Influence of Calcination Temperature and Operational Parameters on Fe-ZSM-۵ Catalyst performance in Sonocatalytic Degradation of Phenol from wastewater
Language: EnglishView: 111
This Paper With 14 Page And PDF Format Ready To Download
با استفاده از پرداخت اینترنتی بسیار سریع و ساده می توانید اصل این Paper را که دارای 14 صفحه است به صورت فایل PDF در اختیار داشته باشید.
Nowadays, not only the lack of water sources but also water pollution by industrial wastewater has become a major challenge. One of the pollutants of water resources, which threatens water resources, is phenol that enters the environment through wastewater from various industries such as petrochemicals, refineries, pharmaceuticals, etc. This compound, due to its toxicity, high stability and solubility in water caused many problems and it is very important to remove it from industrial wastewater. Therefore, the main purpose of this study is to remove phenol from wastewater by using catalytic oxidation. Fe-ZSM-۵
catalyst was synthesized by precipitation method and its characteristics were determined by XRD, FTIR, SEM and BET analyses. The results of XRD analysis showed that the iron ions are in the MFI structure and the catalyst has a good crystallinity phase, so that it retains its MFI structure. BET analysis showed the specific surface area of the synthesized catalyst is ۲۹۳g/m۲. The catalytic activity of Fe-ZSM-۵
was investigated in degradation of phenol and the results showed that the mentioned catalyst had the highest removal percentage (۸۵.۸۲%) in ۹۰ min at pH = ۴.۲۵ and T= ۷۰ °C. The effect of various parameters such as ultraviolet radiation, initial pollutant concentration, catalyst loading and H۲O۲ concentration on the catalytic activity were also investigated.
Paper COI CodeThis Paper COI Code is JR_JWENT-6-2_005. Also You can use the following address to link to this article. This link is permanent and is used as an article registration confirmation in the Civilica reference:
How to Cite to This Paper:
If you want to refer to this Paper in your research work, you can simply use the following phrase in the resources section:
Kazemi Hakki, Hamid and Shekari, Pouya and Najafidoust, Ahmad and Dezhvan, Nosrat and Seddighi Rad, Masoume,1400,Influence of Calcination Temperature and Operational Parameters on Fe-ZSM-۵ Catalyst performance in Sonocatalytic Degradation of Phenol from wastewater,https://civilica.com/doc/1241041
مراجع و منابع این Paper:لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
۱. Albukhari SM, Ismail M, Akhtar K, Danish EY. Catalytic reduction ...۲. Li W, Mu B, Yang Y. Feasibility of industrial-scale treatment ...Edwards, J.D., Industrial Wastewater Treatment. ۲۰۱۹: CRC press ...۴. Haq I, Raj A. Endocrine-Disrupting Pollutants in Industrial Wastewater and ...۵. Liu H, Liang MY, Liu CS, Gao YX, Zhou JM. ...۶. Abarian M, Hassanshahian M, Esbah A. Degradation of phenol at ...۷. Chowdhury P, Nag S, Ray AK. Degradation of Phenolic Compounds ...۸. Yang C, Miao G, Pi Y, Xia Q, Wu J, ...He, C., et al., Recent advances in the catalytic oxidation ...۱۰. Shukla P, Wang S, Singh K, Ang HM, Tadé MO. ...۱۱. Yan Y, Jiang S, Zhang H, Zhang X. Preparation of ...MALAKOOTIAN, M. and M. ASADI, Efficiency of fenton oxidation process ...۱۳. Jiang J, Wang H, Chen X, Li S, Xie T, ...۱۴. Zhu Q, van Teeffelen RM, van Santen RA, Hensen EJM. ...۱۵. Villa AL, Caro CA, Correa CMd. Cu- and Fe-ZSM-۵ as ...۱۶. Denardin F, Perez-Lopez OW. Tuning the acidity and reducibility of ...Treacy, M.M., J.B. Higgins, and R. von Ballmoos, Collection of ...۱۸. Saraçoğlu E, Uzun BB, Apaydın-Varol E. Upgrading of fast pyrolysis ...۱۹. Sabarish R, Unnikrishnan G. Synthesis, characterization and catalytic activity of ...۲۰. Ni Z, Zhang W, Jiang G, Wang X, Lu Z, ...۲۱. Guo J, Al-Dahhan M. Catalytic Wet Oxidation of Phenol by ...۲۲. Zambrano J, Park H, Min B. Enhancing electrochemical degradation of ...۲۳. Sadana A. Involvement of free radicals in the aqueous-phase catalytic ...Xiao, X.Z., et al., Flowerlike Brochantite Nanoplate Superstructures for Catalytic ...۲۵. Yang Y, Yan Y, Zhang H, Wu X. Catalytic wet ...Smith, M.B., March‘s advanced organic chemistry: reactions, mechanisms, and structure. ...۲۷. Kosmulski M. The pH dependent surface charging and points of ...۲۸. Najafidoust A, Kazemi Hakki H, Alinezhad Avalzali H, Karimi Ashraf ...۲۹. Hakki HK, Allahyari S, Rahemi N, Tasbihi M. The role ...۳۰. Kosmulski M. The pH dependent surface charging and points of ...۳۱. Najafidoust A, Allahyari S, Rahemi N, Tasbihi M. Uniform coating ...۳۲. Soetbeer J, Dongare P, Hammarström L. Marcus-type driving force correlations ...۳۳. Alharbi OML. Sorption, kinetic, thermodynamics and artificial neural network modelling ...۳۴. Zazo JA, Casas JA, Mohedano AF, Rodríguez JJ. Catalytic wet ...۳۵. Forouzesh M, Ebadi A, Aghaeinejad-Meybodi A. Degradation of metronidazole antibiotic ...۳۶. Rey A, Faraldos M, Casas JA, Zazo JA, Bahamonde A, ...۳۷. Raut-Jadhav S, Pinjari DV, Saini DR, Sonawane SH, Pandit AB. ...۳۸. Rokhina EV, Repo E, Virkutyte J. Comparative kinetic analysis of ...۳۹. Hakki HK, Allahyari S, Rahemi N, Tasbihi M. Surface properties, ...