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Studies On The Adsorption Of Methylene Blue Dye From The Production Of Activated Carbon Using Spathiphyllum Wallisii Leaves, Dolichus Lablab Peal, And Cycas Circinalis Leaves.

Volume 5 - Issue 12, December 2022 Edition
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Author(s)
Mubashira khaleel
Keywords
Activated carbon, waste water, Adsorption, Methylene blue dye, Low cost adsorbent, EDX, FT – IR.
Abstract
The term pollutant, in a broad sense, refers to a substance/material that changes the natural quality of the environment by physical, chemical, or biological means. Thus, we may have pollution in air, water, and soil. As this review article deals with their removal of pollutants from wastewater, only pollutants generally present in effluents are described here. The three main activities that mankind indulges in are domestic, agricultural, and industrial. in all of these activities, a large amount of fresh water is used, which is discharged as wastewater containing different pollutants . Type of activity these may be various inorganic and organic chemicals and biological agents as well as heat and radiations. Methylene blue is the most soluble dye in water in general used for printing cotton and tannin, dyeing leather, antiseptic and medical purposes. Cationic dyes like methylene blue (MB) are more toxic than anionic dyes. Dyes are complex and sensitive chemicals. A dye is a colored substance that has an affinity to the substrate to which it is being applied.
References
[1]. Ali H. Jawad ,Ramlah Abd Rashid, Mohd Azlan Mohd Ishak &Khudzir Ismail, Adsorptive removal of methylene blue by chemically treated cellulosic waste banana (Musa sapientum) peels, Journal of Taibah University for Science , Volume 12,(2018).

[2]. Trang Thi Cam Truong, Nhan Thi Thanh Vo, Khao Dang Nguyen and Ha Manh Bui, Preparation of Cellulose – based Hydrogel derived from Tea residue for the Adsorption of Methylene Blue, 1-9, (2018).

[3]. Cheng Li, Yan He, Li Zhou, Thing Xu, Jun Hu, Changjun Peng, Honglai Liu, Fast adsorption of Methylene Blue, Basic Fuschin and Malachite Green by a novel Sulfonic - grafted triplycene based porous organic polymer, 41986-41993, (2018).

[4]. Muhammad Ashiq, Muhammad Najam –ul- Haq, Muhammad Tehseen Qureshi, Desalination and treatment removal of Methylene Blue from aqueous solution using acid / base treated rice husk as an adsorbent, 376-383, (2012).

[5]. Porselvi, V.M, Kumaresan, S. and Meenakshi, S., Removal of Methylene Blue using low cost activated carbons from various plants by Adsorption technique, 1 – 19, (2014).

[6]. Sankar Challa, V. R., Santhosh Kumar, G., Padma, D .V. and Ch Subbarao, V., Sorption dynamics of Methylene Blue removal using Indian activated coir pith, 35 – 42.

[7]. Deepak pathania, Shikha Sharma, Pardeep Singh, Removal of Methylene Blue by adsorption onto activated carbon developed from Ficus carica bast, S1446 – S1451, (2013).

[8]. Amin, M. T., Alazba, A. A., Shafiq,M., Effective adsorption of Methylene Blue dye using activated carbon developed from the rosemary plant: Isotherm and kinetic studies, 1- 10, (2017).

[9]. Dalila Badis, Zoubir Benmaamar, Othenane Benkorbbi, Houcine Hamitouche, Amele Aggoun, Removal of Methylene Blue by adsorption onto Ratama raetam plant: kinetic and equilibrium study, 74 – 83, (2016).

[10]. Nilufer Cirig selcuk, Senol Kubilay, Ali sauran, Ali Riza kul, Kinetics and Thermodynamics studies of adsorption of Methylene Blue from aqueous solution onto Paliurus spina Christi mill. Fruits and seed, IOSR journal of applied chemistry, issue 5, volume 10, 53 – 63.

[11]. Hayelom Dargo, Nigus Gabbiye, and Adhena Ayalew, Removal of Methylene Blue dye from rice husk, international journal of innovation and scientific research, volume – 9, 317 – 325, (2014).

[12]. Elavarasan, A., Chitradevi, S., Nandhakumar, V., Sivajiganesan, S., Kadhiravan, S., FT – IR Spectra, XRD, and EDX studies on the Adsorption of Methylene Blue dye present in aqueous solution on acid activated carbon prepared from Mimusops elengi, IOSR journal of Applied Chemistry, volume 11, 45 -51, (2018).

[13]. Obuge, A. Macaulay, Evbuomwan, O. B, Adsorption of Methylene blue onto activated carbon impregnated with KOH using Cocoa shell, International journal of Engineering and Technical Research (IJETR), issue - 10, volume 2, 11- 18, (2014).

[14]. Deepshikha Sareen, Dr. Rajeev Garg, Dr. Neelkanth Grover, A Study on Removal of Methylene Blue Dye From Waste Water By Adsorption Technique Using Fly Ash Briquette”, International journal of Engineering Research and Technology (IJERT), Vol. 3 Issue 7, (2014).

[15]. Azam Taufik Mohd Din, Bassim, H.H., and Abdul Latif Ahmad, Modellingof Methylene Blue adsorption via, activated carbon derived from indigenous agricultural solid waste, 249 – 258, (2008).

[16]. Noor A. Abd Al –Hussein, Adsorption of methylene blue dye from aqueous solution by using some plant material, Mesopotemia environmental journal, 74 – 78, (2017).

[17]. Mahammedi Fatiha, Benguella Belkacem, Adsorption of Methylene blue from aqueous solution using natural clay, 285 – 292, (2016).

[18]. Mahboobeh Manoochehri and Khadijah Amooei, Removal of methylene blue by modified carbon prepared from the Sambucus nigra L plant, 27 – 33, (2012)

[19]. Mahadeva swamy Maallana, Hari Krishna, R., Nagaraju Kottam, Fast adsorptive removal of methylene blue dye from aqueous solution onto a wild carrot flower activated carbon : Isotherms and Kinetic studies, international journal of Engineering and Management Research, 287 – 291, (2017).

[20]. Elmorsi, R.R., Shaimaa, T. El Wakeel., Waleed, A., Shehab El – Dein, Hesham, R.L., Wafaa, E.R., Mohammadd Nagah, Seham. A., Sohair, A., Sayed Ahmed, Iman, Y. El – Sheif, and Khaleed, S. Abou El – Sherbini, Adsorption of methylene blue and Pb+2 by using acid activated Posidonia oceanic waste, 1 – 12, (2019).

[21]. Zohre Shahryari, Atallah Soltani, G., and Mehdi Azadi, Experimental study of methylene blue adsorption from aqueous solution onto carbon nano tubes, international journal of water resources and environmental engineering, 016 – 028, (2010).