. 907–914
Shesterenko Y. A., Sevast’yanov O. and Romanovskaya I. (2012) Removal of phenols from aqueous solutions using tyrosinase immobilized on polymer carriers and inorganic coagulants. Journal of Water Chemistry and Technology 34, pp. 107–111
Khaled F. and Mossallam (2009) Peroxidase catalyzed the removal of phenol from synthetic waste water. Thirteenth International Water Technology Conference, IWTC, pp. 363–376
Kazemi P, Mohammad P, Alireza B, Toraj M, Omid B (2014) Stability and extraction study of phenolic wastewater treatment by supported liquid membrane using tributyl phosphate and sesame oil as liquid membrane. Chemical engineering research and design 92(2): 375-383
Olak M, Marta G, Jacek SM (2012) Phenolic compounds in the environment-occurrence and effect on
living organisms. Proceedings of ECOpole, pp. 355–363
Monasterio RP, Ariel RF, María FS (2014) Matrix solid-phase dispersion: a simple and fast technique for the determination of phenolic compounds in olive oil by liquid chromatography. Analytical Methods 6(22): 8986-8995
Liu J, Hua H, Sheng Z, Xichun S, Dulin Y (2016) Electro-chemical Simultaneously Determination of Phenol and o-Cresol in Water Basedon ZnO Nanosheets. Int J Electrochem Sci 11: 3921-3930
EPA Method 528 (2000) Determination of phenols in drinking water by solid phase extraction and capillary column gas chromatography/mass spectrometry (GC/MS)
Rahmani A. R., Shabanloo A., Mehralipour J., Fazlzadeh M. and Poureshgh Y. (2015) Degradation of phenol in aqueous solutions using electro‐Fenton process. Research Journal of Environmental Sciences 9, p. 332
Maria D. V.‐O., Javier M. O.‐P. and Antonio M.‐F. (2016) Equilibrium studies on phenol removal from industrial wastewater through polymeric resins. Chemical Engineering Transactions, pp. 253–258
Marcos S. H. (2017) Phenolic Compounds - Natural Sources, Importance and Applications, Published by InTechOpen, ISBN: 978-953-51-2958-5
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