the Carbon - based materials derived from Phoenix Dactylifera (date palm) seeds, Magnifera Indica (mango) seeds, and Peltophorum Pterocarpum (Copper Pod) seeds were used in batch adsorption studies of fluoride.
Abstract
Abstract - The removal of Fluoride from a synthetic sample by adsorption on physical activated carbon made from Phoenix Dactylifera (Date Palm) seeds, Magnifera Indica (Mango) seeds, and Peltophorum Pterocarpum (Copper Pod) seeds was carried out at room temperature of 32°C. 1oC. Batch studies were carried out on physically activated carbon to determine the best time, dosage, and pH for Fluoride removal. The best contact time, adsorbent dose, and pH for carbon were 40 minutes, 140 milligrammes, and 7.50, 40 minutes, 160 milligrammes, and 7.50, and 35 minutes, 120 milligrammes, and 7.50, with fluoride removal efficiency of 77.5 percent, 76.5 percent, 45 percent, 58 percent, 96 percent, and 78.96 percent, 87.99 percent, 97 percent, respectively.
Downloads
References
REFERENCES
M Karthikeyan and K P Elango, “Graphite removal of fluoride from aqueous solution: A kinetic and thermodynamic study,” Indian Journal of Chemical Technology, Vol. 15, November 2008, pp. 525-532.
Sunil Kumar, Asha Gupta, and J.P. Yadav, “Removal of Fluoride Using a Neem-Based Thermally Activated Carbon Process” (Azadirachta indica) and Kikar (Acacia arabica) Leaves,” Journal of Environmental Biology, 29(2) (2008), pp.227-232.
Pallavi Vijaykumar and Dr.S.R.Mise, “Activated Carbon Derived from Royal Gulmohar Fruit Shell Fluoride Adsorption Studies,” Journal of the IPHE, India, Vol. 2008-09, No. 4.Waheed S. Deshmukh, S.J. Attar and M.D. Waghmare “Investigation on Sorption of Fluoride in Water Using Rice Husk as an Adsorbent”, Nature Environment and Pollution Technology, An International Quarterly Scientific Journal. Vol. 8, No.2, 2009. pp. 217-223,
V. Veeraputhiran and G. Alagumuthu, “Bioadsorbent Treatment of High Fluoride Drinking Water,” Research Journal of Chemical Sciences, Vol. 1(4), July 2011, pp. 49-54.
G. Alagumuthu, V. Veeraputhiran and R. Venkataraman, “Fluoride Removal Adsorption Isotherms: Batch Techniques”, Scholars Research Library, Archives of Applied Science Research, 2010, 2 (4): pp. 170-185.
Das kumar malay and attar j. salim, “For batch fluoride adsorption, a comparison of commercial and natural adsorbents” Research journal of chemical sciences,vol.1(7),68-75,oct(2011).
Gandhi N.1, Sirisha D.1, Asthana Smita2 and Manjusha A.3, has studied ” “Studies on Fluoride Adsorption in Multani Matti and Red Soil”, Research Journal of Chemical Sciences, Vol. 2(10), October (2012) pp. 32-37.
Monal Dutta, Tanumoy Ray, Jayanta Kumar Basu*,“Batch fluoride ion adsorption onto microwave aided activated carbon produced from Acacia Auriculiformis scrap wood”, Archives of Applied Science Research, 2012, 4 (1):536-550
Salwa A.Ahmed, Ahmed A. Abdel Gaber & Asmaa M. Abdel Rahim, “To remove calmagite dye from aqueous medium, researchers used nanoparticles of mango seeds kernels coated with Fe(III)”, International Journal of Advanced Research(2015),volume 3, Issue 2, 621-632
Pranjal Saikia, Ranjan Kumar Bharali and Hemanta Kumar Baruah, “Kinetics and thermodynamics of fluoride removal utilising a new bio-adsorption from possotia (vitex negundo) leaf,”Journal of Analytical science and technology,2017
G.P.Kofa, V.H.Gomdje, C.Telegang and S.Ndi Koungou,” kinetics and equilibrium studies of fluoride removal from water by adsorption onto burned clay pots”, journal of applied chemistry volume 2017,article ID 6254686,7 pages
Copyright (c) 2021 KEERTHI GURANI, Dr. Shashikant R. Mise
This work is licensed under a Creative Commons Attribution 4.0 International License.
I/We agree with the provision of the Bye-Law 118 of The Institution of Engineers (India) which states that copyright of each paper published in Institution Journal or Annual Technical Volume in full or in Abstract at its centres shall lie with the Institution.