Publisher of Iranian Journals and Conference Proceedings

Please waite ..
Publisher of Iranian Journals and Conference Proceedings
Login |Register |Help |عضویت کتابخانه ها
Paper
Title

‎Application of Box-Behnken Design and Response Surface Methodology of Acid Red 18 Adsorption onto PAC‎ (Synthesized Carrot Waste) Coated with Fe3O4 Nanoparticles from Aquatic Solution: Kinetic and Isotherm Studies

Year: 1399
COI: JR_AHS-10-1_004
Language: EnglishView: 74
This Paper With 19 Page And PDF Format Ready To Download

Buy and Download

با استفاده از پرداخت اینترنتی بسیار سریع و ساده می توانید اصل این Paper را که دارای 19 صفحه است به صورت فایل PDF در اختیار داشته باشید.
آدرس ایمیل خود را در کادر زیر وارد نمایید:

Authors

Roya Moradi - PhD Student of Environmental Pollution, Faculty of Marine Science and Technology, Islamic Azad University, North Tehran Branch, Iran
Morteza Kashefialasl - Associate Professor, Department of Environmental Pollution, Faculty of Marine Science and Technology, Islamic Azad University, North Tehran Branch, Iran
Reza Marandi - Associate Professor, Department of Environmental Pollution, Faculty of Marine Science and Technology, Islamic Azad University, North Tehran Branch, Iran
Esmael Salahi - ‎Professor, Materials and Energy Research Center, Tehran, Iran
Shahram Moradidehaqi - Associate Professor, Applied Chemistry Department, Faculty of Chemistry, Islamic Azad University, North Tehran Branch, Iran

Abstract:

Background & Aims of the Study: The dyes present in the effluent from the textile industry are among the most polluted and hazardous wastewater discharged, causing severe changes in water quality and the environment. The use of agricultural residues as inexpensive organic adsorbents is very suitable for removing industrial dyes from aquatic solutions, especially in developing countries. This study aimed to investigate the effectiveness of activated carbon synthesized from carrot waste as an inexpensive and available organic adsorbent in the removal of Acid Red 18 (AR18) dye. Materials and Methods: In this study, response surface methodology (RSM) was discussed as an efficient method for the optimization of AR18 adsorption onto PAC‎ (obtained from waste carrot) coated with Fe3O4 nanoparticles. ANOVA analysis based on the Box-Behnken design-RSM was applied to investigate the correlation coefficient of PAC (Synthesized Carrot Waste). Adsorbent dose, initial dye concentration, and pH were optimized and evaluated using RSM with respect to contact time on adsorption of AR18. Moreover, X-ray diffraction, transmission electron microscopy, Brunauer–Emmett–Teller, Fourier-transform infrared, and field emission scanning electron microscopy techniques were used to study the adsorbent properties and characteristics of PAC‎. Isotherm data were modeled with both Langmuir and Freundlich isotherm. Results: The results obtained from Langmuir isotherm showed the best fit to experimental data proposing homogeneous dispersion of adsorption sites. Moreover, the compatibility of the adsorbent was examined by fitting the adsorption data with a pseudo-second-order kinetic model. The results of ANOVA analysis showed a good fit between quadratic model predictions with experimental values, resulting in R2 of 0.997 for PAC. The results showed 99.7% of dye AR18 was removed after 80 min, pH at 3, and the adsorbent dose of 1.5 g. Conclusion: It can be concluded that PAC‎ (Synthesized Carrot Waste) has great potential applications for the removal of AR18 dye from the textile industry. Large-scale applications of adsorbent and adsorbate, due to their recuperation and reusability characteristics, are proposed by observations and experimental results of this study.

Keywords:

Paper COI Code

This Paper COI Code is JR_AHS-10-1_004. 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:

https://civilica.com/doc/1157731/

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:
Moradi, Roya and Kashefialasl, Morteza and Marandi, Reza and Salahi, Esmael and Moradidehaqi, Shahram,1399,‎Application of Box-Behnken Design and Response Surface Methodology of Acid Red 18 Adsorption onto PAC‎ (Synthesized Carrot Waste) Coated with Fe3O4 Nanoparticles from Aquatic Solution: Kinetic and Isotherm Studies,https://civilica.com/doc/1157731

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 :

  • 1. Wang, S. , Zhai, Y. Y. , Gao, Q. ...
  • ‎2. Shokoohi R., Vatanpoor V., Zarrabi M ., Adsorption of ...
  • ‎3. Gomez V., Larrechi M.S, Callao M.P., Kinetic and adsorption ...
  • ‎4. Shokri A, Karimi S. Treatment of Aqueous Solution Containing ...
  • ‎5. Thinakaran N., Panneerselvam P., Baskaralingam P., Elango D., Sivanesan ...
  • ‎6. Bouguettoucha A., Reffas A., Chebli D., Amrane A., Adsorption ...
  • ‎7. Pereira M. F. R., Soares S. F., Órfão J. ...
  • ‎8. Öztürk A., Malkoc E., Adsorptive potential of cationic Basic ...
  • ‎9. Wang, H., Fang, X.M., Sutar, P.P., Meng, J.S., Wang, ...
  • ‎10. Mansoorian H.J., Jafari A.J., Reza Yari A., Hossein Mahvi ...
  • ‎11. Goleij M., Fakhraee H., Response surface methodology optimization of ...
  • ‎12. Percot A., Viton C., Domard A., Optimization of chitin ...
  • ‎13. Islam M., Shah M., Rahman M.M., Islam Molla A., ...
  • ‎14. Chiou, M. S. and Li, H. Y. Adsorption behavior ...
  • ‎15. Shahsavani S., Dehghani M., Chemistry N. S., Removal of ...
  • ‎16. Kamranifar M., Naghizadeh A., Montmorillonite nanoparticles in removal of ...
  • ‎17. Soni S., Bajpai P. K., Mittal J., Arora C., ...
  • ‎18. Yu J.X., Zhu J., Feng L.Y., Cai X.L., Zhang ...
  • ‎19. Farghali A., Bahgat M., El Rouby W.M.A. Khedr M.H., ...
  • ‎20. Qi Y., Lu Y., Liu L., Qi X., Ding ...
  • ‎21. Fan J., Chen D., Li N., Xu Q., Li ...
  • ‎22. Sivakami M., Gomathi T.,Venkatesan J., Jeong H.S., Kim S.K., ...
  • ‎23. Jiang C., Wang X., Qin D., Da W., Hou ...
  • ‎24. Moradi R, Hosseini J. Removal of Acid Orange25 Diazo ...
  • ‎25.Azizian S., Kinetic models of sorption: a theoretical analysis, Journal ...
  • ‎26. Yang X., Duri B. A., Kinetic modeling of liquid-phase ...
  • ‎27. Azizian S., Bashiri H., Adsorption kinetics at the solid/solution ...
  • ‎28. Thinakaran N., Baskaralingam P., Pulikesi M., PanneerselvamP., Sivanesan S ...
  • ‎29. Kannan N., pigments MM.., Kinetics and mechanism of removal ...
  • ‎30. Annadurai G., Juang R., Lee D.H., Use of cellulose-based ...
  • ‎31. Daneshvar E., Kousha M., Sohrabi M.S., Khataee A., Converti ...
  • ‎32. Langmuir I., "The constitution and fundamental properties of solids ...
  • ‎33. Gandhi N., Sirisha D., Sekhar K.B.C., Adsorption of Fluoride ...
  • ‎34. Khataee A. R., Zarei M., Moradkhannejhad L., Application of ...
  • ‎35. BazrafshanE., Kord Mostafapour F., Rahdar S., Mahvi A.H., Equilibrium ...
  • ‎36. Bazrafshan E., Rahdar S., Zazouli M.A., Balarak D., Kord ...
  • ‎37. Hameed B.H., Ahmad A.A., Aziz N., Isotherms, kinetics and ...
  • ‎38. Fil B., Karakaş Z., Boncukcuoğlu R., Yılmaz A., Removal ...
  • ‎39. Cheung W.H., Szeto Y., Mcay G., Intraparticle diffusion processes ...
  • ‎40. Ghanizadeh G., Asgari GH.,Removal of methylene blue dye from ...
  • ‎41. Doğan M., Alkan M., Türkyilmaz A., Ozdemir Y., Kinetics ...
  • ‎42. Yazdani M., Arami M., Bahrami H., Textile dyes removal ...
  • ‎43‎‌.‌‎ Gil A., Assis F., Albeni, S., Korili S.A.,Removal of ...
  • ‎44‎‌.‌‎ Kushwaha A., Gupta N., Chattopadhyaya M.C., Removal of cationic ...
  • ‎45‎‌ .‌Jaafari S., Shokouhi R., HOSSEIN Z., Taghavi M., Removal ...
  • ‎46‎‌.‌‎ Farahani M., Abdullah S., Hossein S.,Shojaeipour S., Kashisaz M., ...
  • ‎47‎‌.‌‎ Mary Ealias A,. Saravanakumar M.P., Facile synthesis and characterisation ...
  • ‎48‎‌.‌‎ Ioannidou O., Zabaniotou A., Agricultural residues as precursors for ...

Research Info Management

Certificate | Report | من نویسنده این مقاله هستم

اطلاعات استنادی این Paper را به نرم افزارهای مدیریت اطلاعات علمی و استنادی ارسال نمایید و در تحقیقات خود از آن استفاده نمایید.

Scientometrics

The specifications of the publisher center of this Paper are as follows:
Type of center: Azad University
Paper count: 8,710
In the scientometrics section of CIVILICA, you can see the scientific ranking of the Iranian academic and research centers based on the statistics of indexed articles.

Share this page

More information about COI

COI stands for "CIVILICA Object Identifier". COI is the unique code assigned to articles of Iranian conferences and journals when indexing on the CIVILICA citation database.

The COI is the national code of documents indexed in CIVILICA and is a unique and permanent code. it can always be cited and tracked and assumed as registration confirmation ID.

Support