"Phenol Removal from Aqueous Solutions by Electrocoagulation Technology Using Iron Electrodes:Effect of Some Variables"
written by Mohammad Ali Zazouli, Mahmoud Taghavi,
published by Journal of Water Resource and Protection, Vol.4 No.11, 2012
has been cited by the following article(s):
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[1] بررسي کارايي فرآيند الکتروفنتون در تجزيه فنل از محيط هاي آبي‎
[2] Electrocoagulation Process for the Efficient Removal of Total Organic Carbon from Real Textile Wastewater: Effect of Conditions and Kinetic Study
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[5] Optimization, modeling and uncertainty investigation of phenolic wastewater treatment by photocatalytic process in cascade reactor
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[6] Utilization of Calcined Gypsum in Water and Wastewater Treatment: Removal of Phenol
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[7] Phenol adsorption onto kaolin and fuller's earth: a comparative study with bentonite
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[8] Electrocatalytic Degradation of Phenol by the Electrooxidation–Electrocoagulation Hybrid Process: Kinetics and Identification of Degradation Intermediates
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[9] Reduced graphene–tungsten trioxide-based hybrid materials with peroxidase-like activity
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[10] Using electro-coagulation treatment to remove phenolic compounds and furan derivatives in hydrolysates resulting from pilot-scale supercritical water hydrolysis of …
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[11] Adsorption of phenol onto aluminium oxide and zinc oxide: A comparative study with titanium dioxide
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[12] Study of the removal of metronidazole from aqueous solutions using Electro/Fenton process and graphite and iron electrodes
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[13] Pollutants removal from synthetic wastewater by the combined electrochemical, adsorption and sequencing batch reactor (SBR)
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[14] Electrochemical Degradation of Phenol and Resorcinol Molecules through the Dissolution of Sacrificial Anodes of Macro-Corrosion Galvanic Cells.
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[15] Benefits of Electrocoagulation in Treatment of Wastewater: Removal of Fe and Mn metals, oil and grease and COD: three case studies
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[16] بررسی استفاده از فرآیند الکتروفنتون با الکترودهای آهن و گرافیت برای حذف مترونیدازول از محلول های آبی‎
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[17] Electrochemical Degradation of Phenol and Resorcinol Molecules through the Dissolution of Sacrificial Anodes of Macro-Corrosion Galvanic Cells
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[18] Phenol Removal by Novel Choline Chloride Blended Cellulose Acetate-Fly Ash Composite Membrane
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[19] Investigation of Phenol Removal by Proxy-Electrocoagulation Process with Iron Electrodes from Aqueous Solutions
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[20] Combined process of electrocoagulation and photocatalytic degradation for the treatment of olive washing wastewater
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[21] Cresol and it derivative Organic pollutant removal from waste water by adsorption the magneto chitosan nanoparticle
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[22] Electropolymerized of aniline as a new molecularly imprinted polymer for determination of phenol: A study for phenol sensor
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[23] Electropolymerized of Aniline as A New Molecularly Imprinted Polymer for Determination of Phenol
International Seminar on Sensors, Instrumentation, Measurement and Metrology (ISSIMM), 2017
[24] شرایط بهینه فرآیند انعقاد و لخته سازی با پلی آلومینیوم کلراید در تصفیه فاضلاب صنایع لبنی‎
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[25] Effect of Solvent and pH on the Extraction of Carbolic Acid from Aqueous Solution by TOMAC
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[26] Investigation of operational parameters influencing in treatment of dye from water by electro-Fenton process
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[27] بررسی مقایسه‌ای راندمان فرایند الکتروپرسولفات و فرایند الکتروفنتون در حذف فنل از محیط‌های آبی‎
فصلنامه علمی-پژوهشی آب و فاضلاب, 2016
[28] Thesis submitted in partial fulfillment For the award of the degree
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[29] Removal of sulphur black dye from its aqueous solution using alginate from Sargassum sp.(Brown algae) as a coagulant
Environmental Progress & Sustainable Energy, 2015
[30] Adsorption of phenol compounds by nanoporous silica aerogel
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[31] Degradation of Phenol in Aqueous Solutions Using Electro-Fenton Process
Research Journal of Environmental Sciences, 2015
[32] Effect of presence of chemical species on removal of phenol in electrocoagulation process
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[33] بررسی کارایی فرایند الکتروفنتون در تجزیه رنگ‌های اسید بلک 1 و اسید بلو 113 در محیط‌های آبی‎
فصلنامه علمی-پژوهشی آب و فاضلاب, 2015
[34] Removal of sulphur black dye from its aqueous solution using alginate from Sargassum sp. (Brown algae) as a coagulant
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[35] Phenol removal from aqueous medium using chemically modified banana peels as low-cost adsorbent
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[36] Investigation of Electro-Fenton process in degradation of phenol from aqueous solutions
Iranian Journal of Health and Environment, 2014
[37] Evaluation of Boron Removal by Coagulation-Flocculation and Electrocoagulation
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[38] Investigating the Removal Rate of Acid Blue 113 from Aqueous Solution by Canola (Brassica Napus).
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[39] Review on research for removal of phenol from wastewater
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[40] Pyrocatechol Removal From Aqueous Solutions by Using Azolla Filiculoides
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[41] Investigating the Removal Rate of Acid Blue 113 from Aqueous Solution by Canola (Brassica Napus)
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[42] Modeling Bisphenol A Removal from Aqueous Solution by Activated Carbon and Eggshell
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[43] Boron Removal by Electrocoagulation Using Full Factorial Design
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[44] مدل سازی فرآیند حذف بیس فنل A از محیط‌های آبی توسط کربن فعال و پوسته تخم مرغ‎
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[45] KOWSAR www. jhealthscope. com Pyrocatechol Removal From Aqueous Solutions by Using Azolla Filiculoides
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[46] Modeling Bisphenol A Removal from Aqueous Solution by Activated Carbon and Eggshell.
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[47] Investigating the removal rate of acid blue 113 from aqueous solution by canola
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[48] بررسی میزان جذب رنگ اسید بلو113 توسط گیاه کانولا از محیط آبی‎
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[49] شرايط بهينه فرآيند انعقاد و لخته سازي با پلي آلومينيوم کلرايد در تصفيه فاضلاب صنايع لبني‎
[50] بررسي کارايي فرايند الکتروفنتون در تجزيه رنگ هاي اسيد بلک 1 و اسيد بلو 113 در محيط هاي آبي‎