Investigación de la eficiencia de eliminación de bacalao de las aguas residuales de una refinería utilizando nanotubos de carbono
Palabras clave:
refinería, efluente de refinería, bacalao, procedimiento de respuesta, nanotubos de carbonoResumen
Las refinerías se consideran como uno de los principales consumidores de agua y productora significativa de aguas residuales en varias etapas del proceso. El objetivo de este estudio fue determinar la eficiencia de los nanotubos de carbono en la eliminación de la materia orgánica en el efluente de la refinería. Los experimentos se realizaron de forma discontinua con cambios en factores efectivos como el pH, la concentración de materia orgánica, el contenido de nanotubos y el tiempo de proceso. El propósito de este estudio fue determinar el efecto de los parámetros efectivos sobre el rendimiento de los nanotubos: es un carbono que elimina la materia orgánica del agua residual. Los resultados de los experimentos y las mediciones indicaron que la concentración de materia orgánica, el pH y la cantidad de nanotubos de carbono aumentaron o que la reducción de cada uno ocasionó un cambio en su eficiencia y rendimiento. Los resultados de este estudio mostraron que la mayor cantidad de remoción de materia orgánica del agua residual usando nanotubos de carbono fue de 89.87%. Los resultados mostraron que el pH óptimo para la prueba fue 5.5. Los datos proporcionados por el método de diseño de composición central bien podrían satisfacer los datos de prueba.
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Amosa, K., Jami, S. Maan, F. R. Dzun, N. and Suleyman, A. Muyibi. A two-step optimization and statistical analysis of COD reduction from biotreated POME using empty fruit bunch-based activated carbon produced from pyrolysis.
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Antón Chávez, A.D.P (2017). Influencia de la noticia en la imagen corporativa de una municipalidad desde la percepción del ciudadano. Opción, Año 33, No. 84 (2017): 90-119.
Ernst, M. Lurot, F. Schrotter, J. Catalytic ozonation of refractory organic model compounds in aqueous solution by aluminum oxide, Appl. Catal. B: Environ. 47 (2004) 15–25.
Ghasemi Z., Younesi H., Zinatizadeh A. Efficiency of Titanium Nitoxide Photocatalytic Stabilized on Fe-ZSM-5 Zeolite in Removal of Organic Pollutants of Oil Refinery Waste. 2015, 23-33.
Gunasekara, A. S. Donovan, J. A. and Xing, B. Ground discarded tires remove naphthalene, toluene, and mercury from water, Chemosphere, 2000, 41, 1155-1160.
Jing, J. Li, J. Feng, J. Li, W. and Yu, W. W. Photodegradation of quinoline in water over magnetically separable Fe3O4/TiO2 composite photocatalysts, Chemical Engineering Journal, 2013, 219, 355-360.
Kavaz, D., Öztoprak, H. (2017). Environmental Awareness of University Students on White Cheese Waste Water. Eurasia Journal of Mathematics, Science and Technology Education, 13(12), 8003-8015. https://doi.org/10.12973/ejmste/80740
Keshtkar (2018). Numerical analysis of transcritical carbon dioxide compression cycle: a case study, 7 (1), 1-6.
Keshtkar M. M., (2017). Energy, exergy analysis and optimization by a genetic algorithm of a system based on a solar absorption chiller with a cylindrical PCM and nano-fluid, Int. Journal of Heat and Technology, 35 (2), 416-420.
Keshtkar M. M., Talebizadeh, P., (2018). Investigation of transient conduction–radiation heat transfer in a square cavity using combination of LBM and FVM, Sadhana, 43 (4), 145-155.
Keshtkar M. M.; Dadkhoda Zadeh M. (2018). Thermal Simulation of the Symmetric and Asymmetric Arrangement of Barriers on Heat Transfer Enhancement in a Porous Gas Heat Exchanger, Journal of Thermal Science and Engineering Applications, 10 (1), 120-135.
Koh S. M. and Dixon, J. B. Preparation and application of organo-minerals as sorbents of phenol, benzene and toluene, Applied Clay Science, 2001, 18, 111-122.
Kujawski, W. Warszawski, A. Ratajczak, W. Porebski, T. Capa?a, W. and Ostrowska, I. Removal of phenol from wastewater by different separation techniques, Desalination, 2004, 163, 287-296.
Laszlo, K. Podkoscielny, P. and Dabrowski, A. Heterogeneity of polymer-based active carbons in adsorption of aqueous solutions of phenol and 2, 3, 4-trichlorophenol, Langmuir, 2003, 19, 5287-5294.
Mohd Hafizuddin, M. Siti Rozaimah, Sh. Abu Bakar, M. Rakmi, A. Application of response surface methodology (RSM) for optimisation of COD, NH 3–N and 2, 4-DCP removal from recycled paper wastewater in a pilot-scale granular activated carbon sequencing batch biofilm reactor (GAC-SBBR). Journal of environmental management, 2013, 121, 179-190.
Moslehyani, A., Ismail, A. F., Othman, M. H. D., & Matsuura, T. (2015). Design and performance study of hybrid photocatalytic reactor-PVDF/MWCNT nanocomposite membrane system for treatment of petroleum refinery wastewater. Desalination, 363, 99-111.
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Nogueira, A., Bassin, J., Cerqueira, A., and Dezotti, M. (2016). "Integration of biofiltration and advanced oxidation processes for tertiary treatment of an oil refinery wastewater aiming at water reuse." Environmental Science and Pollution Research, 9730-9741.
Pacheco, M.M ., Ramírez García, A., Martos Ruano, M.D & Anguita López, V (2017). El absentismo escolar en Andalucía (España): balance y propuestas de futuro en el marco de la Unión Europea. Opción, Año 33, No. 84 (2017): 65-90
Qu, Y., Ma, Q., Deng, J., Shen, W., Zhang, X., He, Z., ... & Zhou, J. (2015). Responses of microbial communities to single-walled carbon nanotubes in phenol wastewater treatment systems. Environmental science & technology, 49(7), 4627-4635.
Shahrezaei, F., Pakravan, P., Azandaryani, A. H., Pirsaheb, M., & Mansouri, A. M. (2016). Preparation of multi-walled carbon nanotube-doped TiO2 composite and its application in petroleum refinery wastewater treatment. Desalination and Water Treatment, 57(31), 14443-14452.
Terzyk, A. P. Further insights into the role of carbon surface functionalities in the mechanism of phenol adsorption, Journal of colloid and interface science, 2003, 268, 301-329.
Terzyk, A. P. Rychlicki, G. Biniak, S. and ?ukaszewicz, J. P. New correlations between the composition of the surface layer of carbon and its physicochemical properties exposed while paracetamol is adsorbed at different temperatures and pH, Journal of colloid and interface science, 2003, 257, 13-30.
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2018-02-27
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Asadi, T. (2018). Investigación de la eficiencia de eliminación de bacalao de las aguas residuales de una refinería utilizando nanotubos de carbono. Amazonia Investiga, 7(12), 32–44. Recuperado a partir de https://amazoniainvestiga.info/index.php/amazonia/article/view/550
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