References

  1. M.T. Yagub, T.K. Sen, S. Afroze, H.M. Ang, Dye and its removal from aqueous solution by adsorption: a review, Adv. Colloid Interface Sci., 209 (2014) 172–184.
  2. M. Yusuf, F.M. Elfghi, S.A. Zaidi, E.C. Abdullah, M.A. Khan, Applications of graphene and its derivatives as an adsorbent for heavy metal and dye removal: a systematic and comprehensive overview, RSC Adv., 5 (2015) 50392–50420.
  3. S. Hosseini, M.A. Khan, M.R. Malekbala, W. Cheah, T.S.Y. Choong, Carbon coated monolith, a mesoporous material for the removal of methyl orange from aqueous phase: adsorption and desorption studies, Chem. Eng. J., 171 (2011) 1124–1131.
  4. J.A. Wilson, I.D. Pulford, S. Thomas, Sorption of Cu and Zn by bone charcoal, Environ. Geochem. Health, 25 (2003) 51–56.
  5. L. Pivarčiová, O. Rosskopfová, M. Galamboš, P. Rajec, Adsorption behavior of Zn(II) ions on synthetic hydroxyapatite, Desal. Wat. Treat., 55 (2015) 1825–1831.
  6. N. Barka, K. Ouzaouit, M. Abdennouri, M. El Makhfouk, S. Qourzal, A. Assabbane, Y. Ait-Ichou, A. Nounah, Kinetics and equilibrium of cadmium removal from aqueous solutions by sorption onto synthesized hydroxyapatite, Desal. Wat. Treat., 43 (2012) 8–16.
  7. K. Mahmud, Md. A. Islam, A. Mitsionis, T. Albanis, T. Vaimakis, Adsorption of direct yellow 27 from water by poorly crystalline hydroxyapatite prepared via precipitation method, Desal. Wat. Treat., 41 (2012) 170–178.
  8. W.G. Kim, M.N. Kim, S.M. Lee, J.K. Yang, Removal of Cu(II) with hydroxyapatite (animal bone) as an inorganic ion exchanger, Desal. Wat. Treat., 4 (2009) 269–273.
  9. D. Uzunoğlu, A. Özer, Adsorption of Acid Blue 121 dye on fish (Dicentrarchus labrax) scales, the extracted from fish scales and commercial hydroxyapatite: equilibrium, kinetic, thermodynamic, and characterization studies, Desal. Wat. Treat., 57 (2016) 14109–14131.
  10. M.A. Al-Ruwaili, O.M. Khalil, S.A. Selim, Viral and bacterial infections associated with camel (Camelus dromedarius) calf diarrhea in North Province, Saudi Arabia, Saudi J. Biol. Sci., 19 (2012) 35–41.
  11. E.A.M. Hamam, Effect of Roughages on Growth Rate and Feed Conversion in Young Camels, MSc Thesis, King Saud University, Riyadh, Saudi Arabia, 1993.
  12. B. Samiey, A.R. Toosi, Kinetics study of malachite green fading in the presence of TX 100, DTAB and SDS, Bull. Korean Chem. Soc., 30 (2009) 2051–2056.
  13. S. Shimabayashi, H. Tanaka, M. Nakagaki, Effect of added salt on the adsorption of dodecyl sulfate ion and concurrent release of phosphate and calcium ions at the surface of hydroxyapatite, Chem. Pharm. Bull., 35 (1987) 2171–2176.
  14. X. Pan, J. Wang, D. Zhang, Sorption of cobalt to bone char: kinetics, competitive sorption and mechanism, Desalination, 249 (2009) 609–614.
  15. I.D. Smičiklasa, S.K. Milonjića, P. Pfendt, S. Raičevića, The point of zero charge and sorption of cadmium (II) and strontium (II) ions on synthetic hydroxyapatite, Sep. Purif. Technol., 18 (2000) 185–194.
  16. K.-S. Low, C.-K. Lee, B.-F, Tan, Quaternized wood as sorbent for reactive dyes, Appl. Biochem. Biotechnol., 87 (2000) 233–245.
  17. L. Zhang, H. Zhang, W. Guo, Y. Tian, Removal of malachite green and crystal violet cationic dyes from aqueous solution using activated sintering process red mud, Appl. Clay Sci., 93–94 (2014) 85–93.
  18. I. Langmuir, The adsorption of gases on plane surface of glass, mica and platinum, J. Am. Chem. Soc., 40 (1916) 1361–1403.
  19. H.M.F. Freundlich, Over the adsorption in solution, J. Phys. Chem., 57 (1906) 385–470.
  20. M.I. Tempkin, V. Pyzhev, Kinetics of ammonia synthesis on promoted iron catalyst, Acta Phys. Chim. USSR, 12 (1940) 327–356.
  21. S. Chowdhury, S. Chakraborty, P.D. Saha, Removal of crystal violet from aqueous solution by adsorption onto eggshells: equilibrium, kinetics, thermodynamics and artificial neural network modeling, Waste Biomass Valori., 4 (2013) 655–664.
  22. K. Porkodi, K.V. Kumar, Equilibrium, kinetics and mechanism modeling and simulation of basic and acid dyes sorption onto jute fiber carbon: eosin yellow, malachite green and crystal violet single component systems, J. Hazard. Mater., 143 (2007) 311–327.
  23. V.K. Garg, R. Kumar, R. Gupta, Removal of malachite green dye from aqueous solution by adsorption using agro-industry waste: a case study of Prosopis cineraria, Dyes Pigm., 62 (2004) 1–10.
  24. S.D. Khattri, M.K. Singh, Removal of malachite green from dye wastewater using neem sawdust by adsorption, J. Hazard. Mater., 167 (2009) 1089–1094.
  25. B.H. Hameed, M.I. El-Khaiary, Malachite green adsorption by rattan sawdust: isotherm, kinetic and mechanism modeling, J. Hazard. Mater., 159 (2008) 574–579.
  26. S. Chakraborty, S. Chowdhury, P.D. Saha, Adsorption of Crystal Violet from aqueous solution onto NaOH-modified rice husk, Carbohydr. Polym., 86 (2011) 1533–1541.
  27. R. Ahmad, R. Kumar, Adsorption studies of hazardous malachite green onto treated ginger waste, J. Environ. Manage., 91 (2010) 1032–1038.
  28. A. Saeed, M. Sharif, M. Iqbal, Application potential of grapefruit peel as dye sorbent: kinetics, equilibrium and mechanism of crystal violet adsorption, J. Hazard. Mater., 179 (2010) 564–572.
  29. S. Lagergren, About the theory of so-called adsorption of soluble substances, K. Sven. Vetenskapsakad. Handl., 24 (1898) 1–39.
  30. Y.S. Ho, G. McKay, The kinetics of sorption of divalent metal ions onto sphagnum moss peat, Water Res., 34 (2000) 735–742.
  31. M.A. Khan, M. Ngabura, T.S.Y. Choong, H. Masood, L.A. Chuah, Biosorption and desorption of nickel on oil cake: batch and column studies, Bioresour. Technol., 103 (2012) 35–42.
  32. R.A.K. Rao, M.A. Khan, Removal and recovery of Cu(II), Cd(II) and Pb(II) ions from single and multimetal systems by batch and column operation on neem oil cake (NOC), Sep. Purif. Technol., 57 (2007) 394–402.
  33. M.C. Brum, J.F. Oliveira, Removal of humic acid from water by precipitate flotation using cationic surfactants, Mineral Eng., 20 (2007) 945–949.
  34. A.R. Nesic, S.J. Velickovic, D.G. Antonovic, Novel composite films based on amidated pectin for cationic dye adsorption, Colloids Surf., B, 116 (2014) 620–626.
  35. G. Ciobanu, M. Harja, M. Diaconu, C. Cimpeanu, R. Teodorescu, D. Bucur, Crystal violet dye removal from aqueous solution by nanohydroxyapatite, J. Food Agric. Environ., 12 (2014) 499–502.
  36. I. Smičiklas, S. Dimović, I. Plećaš, M. Mitrić, Removal of Co2+ from aqueous solutions by hydroxyapatite, Water Res., 40 (2006) 2267–2274.
  37. S.K. Verma, M.K. Deb, Direct and rapid determination of sulphate in environmental samples with diffuse reflectance Fourier transform infrared spectroscopy using KBr substrate, Talanta, 71 (2007) 1546–1552.
  38. S.N. Cesaro, C. Lemorini, The function of prehistoric lithic tools: a combined study of use-wear analysis and FTIR microspectroscopy, Spectrochim. Acta, Part A, 86 (2012) 299–304.
  39. Y.-N. Chen, L.-Y Chai, Y.-D. Shu, Study of arsenic(V) adsorption on bone char from aqueous solution, J. Hazard. Mater., 160 (2008) 168–172.
  40. S. Shimabayashi, N. Hashimoto, H. Kawamura, T. Uno, Formation of Hydroxyapatite in the Presence of Phosphorylated and Sulfated Polymer in an Aqueous Phase, A. Zahid, Ed., Mineral Scale Formation and Inhibition, Plenum Press, New York, 1995.