Eggshell powder as an adsorbent for removal of fluoride from aqueous solution: Equilibrium, kinetic and thermodynamic studies

E-Journal of Chemistry

Volumn 9, Issue 3, 2012, Pages 1457-1480

  Bhaumik, R ^a   Mondal, N K ^a   Das, B ^a   Roy, P ^a   Pal, K C ^a   Das, C ^a   Banerjee, A ^a   Datta, J K ^a  

^a UNIVERSITY OF BURDWAN   (India)

Author keywords

Eggshell powder; Equilibrium; Fluoride removal; Kinetics; Thermodynamics

Indexed keywords

EID: 84859538165     PISSN: None     EISSN: 09734945     Source Type: Journal    
DOI: 10.1155/2012/790401     Document Type: Article

References (59)

1. Kugali N M and Yadawe M S, Pollution of drinking water due to fluoride and dentalfluorosis at Hunagundtaluk of Bagalkot district, Karnataka, Inter J Appl BioPharmaTechno, 2010, 1 (2), 322-328.
2. WHO, Guidelines for Drinking Water Quality, World Health Organization, Geneva, 2006.
3. Rao N C R, Fluoride And Environment- A Review in Martin J. Bunch, V. MadhaSuresh, T. V. Kumaran, eds., Proceedings of the Third International Conference on Environment andHealth, Chennai, India, 2003, 386-399.
4. Adhikary S K, Tipnis U K, Harkare W P and Govindan K P, Defluoridation during desalination of brackish water by electrodyalysis, Desalination, 1989, 71, 301-312.
5. Hichor M, Persin F, Sandeaux J and Gavach C, Fluoride removal from waters by Donan dialysis, SeperSciTechnol 2000, 18 (1), 1-11. (Pubitemid 30142078)
6. Ndiaye P I, Moulin P, Domingwez L, Millet Z C andCharbit F, Removal of fluoride from electronic industrial effluent by RO membrane separation, Desalination, 2005, 173, 25-32. (Pubitemid 40355177)
7. Sujana M G, and Anand S, Fluoride removal studies from contaminated ground water by using bauxite, Desalination, 2011, 267 (2-3), 222-227.
8. UNICEF Statement on fluoride in water: (2004)HYPERLINK"http://www. fluoride.org.uk/"http://www.fluoride.org.uk/statements/000000-unicef.htm.
9. Emamjomeh M M, Sivakumar M and Schafer A I, An empirical model forv defluoridation by batch monopolar electrocoagulation/flotation (ECF) process, J Hazard Mater, 2006, 131, 118-125.
10. Kumar S, Gupta A and Yadav J P, Removal of fluoride by thermally activated carbonprepared from neem (Azadirachtaindica) and kikar (Acacia arabica) leaves, J EnvironBio, 2008, 29 (2), 227-232. (Pubitemid 351449898)
11. Bhargava D S and Killedar D J, Batch Studies of Water Defluoridation UsingFishbone Charcoal, J WatPollutContFeder, 1991, 63 (6), 848-858.
12. Vijaya Y and Krishnaiah A, Column adsorption and desorption studies of fluoride onperchloric acid crossed-linked calcium alginate beads, E-Journal of chemistry, 2010, 7 (1), 265-270.
13. Munavalli G R, Patki V K, A comparative study of defluoridation techniques, J JPHE 2009, 10 (2), 36-43.
14. Goswami D and Das K A, Removal of fluoride from drinking water using a modifiedfly ash adsorbent, J SciInd Res, 2006, 65, 77-79. (Pubitemid 43085766)
15. Deshmukh W S, Attar S J and Waghmare M D, Investigation on Sorption of Fluoridein Water Using Rice Husk as an Adsorbent, Nat Environ PollutTechnol, 2009, 8 (2), 217-223.
16. Coetzee P P, Coetzee L L, Puka R and Mubenga S, Characterizations of selectedSouth African clays for defluoridation of natural waters, Water SA, 2003, 29 (3), 331-338. (Pubitemid 37014675)
17. Wijesundara T, Low Cost Defluoridation of Water Using Broken Bricks, 30thWEDC International Conference Vientiane, Lao PDR, 2004.
18. Nath S K and Dutta R K, Fluoride removal from water using crushed limestone. Ind. J ChemTechnol, 2010, 17, 120-125.
19. Vigneswaran S and Visvanathan C, Water Treatment Processes, Simple Options (CRC) press, new work 1995.
20. Turner B D, Binning P and Stipp S L S, Fluoride removal by calcite: Evidencefluorite precipitation and surface adsorption, Environ SciTechnol, 2005, 39 9561-9568. (Pubitemid 41832131)
21. Wenming D, Zhijun G, Jinzhou D, Liying Z and Suzi T, Sorption characteristics ofzinc (II) by calcareous soil-radiotracer study, ApplRadiat Isotopes, 2001, 54 (3)371-375. (Pubitemid 32126212)
22. Abdel-Jabbar N and Al-Asheh S, Factorial Design for the Analysis of Packed-bedSorption of Copper using Eggshell as a Biosorbent, J Environ ProtecSci, 2009, 3133-139.
23. Kalyani G, Rao B and Saradhi V, Equilibrium and kinetic studies on biosorption ofzinc onto Gallus domesticus shell powder, J EngApplSci, 2009, 4, 39-49.
24. Clesceri L S, Greenberg A E, Standard Methods for the Examination of Water andWastewater Eaton A D, 20th ed.; APHA, AWWA, WEF: Washington, DC, 1998; 4-82.
25. Mondal M K, Removal of Pb (II) from aqueous solution by adsorption usingactivated tea waste, Korean J ChemEng, 2010, 27 (1), 144-151.
26. Freundlich H, Over the adsorption in solution, Z PhysChem, 1906, 57 (A), 385.
27. Langmuir I, The constitution and fundamental properties of solids and liquids, JAm ChemSoc, 1916, 38, 2221.
28. Oguz E, Thermodynamic and kinetic investigations of PO43-adsorption on blastfurnace slag, J Colloid InterfSci, 2005, 281, 62.
29. Wasewar K L, Kumar S and Prasad B, Adsorption of Tin Using Granular ActivatedCarbon, J Environ ProtecSci, 2009, 3, 41-52.
30. Magdy Y H and Daifullah A A M, Adsorption of a basic dye from aqueous solutionsonto sugar-industry-mud in two modes of operations, Waste Manag, 1988, 18 (4), 219-226.
31. Kalavathy H, Karthik B and Miranda L R, Removal and recovery of Ni and Zn fromaqueous solution using activated carbon from Heveabrasiliensis: Batch and columnstudies, Colloid Surf B: Biointerf, 2010, 78, 291-302.
32. Chowdhury S and Saha P, Sea-shell powder as a new adsorbent to remove BasicGreen4 (Malachite green) from aqueous solutions: Equilibrium, kinetic andthermodynamic studies, ChemEng J, 2010, 164, 168-177.
33. Lagergren S, About the theory of so-called adsorption of soluble substances, derSogenanntenadsorptiongelosterstoffeKungligaSvenskaVetenskapsalka de MiensHandlingar, 1898, 2, 41-39.
34. Ho Y S, Porter J F and McKay G, Equilibrium isotherm studies for the sorption ofdivalent metal ions onto peat: copper, nickel and lead single component systems, Water Air Soil Pollut, 2002, 141, 1-33. (Pubitemid 36124037)
35. Weber W J and Morris J C, Kinetics of adsorption on carbon from solution, J SanitEngDiv Am Soc Civil Eng, 1963, 89, 31.
36. Gao J, Zhang Q, Su K, Chen R and Peng Y, Biosorption of acid yellow 17fromaqueous solution by non-living aerobic granular sludge, J Hazard Mater, 2010, 174 (1-3), 215-225.
37. Lu H, M. Luan and Zhang J, A kinetic study on the Adsorption of Chromium (VI)onto a natural Material used as Landfill Liner. EJGE, 2009, 14, 1-10.
38. Ahalya N, Kanamadi R D and Ramachandra T V, Biosorption of chromium (VI) fromaqueous solutions by the husk of Bengal gram (Cicerarientum), Electron JBiotechnol, 2005, 8.
39. Shen S, Samaranayake, L P and Yip H K, In vitro growth, acidogenicity andcarcinogenicity of predominant human root caries flora, J Dent, 2004, 32, 667-678. (Pubitemid 39346062)
40. Turner B D, Philip B and Stipp S L S, Fluoride Removal by Calcite: Evidencefor Fluorite precipitation and surface adsorption, Environ SciTechnol, 2005, 39 (24), 9561-9568. (Pubitemid 41832131)
41. Munagapati V S, Yarramuthi V, Nadavala S K, Alla S R and Abburi K, Biosorptionof Cu (II), Cd (II) and Pb (II) by Acacia leucocephala bark powder: kinetics, equilibrium and thermodynamics, ChemEng J, 2010, 157 (2-3), 357-365.
42. Stipp S L S, Toward a conceptual model of the calcite surface: Hydration, hydrolysis, and surface potential, GeochimCosmochimActa, 1999, 63, 3121-3131. (Pubitemid 30106844)
43. Fenter P, Geissbuhler P, DiMas E, Srajer G, Sorenson L B and Sturchio N C, Surfacespeciation of calcite observed in situ by high-resolution x-ray reflectivity, GeochimCosmochimActa, 2006, 4 (a), 1221-1228.
44. Sujana M G, Thakur R S and Rao S B, Removal of fluoride from aqueous solutionusing alum sludge, J Colloid InterfSci, 1998, 206, 94-101. (Pubitemid 28449855)
45. Chowdhury S, Misha R, Saha P and Kushwaha P, Adsorption thermodynamics, kinetics and isosteric heat of adsorption of malachite green onto chemically modifiedrice husk, Desalination, 2011, 265 (1-3), 159-168.
46. Miretzky P, Munoz C and Carrillo-Chavez A, Fluoride removal from aqueoussolution by Ca-pretreated macrophyte biomass, Environ Chem, 2008, 5, 68-72. (Pubitemid 351301110)
47. Fan X, Parker D J and Smith M D, Adsorption kinetics of fluoride on low costMaterials, Water Res, 2003, 37, 4929-4937. (Pubitemid 37353029)
48. Nezil I E, Achor S, Djidel M. Attalah S, Presence and origin of fluoride in thecomplex Terminal water of Ouragla Basin (Northern Sahara of Algeria), American JApplSci, 2009, 6 (5) 876-881.
49. Tembhurkar A R and Dongre S, Studies on fluoride removal using adsorptionprocess, J Environ SciEng, 2006, 48 (3), 151-156.
50. Saha P, Chowdhury S, Gupta S, Kumar I, Insight into adsorption equilibrium, kinetics and thermodynamics of Malachite Green onto clayey soil of Indian Origin, ChemEng J, 2010, 165 (3), 874-882.
51. Murugan M, and Subremanian E, Studies on defluoridation of water by tamarindseed, an unconventional biosorbent, J Water Health, 2006, 4, 453-461. (Pubitemid 44895942)
52. Sujana M G, Padhan H K, Anand S, Studies on sorption of some geomaterials forfluoride removal form aqueous solutions, J Hazard Mater, 2009, 161, 120-125.
53. Bhatti H N, Nasir A W and Hanif M A, Efficacy of Daucuscarota L. waste biomassfor the removal of chromium from aqueous solutions, Desalination, 2010, 253, 78-87.
54. Dogan M, Alkan M, Türkylmaz A and Özdemir Y, Kinetics and mechanism ofremoval of methylene blue by adsorption onto perlite, J Hazard Mater, 2004, 109 (B), 141-148. (Pubitemid 38738994)
55. Pandey K K Prasad G and Singh V N, Removal of Cr (VI) from aqueous solution byadsorption on fly ash wollastonite, J ChemTechnolBiotechnol, 1984, 34 (A), 367-374. (Pubitemid 14024670)
56. Ajmal M, Mohammad A, Yousuf R and Ahmad A, Adsorption behaviour ofcadmium, zinc, nickel and lead from aqueous solution by Magnifier indica seedshell, Ind J Environ Health, 1998, 40 (1), 15-26. (Pubitemid 128439483)
57. Rao M V B, Rao M S , Prasanthi V, Ravi M, Characterization and defluoridationstudies of activated Dolichos lab lab carbon, Rasayan J Chem, 2009, 2 (2), 525-530.
58. Kishorea M and Hanumantharao Y, Validation of defluoridation method with "acaciaarabica"plant byproduct through 2nd factorial experimentation-statistical approach, Inter J Appl Bio PharmaTechnol, 2010, 1 (3), 1230-1235
59. Jamode A V, Sapkal V S, Jamode V S, Defluoridation of water using inexpensiveadsorbents, J Indian InstSci, 2004, 84, 163-171.