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Iranian association of environmental health (IAEH)
Avicenna J Environ Health Eng
. 2015;2(1): 2698. doi:
10.17795/ajehe-2698
Research Article
A Comparison Study on the Removal of Phenol From Aqueous Solution Using Organomodified Bentonite and Commercial Activated Carbon
Mostafa Leili
1
* , Javad Faradmal
2
, Farzaneh Kosravian
3
, Mahdieh Heydari
3
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. 2021;28(9):11106
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. 2022;43(13):1968
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Desalination and Water Treatment
. 2023;285:121
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6- Kang S, Fu J, Deng Z, Jiang S, Zhong G, Xu Y, Guo J, Zhou J. Valorization of Biomass Hydrolysis Waste: Activated Carbon from Humins as Exceptional Sorbent for Wastewater Treatment.
Sustainability
. 2018;10(6):1795
[Crossref]
7- Mojiri A, Ohashi A, Ozaki N, Shoiful A, Kindaichi T. Pollutant Removal from Synthetic Aqueous Solutions with a Combined Electrochemical Oxidation and Adsorption Method.
IJERPH
. 2018;15(7):1443
[Crossref]
8- Cheblaoui R, Mohellebi F, Mameri N. Acetaminophen removal using activated bentonite characterized by (BET, XRF, SEM) and bipolar electrocoagulation: A comparative study. application of coupling process on a pharmaceutical effluent.
Chemical Data Collections
. 2023;44:100998
[Crossref]
9- Elayadi F, Achak M, Boumya W, Elamraoui S, Barka N, Lamy E, Beniich N, El Adlouni C. Factorial Design Statistical Analysis and Optimization of the Adsorptive Removal of COD from Olive Mill Wastewater Using Sugarcane Bagasse as a Low-Cost Adsorbent.
Water
. 2023;15(8):1630
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10- Fawzy M, Ahmed H, Nassar H. Chicken bone ash as a cost-effective and efficient adsorbent for phenol removal from aqueous solution.
Desalination and Water Treatment
. 2023;281:255
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11- Samarghandi M, Poormohammadi A, Shanesaz S, Godini K. Comparison Between the Performance of Activated Carbon and Graphene in Removal of Reactive Red 198.
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. 2017;4(1):6021
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12- Elayadi F, Boumya W, Achak M, Chhiti Y, Alaoui F, Barka N, Adlouni C. Experimental and modeling studies of the removal of phenolic compounds from olive mill wastewater by adsorption on sugarcane bagasse.
Environmental Challenges
. 2021;4:100184
[Crossref]
13- Khedri D, Hassani A, Moniri E, Ahmad Panahi H, Khaleghian M. Efficient removal of phenolic contaminants from wastewater samples using functionalized graphene oxide with thermo-sensitive polymer: Adsorption isotherms, kinetics, and thermodynamics studies.
Surfaces and Interfaces
. 2022;35:102439
[Crossref]
14- Shokoohi R, Zolghadrnasab H, Shanehsaz S, Leili M, Shaygan M, Azizi F. Efficiency of the catalytic ozonation processes using nanoparticles deposited on pumice in the removal of bisphenol A.
International Journal of Environmental Analytical Chemistry
. 2023;103(13):3121
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15- Shahbakhsh M, Saravani H, Narouie S, Hashemzaei Z. Poly (hydroquinone-oxovanadium (IV)) porous hollow microspheres for voltammetric detection of phenol.
Microchemical Journal
. 2021;164:105948
[Crossref]
16- Singh N, Nagpal G, Agrawal S, Agrawal R. Water purification by using Adsorbents: A Review.
Environmental Technology & Innovation
. 2018;11:187
[Crossref]