references 1. aber s, amani-ghadim a.r, mirzajani v. 2009
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REFERENCES
1. Aber S, Amani-Ghadim A.R, Mirzajani V. 2009. Removal of Cr (VI) from polluted
solutions by electrocoagulation: Modeling of experimental results using artificial
neural network, Journal of Hazardous Materials, 171, 484-490.
2. Abhishek K, Raj K.R, AroraJ.K, Srivastava S. 2011. Artificial neural network
modeling on predictions of biosorption efficiency of Zea mays for the removal of
Cr(III) & Cr(VI) from waste water, International journal of mathematics trends &
technology, 23-29..
3. Abhishek K, Raj K.R, Arora J.K, Srivastava M.M, Srivastava S. 2010. Artificial
neural network modeling for sorption of Cadmium from aqueous solution by shelled
moringa leeifera seed powder as an agricultural waste, Journal of Water Resource and
Protection, 2, 339-344.
4. Acharya J, Sahu J.N, Sahoo B.K, Mohanty C.R, and MeiKap B.C. 2009. Removal of
Chromium (VI) from waste water by activated carbon developed from Tamarind
wood with zinc chloride, Chemical Engineering Journal, 150, 25-39.
5. Ahmet Sarı and Mustafa Tuzen. 2008. Biosorption of total chromium from aqueous
solution by red algae (Ceramium virgatum): Equilibrium, kinetic and thermodynamic
studies, Journal of Hazardous Materials, 160, 349–355.
6. Alam, M.Z, Muyibi, S.A, Toramae, J. 2007. Statistical optimization of adsorption
processes for removal of 2,4-dichlorophenol by activated carbon derived from oil
palm empty fruit bunches, Journal of Environmental Sciences, 19, 674-677.
7. AL-Othman Z.A, Ali R and Mu.Nuashad. 2012. Hexavalent chromium removal from
aqueous solution by activated carbon prepared from peanut shell: Adsorption kinetics,
equilibrium and thermodynamic studies, Chemical Engineering Journal, 184, 238-
247.
227
8. Aksu Z and Balibek E. 2007. Chromium (VI) biosorption by dried Rhizopus arrhizus:
Effect of salt (NaCl) concentration on equilibrium and kinetic parameters, Journal of
Hazardous Materials, 145, 210–220.
9. Aksu Z, Goness F. 2006. Binary biosorption of phenol and chromium (VI) onto
immobilized activated sludge in a packed bed: Prediction of kinetic parameters and
breakthrough curves, Separation and Purification Technology, 49, 205-216
10. Aksu Zumriye, Ertugrul Sevgi and Donmez Gonul. 2009. Single and binary
chromium (VI) and Remazol Black B biosorption properties of Phormidium sp.,
Journal of Hazardous Materials, 168, 310–318.
11. Aksu Zumriye, Unsal Ackel and Kutsal Tulin. 1997. Application of Multi component
Adsorption Isotherms to Simultaneous Biosorption of Iron (III) and Chromium (VI)
on C vulgaris, J. Chem. Tech. Biotechnol. 70, 368- 378.
12. Albadarin A.B, Muhtaseb A.H.A1, Iaqtah N.A.A1, Walker G.M, Allen S.J and
Ahmad M.N.M. 2011. Biosorption of toxic chromium from aqueous phase by lignin:
mechanism, effect of other metal ions and salts, Chemical Engineering Journal, 169,
20-30.
13. Albadarin A.B, Mangawandi Ch, Muhtaseb A.H.A1, Walker G.M, Allen S.J and
Ahmad M.N.M. 2012. Kinetics and thermodynamics of chromium ions adsorption
onto low cost dolomite adsorbents, Chemical Engineering Journal, 179, 193-202.
14. Albino Kumar P, Manabendra Ray and Saswati Chakraborty. 2007, Hexavalent
chromium removal from wastewater using aniline formaldehyde condensate coated
silica gel, Journal of Hazardous Materials, 143, 24–32.
15. Alves M. M, Gonzaa lez C. G, Guedes de Carvalho R, Castanheira J. M, Sol Pereira
M. C. and Vasconcelos L. A. T. 1993. Chromium removal in tannery wastewaters
polishing by Pinus sylverstris bark. Water Research, 27(8), 1333-1338.
228
16. Anand Kumar J and Mandal B. 2009. Removal of Cr (VI) from aqueous solution
using Bael fruit (Aegle marmelos Correa) shell as an adsorbent, Journal of Hazardous
Materials, 168, 633-640.
17. Anandkumar J, Mandal B. 2011. Adsorption of chromium (VI) and Rhodamine B by
surface modified tannery waste: Kinetics, mechanistic and thermodynamic studies,
Journal of Hazardous Materials, 186, 1088-1096.
18. Aoyama M. and Tsuda M. 2001. Removal of Cr (VI) from aqueous solutions by larch
bark, Wood Science and Technology, 35 (5), 425-434.
19. Arica Yakup and Bayramoglu Gulay. 2005. Cr (VI) biosorption from aqueous
solutions using free and immobilized biomass of Lentinus sajor-caju: preparation and
kinetic characterization, Journal of Colloids and Surfaces A: Physicochem. Eng.
Aspects 253, 203–211.
20. Arora J.K, Srivastava S. 2010. Neural network modeling & simulation of sorption of
cadmium (II) ions from waste water using agricultural waste, Proceedings of the
world congress on engineering, 3, 2010.
21. Arulkumar M, Thirumalai K, Sathishkumar P and Palvannan T. 2012. Rapid removal
of chromium from aqueous solution using novel prawn shell activated carbon,
Chemical Engineering Journal, 185-186, 178-186.
22. Atac Uzel. 2009. Metal biosorption capacity of the organic solvent tolerant
Pseudomonas fluorescens TEM08, Ege University, Faculty of Sciences, Department
of Biology, Basic and Industrial Microbiology Section, 35100 Bornova Izmir, Turkey
Bioresource Technology, 100(2), 542-5488.
23. Atieh Muataz. 2011, Removal of Chromium (VI) from polluted water using carbon
nanotubes supported with activated carbon, Jounal of Procedia Environmental
Sciences 4, 281–293
229
24. Aydin Y.A and Aksoy N.D. 2009. Adsorption of chromium on Chitosan:
Optimization, Kinetics and thermodynamics, Chemical Engineering Journal, 151,
188-194.
25. Bansal M, Singh D, and Garg V.K. 2009. A comparative study for the removal of
hexavalent chromium from aqueous solutions using agriculture waste carbon, Journal
of Hazardous Materials, 171, 83-92.
26. Bansal M, Garg U, Singh D, and Garg V.K. 2009. Removal of Cr (VI) from aqueous
solutions using pre-consumer processing agricultural waste: A case study of rice husk,
Journal of Hazardous Materials., 162, 312-320
27. Basketter David; Horev L; Slodovnik D, Merimes S, Trattner A, Ingber A. 2000.
Investigation of the threshold for all allergic reactivity to chromium, contact
dermatitis, 44, 2, 70-74
28. Baral Saroj S, Surendra N. Dasa and Pradip Rath. 2006. Hexavalent chromium
removal from aqueous solution by adsorption on treated sawdust, Published in
biochemical engineering journal, 31(3), 216-222.
29. Barceloux Donald G. 1999. Chromium, clinical toxicology, 37, 2, 173-194.
30. Barkat M, Nibou D, Chegrouche, S, and Mellah A. 2009. Kinetics and
thermodynamics studies of chromium (VI) ions adsorption on to activated carbon
from aqueous solutions, Chemical engineering and Processing, 48, 38-47.
31. Baral. Saroj S, Surendra N. Das, Pradip Rath and Gautam R. Chaudhury. 2006.
Chromium (VI) removal by calcined bauxite. Journal of chemical engineer.
32. Barrera, H, Urena-Nunez F, Bilyeu B and Barrera-Diaz C. 2006. Removal of
chromium and toxic ions present mine drainage by Ectodermis of Opuntia, Journal of
Hazardous Materials, B136 846-853.
230
33. Bayat Belgin. 2002. Comparative study of adsorption properties of Turkish fly ashes
II. The case of Chromium (VI) and Cadmium (II), Journal of Hazardous Materials, B
95. 275-290.
34. Bezerra M.A, Santelli R.E, Oliveira E.P, Villar L.S, Escaleira L.A. 2008. Response
surface methodology (RSM) as a tool for optimization in analytical chemistry,
Talanta, 76(5), 965-977.
35. Belanche L, Valdes JJ, Comas J, Roda IR, Poch M. 2000. Prediction of the bulking
phenomenon in waste water treatment plants, Artif Intell Eng, 14, 307-317.
36. Bhattacharya A.K, Naiya T.K, Mandal S.N and Das S.K. 2008. Adsorption, Kinetics
and equilibrium studies on removal of Cr (VI) from aqueous solution using low cost
adsorbents, Chemical Engineering Journal, 137, 529-541.
37. Bhatti M.S, Reddy A.S, Thukral A.K. 2009. Electrocoagulation removal of Cr (VI)
from simulated wastewater using response surface methodology, Journal of
Hazardous Materials., 172, 839-846.
38. Bingol D, Hercan M, Elevil S, Kilic E. 2012. Comparison of the results of response
surface methodology & Artificial neural network for the biosorption of lead using
black cumin, Bioresource Technolnology., 112, 111-115.
39. Box G.E.P, Behnken D.W, 1960. Some new three level designs for the study of
quantitative variables, Technometrics, 2, 455-475.
40. Brady and Duncan J.R. 1993. Bioaccumulation of cations by Sacchromyces cerevisae
in Biohydrometallurgical Technologies. Proceedings of the international
biohydrometallurgical symposium, Torma, A.E., Apel, M.L. and Brierley, C.L., (eds),
The Minerals, Metals and Materials Society, warrendale, PA, 35-44.
41. Brierley C.L. and Brierley J.A. 1993. Immobilization of biomass for industrial
application of biosorption in Biohydrometallurgical Technologies. Proceedings of the
231
international biohydrometallurgical symposium, Torma, A.E., Apel, M.L. and
Brierley, C.L., (eds), The Minerals, Metals and Materials Society, warrendale, PA,
35-44.
42. Brown B and Absanullah M. 1971. Effects of heavy metals on mortality and growth,
Mar Pollut Bull, 2; 182–187.
43. Bryant P. S, Petersen J. N, Lee J. M. and Brouns T. M. 1992. Sorption of heavy
metals by untreated red sawdust. Appl. Biochem. Biotechnol. 34-35, 777-788.
44. Candela Manuel Petrez, Jose M, Martin-Martinez and Rosa Torregrosa-maca. 1995.
Chromium (VI) removal with activated carbons, Journal of Water research. Vol. 29,
no. 9, 2174—2180.
45. Carriere P, Mohghegh S, Gaskari R, Reed B, Jamil M. 1996. Performance of a virtual
adsorber system for the removal of lead, Separation science & Technology, 31, 965-
985.
46. Chabaane L, Tahiri S, Albizane A, Krati M.E.I, Cervera M.L and M.de la guardia.
2011. Immobilization of vegetable tannins on tannery chrome shavings and their use
for the removal of hexavalent chromium from contaminated water, Chemical
Engineering Journal, 174, 310-317.
47. Change J.S, Huang J.C. 1998. Selective adsorption/Recovery of lead, Copper&
cadmium with multiple fixed beds containing immobilized bacterial biomass,
Biotechnology progress, 14, 735-741.
48. Choma J, Burakiewicz-Mortka W, Jaroniec M, Li Z and Klinik. 1999. Monitoring
changes in surface and structural properties of porous carbons modified by different
oxidizing agents, Journal of Colloid and Interface Scince, 214(2), 438-446.
49. Climino G, Passerini A and Toscano G. 2000. Removal of toxic cations and Cr (VI)
from aqueous solution by Hezalnut shell, Water Research, 34, 2955-2962.
232
50. Danijela D Maksin, Aleksandra B Nastasovic, Aleksandra D. Milutinovic-Nikolic,
Ljiljana T. Suruci‘c‘, Zvjezdana P. Sandic, Radmila V. Hercigonja, Antonije E. Onjia.
2012. Equilibrium and kinetics study on hexavalent chromium adsorption onto
diethylene triamine grafted glycidyl methacrylate based copolymers, Journal of
Hazardous Materials, 209-210, 99-110.
51. Dayan A.D, Paine, A.J. 2001. Mechanisms of chromium toxicity, carcinogenicity and
allergenicity; Review of the literature from 1985 to 2000, Human and Experimental
Toxicology, 20, 9, 439-451.
52. Das D.D, Mahapatra R, Pradhan J, Das S.N, and Thakur R.S. 2009. Removal of Cr
(VI) from Aqueous Solution Using Activated Cow Dung, Carbon, Council of
Scientific and Industrial Research, 232(2), 235-240.
53. Demiral H, Demiral I, Tumsek F and Karabacakoglu B. 2008. Adsorption of
Chromium (VI) from aqueous solution by activated carbon from Olive bagasse and
applicability of different adsorption models, Chemical Engineering Journal, 144, 188-
196.
54. Demirbas E, Kobya M, Konukman A.E.S. 2008. Error analysis of equilibrium studies
for the almond shell activated carbon adsorption of Cr (VI) from aqueous solution,
Journal of Hazardous Materials, 154, 787-794.
55. Diana Q.L. Oliveira, Mara‘isa Gonc‘alves, Luiz C.A.Oliveira, Luiz R.G. 2008.
Removal of As (V) and Cr (VI) from aqueous solutions using solid waste from leather
industry, Journal of Hazardous Materials, 151, 280-284.
56. Deepa K.K, Sathishkumar M, Binupriya A, Murugesan G.S, Swaminathan K and Yun
S.E. 2006. Sorption of Cr (VI) from dilute solutions and waste water by live and
pretreated biomass of Aspergillus flavus, Chemosphere, 62, 833-840.
233
57. Deepa Prabhu Mungasavalli, Thiruvankatachari Viraraghavari and Yee-Chung Jin.
2007. Biosorption of chromium from aqueous solutions by pretreated Aspergillus
nigr: Batch and column studies, Colloids and Surfaces A: Physicochemical and
Engineering Aspects, Volume 301, Issues 1-3, 5 July 2007, 214-223.
58. Deng Liping, Zhang Yang, Qin Jie, Wang Xinting and Zhu Xiaobin. 2009.
Biosorption of Cr (VI) from aqueous solutions by non living green algae Cladophora
Albida. Minerals Engineering 22, 372–377.
59. Donmez Gonul and Aksu Z. 2002. Removal of chromium (VI) from saline waste
waters by Dunaliella species. Process Biochemistry, 38, 751-762.
60. Donmez C, Aksu Z, Ozturk A and Kutsal T. 1999. A comparative study on heavy
metal biosorption characteristics of some algae Process Biochemistry, Volume. 34,
Issue: 9, 885 – 892.
61. Dubey S.P and Gopal K. 2007. Adsorption of chromium (VI) on low cost adsorbents
derived from agricultural waste material: A comparative study, Journal of Hazardous
Materials, 145, 465-470.
62. Eagundes-Klen M.R, Ferri P, Martins T.D, Tavares C.R.G, Silva E.A. 2007.
Equilibrium study of the binary mixtures of cadmium-zinc ions biosorption by the
Sargassum filipendula species using adsorption isothetms models and neural network,
Biochemical Engineering Journal, 34, 136-146.
63. Eaton A.D, Clesceri L. S. and Greenberg A. E. 1995. Standard Methods for the
Examination of Water and Wastewater 19th ed., American Public Health Association
Washington, DC, pp 34-39.
64. Emine Malkoc, Yasar Nuhoglu, Murat Dundar. 2006. Adsorption of chromium (VI)
on pomace- An olive oil industry waste: Batch and column studies, Journal of
Hazardous Materials, B138, 142-151.
234
65. Elangovan Ligy Philip. R and Chandraraj K. 2008. Biosorption of hexavalent and
trivalent chromium by palm flower (Borassus aethiopum), Chemical Engineering
Journal, 141, 99–111.
66. Elangovan Ligy Philip R, Chandraraj, K. 2008. Biosorption of chromium species by
aquatic weeds: Kinetics and mechanism studies, Journal of Hazardous Materials,
152, 100-112.
67. Erdem N Karapinarb and Donat. R. 2004. The removal of heavy metal cations by
natural zeolites, Journal of Colloid and Interface Science, 280 (2), 309-314.
68. Eroglu H, Aktani M, Akkaya G. 2011. Artificial neural network modeling and
Analysis of radioactive gallium-67 adsorption from aqueous solution with waste
Acorns of Quercus ithaburensis, J.Chem.Eng.Data, 56, 1910-1917.
69. Fadali O.A, Magdy Y.H, Daifullah A.A, Ebrahiem E.E and Nassar M.M. 2004.
Removal of chromium from tannery effluents by adsorption, Journal of
Environmental Science Health, Part A, 39 (2), 465- 472.
70. Figueiredo Hugo, Bruna Silva, Cristina Quintelas, Isabel C Neves and Teresa
Tavares. 2008. Zeolites as supports for the biorecovery of hexavalent and trivalent
chromium, Microporous and Mesoporous Materials, Volume 116, Issues 1-3,
December 2008, 555-560.
71. Florence T.M. 1989. Trace element speciation in biological systems. In: Batley,
G.E.ed. Trace element speciation; Analytical methods and problems. Boca Raton,
Florida; CRC press, 319-338.
72. Freitas, O., Matos, C.D., Boaventura, R. 2009. Optimization of Cu (II) biosorption
onto Ascophyllum nodosumby factorial design methodology, Journal of Hazardous
Materials, 167, 449-454.
73. Freundlich H. Colloid and capillary chemistry. E.P.Dutton and Co., New York, 1928.
235
74. Gadd Geoffrey M. 1992. Heavy metal accumulation by bacteria and other
microorganisms. Experientia, 46, 834-840.
75. Gadd G.M. 1992. Metal and microorganisms; A problem of definition, FEMS
Microbiology letters, 100, 197-204.
76. Gamze Turan N, Mesci B, Ozgonenel O. 2011. Artificial neural network (ANN)
approach for modeling of Zn (II) adsorption from leachate using a new biosorbent,
Chemical Engineering Journal., 173, 98-105.
77. Gasser M.S, Morad G.H.A and Aly H.F. 2007. Batch kinetics and thermodynamics of
chromium ions removal from waste solutions using synthetic adsorbents, Journal of
Hazardous Materials, 142, 118-129.
78. Geyikci F, Kilic E, Coruh S, Elevli S. 2012. Modeling of lead adsorption from
industrial sludge leachate on red mud by using Response surface methodology &
Artificial neural network, Chemical Engineering Journal, 183, 53-59.
79. Goel J, Kadirvelu K, Rajagopal C, Garg, V.K. 2005. Removal of lead (II) from
aqueous solution by adsorption onto carbon Aerogel using Response surface
methodology approach, Ind. Eng. Chem. Res., 44, 1987-1994.
80. Goel J, Kadirvelu K, Rajagopal C, Garg V.K. 2006. Cadmium (II) uptake from
aqueous solution by adsorption onto carbon Aerogel using Response surface
methodology approach, Ind. Eng. Chem. Res., 45, 6531-6537.
81. Gokhale S.V, Jyoti K.K and Lele S.S. 2008. Kinetic, equilibrium modeling of
chromium (VI) biosorption on fresh and spent Spirulina platensis/Chlorella vulgaris
biomass, Journal of Bioresource Technology, 99, 3600–3608.
82. Gonul Donmez and Zumriye Aksu. 2002. Removal of chromium (VI) from saline
wastewaters by Dunaliella species, Journal of Process Biochemistry 38, 751-762.
236
83. Granados-Correa F, Jimenez-Becerril J. 2009. Chromium (VI) adsorption on
Boehmite, Journal of Hazardous Materials, 162, 1178-1184.
84. Gustavo Lopez-Tellez, Carlos E Basona-Diaz, Patricia Balderas-Hernandez, Gabriela
Roa-Morales, Bryan Bilyeu. 2011. Removal of hexavalent chromium in aquatic
solutions by iron nanoparticles embedded in orange peel pith, Chemical Engineering
Journal, 173, 480-485.
85. Gupta. V. K and Rastogi A. 2008. Sorption and desorption studies of chromium (VI)
from nonviable cyanobacterium Nostoc muscorum biomass, Journal of Hazardous
Materials, 154, 347–354.
86. Gupta V. K and Rastogi A. 2009. Biosorption of hexavalent chromium by raw and
acid-treated green alga Oedogonium hatei from aqueous solutions, Journal of
Hazardous Materials, 163, 396–402.
87. Gupta V. K, Shrivastava A. K. and Neeraj Jain. 2001. Biosorption of Chromium (VI)
From Aqueous solutions by green algae spirogyra species. Water Research. 35 (17),
4079-408.
88. Gupta Vinod K, Dinesh Mohan, Saurabh Sharma and Park K.T. 1999. Removal of
chromium(VI) from electroplating industry wastewater using bagasse fly ash-a sugar
industry waste material, The Environmentalist , Volume 19, Number 2, 129-136.
89. Guven Ozdemir, Nur Ceyhan, Tansel Ozturk, Feyza Akirmak and Tamer Cosar. 2004.
Biosorption of chromium (VI), cadmium (II) and copper (II) by Pantoea sp. TEM18,
Chemical Engineering Journal 102, 249–253.
90. Hall K. E, Eagleton L .C, Acrivos A and Vermeulen T. 1996. Pore and solid diffusion
kinetics in fixed bed adsorption under constant pattern conditions, Ind. Eng. Chem.
Fund. 5, 212–223
237
91. Hamdaoui O and Naffrechoux E. 2007. Modeling of adsorption isotherms of phenol
and chlorophenols onto granular activated carbon. Part I. Two-parameter models and
equations allowing determination of thermodynamic parameters, Journal of
Hazardous Materials, 147, 381–394.
92. Hasan S.H, Singh K.K, Prakash O, Talat M, and Hoc Y.S. 2008. Removal of Cr (VI)
from aqueous solutions using agricultural waste ‗maize bran, Journal of Hazardous
Materials, 152, 356–365.
93. Hasnain Isa Mohamed, Naimah Ibrahim, Hamidi Abdul Aziz, Mohd. Nordin Adlan,
Nor Habsah Md. Sabiani, Ali Akbar Lorestani Zinatizadeh and Shamsul Rahman
Mohamed Kutty. 2008. Removal of chromium (VI) from aqueous solution using
treated oil palm fibre, Journal of Hazardous Materials 152, 662–668.
94. Ho Y.S. and Mckay G. 1999. Pseudo-second order model for sorption processes.
Process Biochemistry, July 1999, vol. 34, no. 5, 451-465.
95. Hong Zhang, Yi Tang, Dongqing Cai, Xianan Liu, Xiangqin Wang, Qing Huang and
Zengliang Yu. 2010. Hexavalent chromium removal from aqueous solution by algal
bloom residue derived activated carbon: Equilibrium and kinetic studies, Journal of
Hazardous Materials, 181, 801–808.
96. Hsu N.H, Wang S.L, Liao Y.H, Huang S.T, Tzou Y.M, Huang Y.M. 2009. Removal
of hexavalent chromium from acidic aqueous solutions using rice straw derived
carbon, Journal of hazardous materials, 171, 1066-1070.
97. Huang C.P, and Bowers A.R. 1985. The development of an activated carbon process
for the treatment of chromium (VI) containing plating wastewater. In: 2nd Conference
on Advanced Pollution Control for the metal finishing industries. pp: 114-122
238
98. Jain M, Garg V.K, Kadirvelu K. 2011. Investigation of Cr (VI) adsorption on to
chemically treated Helianthus annus: Optimization using response surface
methodology, Bioresource Technology., 102, 600-605.
99. Jefferies D.J; Firestone P. 1984. Chemical analysis of some coarse fish from a Suffolk
river carried out as part of the preparation for the first release of captive-bred otters, J
Otter Trust. 1984; 1; 17–22.
100. Jingyi Qui, Ziyue Wang, Huibo Li, Ling Xu, Jing Peng, Maolin Zhai, Chao Yang,
Jiuqiang Li, Genshuan Wei. 2009. Adsorption of Cr (VI) using silica-based adsorbent
prepared by radiation –induced grafting, Journal of Hazardous Materials, 166, 270-
276.
101. Julio C. P. Vaghetti, Eder C Lima, Royer B, Brazil J.L, M da Cunha M, Simon N. M,
Cardoso N. F, and Norena C. P. Z. 2008. Application of Brazil pine fruit coat as
biosorbent to remove of Cr (VI) from aqueous solution-Kinetics and Equilibrium
studies, Biochemical Engineering Journal, 42, 67-76.
102. Khan S.A, Riaz-ur-Rehman A and Khan M.A. 1995. Adsorption of chromium (III),
chromium (VI) and silver (I) on bentonite. Waste Management. 15(4), 271-282.
103. Khajeh M. 2009. Application of Box-Behnken design in the optimization of magnetic
nanoparticle procedure for zinc determination in analytical samples by inductively
coupled plasma optical emission spectrometry, Journal of Hazardous Materials, 172,
385-389
104. Khattar J.I.S, Shailza. 2009. Optimization of Cd (II) removal by Cynobacterium
Synechocystis pavelekii using the response surface methodology, Process
Biochemistry, 44, 118-121.
239
105. Khezami Lotfi and Capart Richard. 2005. Removal of chromium (VI) from aqueous
solution by activated carbons: Kinetic and equilibrium studies, Journal of Hazardous
Materials B123, 223–231.
106. Kiran B, Kaushik A, Kaushik C.P. 2007. Response surface methodology approach for
optimizing removal of Cr (VI) from aqueous solution using immobilized
Cynobacterium, Chemical Engineering Journal, 126, 147-153.
107. Kobya M. 2004. Removal of Cr (VI) from aqueous solutions by adsorption onto
hazelnut shell activated carbon: Kinetic and equilibrium studies, Bioresource
Technology, 91, 317.
108. Kumar R, Singh R, Naresh Kumar, Bishnoi K, Bishnoi N.R. 2009. Response surface
methodology approach for optimization of biosorption process for the removal of Cr
(VI), Ni(II) and Zn(II) ions by immobilized biomass sp.Bacillus brevis, Chemical
Engineering Journal, 146, 401-407.
109. Lagergren S. 1898. Zur theone der sogenannten adsorption gelostn. Stoffe. Stcok. Ak.
Handl. Bihay, 24 (Afd. I), p. 39.
110. Lameiras Sandra, Quintelas Cristina and Tavares Teresa. 2008. Biosorption of Cr (VI)
using a bacterial biofilm supported on granular activated carbon and on zeolite,
Journal of Bioresource Technology, 99, 801–806.
111. Langmuir I. 1918. The adsorption of gases on plane surfaces of glass, mica and
platinum. Journal of the American Chemical Society, Vol. 40, 1361-1403.
112. Langard Sverre. 1990. One hundred years of chromium and cancer. A review of
Epidemiological Evidence and selected case reports, American journal of industrial
medicine, 17, 2, 189-215.
240
113. Lazaridis N.K. and Asouhidou D.D. 2003. Kinetics of sorptive removal of chromium
(VI) from aqueous solutions by calcined Mg–Al–CO3 hydrotalcite, Journal of Water
Research, 37, 2875–2882.
114. Lazaridis N.K, Bakoyannakis D.N and Deliyanni E.A. 2005. Chromium (VI) sorptive
removal from aqueous solutions by nanocrystalline akaganeite, Chemosphere, 58, 65-
73.
115. Levankumar Lakshmanraj, Ayyanar Gurusamy, Gobinath M.B and Chandramohan.
R. 2009. Studies on the biosorption of hexavalent chromium from aqueous solutions
by using boiled mucilaginous seeds of Ocimum americanum, Journal of Hazardous
Materials 169, 1141–1145.
116. Levankumar L, Muthukumaran V and Gobinath M.B. 2009. Batch adsorption &
kinetics of chromium (VI) removal from aqueous solution by acimum americanum
L.Seed pods, Journal of Hazardous Materials, 161, 709.
117. Li Q, Qian Y, Cui H, Zhang Q, Tang and Zhai J. 2011. Preparation of poly (Aniline-1,
8,-diaminonaphthalene) and its application as adsorbents for selective removal Cr
(VI) ions, Chemical Engineering Journal, 173, 715-721.
118. Liu S.S, Chen Y.Z, Zhang L.D, Hua G.M, Xu W, Li N and Zhang Y. 2011. Enhanced
removal of trace Cr (VI) ions from aqueous solution by titanium oxide-Ag composite
adsorbents, Journal of Hazardous Materials, 190, 723-728.
119. Lina Velásquez and Jenny Dussan. 2009. Biosorption and bioaccumulation of heavy
metals on dead and living biomass of Bacillus sphaericus, Journal of Hazardous
Materials, 167, 713–716.
120. Luef E, Prey T and Kubicek C.P. 1991. Biosorption of zinc by fungal micelial wastes.
Appl. Microbiol. Biotechnol, 14, 688-692.
241
121. Madaria P.R, Nagarajan M, Rajagopal Ch, Garg B.S. 2005. Removal of chromium
from aqueous solution by treatment with carbon Aerogel electrodes using Response
surface methodology, Ind. Eng. Chem. Res., 44, 6549-6559.
122. Madaria P.R, Mohan N, Rajagopal C, Garg B.S. 2004. Application of carbon aerogel
for electrolytic removal of mercury from aqueous solutions, Journal of Scientific and
Industrial Research, 63, 938-943.
123. Mahajan S.P, Pollution control in process industries, Tata McGraw-Hill publishing
Company Limited, New Delhi, 2006.
124. Maja PAS, Radmila Milacic, Kazimir Drasar, Natasa Pollak and Peter Raspor. 2004.
Uptake of chromium (III) and chromium (VI) compounds in the yeast cell structure,
Biometals, Volume 17 (1), 25-33.
125. Malkoc Emine and Nuhoglu.Yasar. 2007. Potential of tea factory waste for chromium
(VI) removal from aqueous solutions: Thermodynamic and kinetic studies, Journal of
Separation and Purification Technology 54, 291–298
126. Manju G.N, Anoop Krishnan K, Vinod V.P and Anirudhan T.S. 2002. An
investigation into the sorption of heavy metals from wastewaters by polyacrylamide-
grafted iron (III) oxide. .Journal of Hazardous Materials, 91(1-3), 221-238.
127. Marjanovic V, Lazarevic S, Jankovic-Castvan I, Potkonjak B, Janackovic D and
Petrovic R. 2011. Chromium removal from aqueous solutions using mercoptosilane
functionalized sepiolites, Chemical Engineering Journal, 166, 198-206.
128. Maria X Loukidou, Anastasios I Zouboulis, Thodoris D Karapantsios and Kostas A
Matis. 2004. Equilibrium and kinetic modeling of chromium (VI) biosorption by
Aeromonas caviae, journal of Colloids and Surfaces A: Physicochem. Eng. Aspects
242, 93–104.
242
129. Maria G da Fonseca, Michelle M de Oliveira, Luiza N.H. Arakaki. 2006. Removal of
cadmium, zinc, manganese and chromium cations from aqueous solution by a clay
mineral, Journal of Hazardous Materials, B137, 288-292.
130. Masri M.S., Reuter F.W. and Friedman M. 1974. Binding of metal cations by natural
substances. J. Appl. Polymer Sci. 18, 675-681.
131. Mattuschka B., Junghaus K. and Straube G. 1993. Biosorption of metals by waste
biomass, in Biohydrometallurgical Technologies. Proceedings of the international
biohydrometallurgical symposium, Torma, A.E., Apel, M.L. and Brierley, C.L., (eds),
The Minerals, Metals and Materials Society, Warrendale, PA
132. Mckay G, Otterburn A.G. Sweny. 1981. Surface mass transfer processes during
colour removal from effluent using silica, Water Research. 15, 327–331.
133. Mc Kay G, Bino MJ and Altamemi A.R. 1985. The adsorption of various pollutants
from aqueous solutions onto activated carbon, Water Research. 19, 491-495.
134. Ming Zhou, Yungguo Liu, Guangming Zeng, Xin Li, Weihua Xu and Ting Fan. 2007.
Kinetics and Equilibrium Studies of Cr (VI) biosorption By dead bacillus
licheniformis biomass, World journal of Microbiology and Biotechnology, Volume
23, Number 1, 43-48.
135. Mohamed Hasnain Isa, Naimah Ibrahim, Hamidi Abdul Aziz, Mohd.Nordin Adlan,
Nor Habsah Md. Sabiani, Ali Akbar Lorestani Zinatizadeh and Shamsul Rahman
Mohamed Kutty. 2008. Removal of chromium (VI) from aqueous solution using
treated oil palm fibre, Journal of Hazardous Materials, 152, 662-668.
136. Mohan D, Rajput S, Singh V.K, Steele P.H and Jr .Pittman. C.U. 2011. Modeling and
evaluation of chromium remediation from water using low cost bio-char a green
adsorbent, Journal of Hazardous Materials, 188, 310-333.
243
137. Mohanty K, Jha M, Meikap B.C and Biswas M.N. 2005. Removal of chromium (VI)
from dilute aqueous solutions by activated carbon developed from Terminalia arjuna
nuts activated with zinc chloride, Chemical Engineering Sciences, 60, 3049-3059.
138. Monika Jain, Garg V.K and Kadirvelu K. 2009. Chromium (VI) removal from
aqueous system using Helianthus annuus (sunflower) stem waste, Journal of
Hazardous Materials 162, 365–372.
139. Montgomerry D.C. (2001). Design and Analysis of Experiments, 5th
ed., John Wiley
Sons, New York, USA.
140. Moore J.W. 1990. Inorganic Contaminants of Surface Water Residuals and
Monitoring Priorities, New York: Springer-Verlag; 178–210.
141. Moussavi G and Barikbin B. 2010. Biosorption of chromium (VI) from industrial
waste water onto pistachio hull waste biomass, Chemical Engineering Journal, 162,
893-900.
142. Murugan M. and Subramanian E. 2003. Biosorbent, Cupressus Female Cone in the
Efficient Treatment of Effluent Containing Cr (VI), Journal of Scienti.fic and
Industrial Research, 62, 1071-1078.
143. Muthukumaran K and Beulah S. 2011. Removal of chromium (VI) from waste water
using chemically activated from Syzygium jambolanum nut carbon by batch studies,
Proceedia environmental sciences, 4, 266-280.
144. Muzzarelli R.A.A. 1983. Chitin and its derivatives: New trends of applied research,
Carbohydrate Polymers, 3(1), 53-75.
145. Namasivayam C and Ranganathan K. 1993. Waste Fe (III)/Cr (III) hydroxide as
adsorbent for the removal of Cr (VI) from aqueous solution and chromium plating
industry wastewater, Environmental Pollution, Volume 82, Issue 3, Pages 255-261.
244
146. Namasivayam C and Sureshkumar M.V. 2007. Removal of chromium (VI) from
water and wastewater using surfactant modified coconut coir pith as a biosorbent,
Journal of Bioresource Technology, 99, 2218–2225.
147. Natale F.D, Lancia A, Molino A and Musmarra D. 2007. Removal of chromium ions
from aqueous solutions by adsorption on activated carbon and char, Journal of
Hazardous Materials, 145, 381-390.
148. Niu Hui (Catherine) and Volesky Bohumil. 2006. Biosorption of chromate and
vanadate species with waste crab shells, Journal of Hydrometallurgy, 84, 28–36.
149. Nityanandi D, Subbhuraam C.V. 2009. Kinetics and thermodynamics of adsorption of
chromium (VI) from aqueous solution using puresorbe, Journal of Hazardous
Materials, 170, 876-882.
150. Oguz E, Ersoy M. 2010. Removal of Cu2+
from aqueous solution by adsorption in a
fixed bed column & neural network modeling, Chemical Engineering Journal., 164,
56-62.
151. Paknikar K.M, Palnitkar U.S and Puranik P.R. 1993. Biosorption of metals from
solution by mycelial waste of Pencillium chrysogenum, Proceedings of the
international biohydrometallurgical symposium.
152. Torma, A.E., Apel, M.L. and Brierley, C.L., (eds), The Minerals, Metals and
Materials Society, Warrendale, PA.
153. Panda L, Das B, Rao D.S and Mishra B.K. 2011. Application of dolochar in the
removal of cadmium and hexavalent chromium ions from aqueous solutions, Journal
of Hazardous Materials, 192, 822-831.
154. Pandey P.K, Sharma S.K and Sambi S.S. 2010. Kinetics and equilibrium study of
chromium adsorption on zeolite NaX, Int. J. Environ. Sci. Tech., 7 (2), 395-404.
245
155. Parindra Suksabye, Thiravetyan P, Nakbanpote W and Chayabutra. S. 2006.
Chromium removal from electroplating industry by coir pitch, Journal of Hazardous
Materials, xxx (2006) xxx-xxx.
156. Park D, Yun Y.S, Lee D.S, Park J.M. 2011. Optimum condition for the removal of Cr
(VI) or total Cr using dried leaves of Pinus densiflora, Desalination, 271, 309-314.
157. Park D, Yun Y.S, Yun K.H and Park J.M. 2008. How to study Cr (VI) biosorption;
use of fermentation waste for detoxifying Cr (VI) in aqueous solution, Chemical
Engineering Journal, 136(2-3), 173-179.
158. Park D, Yun Y.S, Lee D.S, Lim S.R, Park J.M. 2006. Column study on Cr (VI)-
reduction using the brown seaweed Ecklonia biomass, Journal of Hazardous
Materials, B137, 1377-1384.
159. Park D, Yun Y.S and Park J.M. 2005. Use dead fungal biomass for the detoxification
of hexavalent chromium: screening and kinetics, Process Biochemistry, 40, 2559-
2565.
160. Park YS, Chon TS, Kwak IS, Lek S. 2004. Hierarchical community classification ans
assessment of aquatic ecosystems using artificial neural networks, Science of the Total
Environment, 327,105-122.
161. Park S.J and Jang Y.S. 2002. Pore structure and surface properties of chemically
modified activated carbons for adsorption mechanism and rate of Cr (VI), Journal of
Colloid Interface Science, 249(2), 458-463.
162. Paola Catalfamo, Ileana Arrigo, Patrizia Primerano, Francesco Corigliano. 2006.
Efficiency of a zeolitized pumice waste as a low cost heavy metals adsorbent, Journal
of hazardous Materials, B134, 140-143.
246
163. Pehlivan Erol and Altun Turkan. 2008. Biosorption of chromium(VI) ion from
aqueous solutions using walnut, hazelnut and almond shell, Journal of Hazardous
Materials, Volume 155, Issues 1-2, 30 June 2008, 378-384.
164. Pillay K, Cukrowska E.M and Coville N.J. 2009. Multi walled carbon nanotubes as
adsorbents for removal of parts per billion levels of hexavalent chromium from
aqueous solution, Journal of Hazardous Materials, 166, 1067-1075.
165. Pradhan J, Das S.N and Thakur R.S. 1999. Adsorption of Hexavalent Chromium from
Aqueous Solution by Using Activated Red Mud Journal of Colloid Interface Science.
217, 137–141.
166. Prakash N, Manikandan S.A, Govindarajan L, Vijaygopal V. 2008. Prediction of
biosorption efficiency for the removal of copper (II) using artificial neural networks,
Journal of Hazardous Materials, 152, 1268-1275.
167. Pranab Kumar Ghosh. 2009. Hexavalent chromium [Cr (VI)] removal by acid
modified waste activated carbons, Journal of Hazardous Materials 171, 116–122.
168. Prakasham R.S, Merrie J.S, Sheela R, Saraswati N and Ramakrishnan S.V. 1999.
Biosorption of Chromium (VI) by free and immobilized Rhizopus arrhizus.
Environmental Pollution, 104, 421-427.
169. Preetha B and Viruthagiri
T. 2007. Batch and continuous biosorption of chromium
(VI) by Rhizopus arrhizus, Separation and Purification Technology Volume 57, Issue
1, 1 October 2007, 126-133
170. Puranik P.R. and Paknikar. K.M. 1997. Biosorption of lead and zinc from solutions
using Streptoverticillium cinnamoneum waste biomass. Journal of Biotechnology, 55:
113-124.
247
171. Potgieter J.H, Potgieter-Vermaak S.S and Kalibantonga P.D. 2006. Heavy metals
removal from solution by palygorskite clay, Minerals Engineering, Volume 19, Issue
5, April 2006, 463-470
172. Quintelas C, Fernandes B, Castro J, Figueiredo H and Tavares T. 2008. Biosorption of
Cr (VI) by three different bacterial species supported on granular activated carbon: a
comparative study. 799-809, Journal of hazardous materials 153 (1-2).
173. Rabei M Gabr, Sanaa M.F, Gad-Elrab, Romany N.N, Abskharon Sedky, Hasan H.A
and Ahmed A.M. 2009. Biosorption of hexavalent chromium using biofilm of E.coli
supported on granulated activated carbon, World journal of Microbiology and
Biotechnology, volume 25, Number 10, 1695-1703.
174. Rahmanian B, Pakizeh M, Mansoori S.A.A, Abedini R. 2011. Application of
experimental design approach and artificial neural network for the determination of
potential miscellar-enhanced ultrafiltration process, Journal of Hazardous Materials,
187, 67-74.
175. Rajasimman M, Murugaiyan K. 2010. Optimization of process variables for the
biosorption of chromium using Hypnea Valentia, Nova Biotechnologica, 10, 107-115.
176. Razmovsk Radojka and Sciban Marina. 2007. Biosorption of Cr (VI) and Cu (II) by
waste tea fungal biomass. Ecological Engineering, Volume 34, Issue 2, 2 September
2008, 79-186.
177. Randall J. M, Bermann R. L, Garrett V. and Jr Waiss A.C. 1974a. Use of bark to
remove heavy metal ionsfrom waste solutions. Forest Prod. J. 24(9), 80-84.
178. Randall J. M, Hautala E and Jr Waiss A. C. 1974b. Removal and recycling of heavy
metal ions from miningand industrial waste streams with agricultural byproducts.
Proceedings of the Fourth Mineral Waste Utilization Symposium. Chicago, IL, May
7-8, 329-334.
248
179. Rajender Kumar, Narsi R, Bishnnoi Garima and Kiran Bishnoi. 2008. Biosorption of
chromium (VI) from aqueous solution and electroplating wastewater using fungal
biomass, Chemical Engineering Journal, 135, 202–208.
180. Remacle J, Volesky B.B.Ed: Biosorption of heavy metals CRC Press: Boca Raton,
F.L. 1990, 83-92.
181. Robbins and Clarence R. Chemical and Physical Behavior of Human Hair, 3rd ed.,
New York: Springer-Verlag, 1994.
182. Rohit Raj K, Abhishek K, Arora J.K, Srivastava M.M, Srivastava S. 2010. Neural
network modeling for Ni (II) removal from aqueous system using shelled Moringa
Oleifera seed powder as an agricultural waste, Journal of Water Resource and
Protection, 2, 331-338.
183. Rosenberger R. F. 1975. In the Filamentous Fungi (eds Smith, J. E. and Berry, D. R.),
Edward Arnold, London, vol. 2, pp. 328–342.
184. Sadaoui Z, Hemidouche S and Allalou O. 2009. Removal of hexavalent chromium
from aqueous solution by miscellar compounds, Desalination, 249, 768-773.
185. Sadrzadeh M, Mohammadi T, Ivakpour J, Kasiri N. 2008. Separation of lead ions
from waste water using electrodialysis: Comparing mathematical & neural network
modeling, Chemical Engineering Journal, 144, 431-441.
186. Santiago I, Worland V. P, Cazares-Rivera E and Cadena F. 1992. Adsorption of
hexavalent chromium onto tailored zeolites. 47th Purdue Industrial Waste Conference
Proceedings, pp. 669-710. Lewis Publishers, Inc., Chelsea, MI.
187. Sen M, Dastdar M.G, Roy Choudhury P.K. 2005. Biosorption of chromium (VI) by
nonliving Fusarium Sp.Isolated from soil, Hazard Radio act Waste Management, 9,
147-151.
249
188. Shailendra Mishra and Mukesh Doble. 2008. Novel chromium tolerant
microorganisms: Isolation, characterization and their biosorption capacity, Journal of
Ecotoxicology and Environmental Safety 71, 874–879.
189. Sharma Y.C and Weng. C.H. 2007. Removal of chromium (VI) from water and
wastewater by using riverbed sand: Kinetic and equilibrium studies, Journal of
Hazardous Materials 142, 449–454.
190. Sharma D.C and Forster C.F. 1996. Removal of hexavalent chromium from aqueous
solutions by granulated carbon, Water SA, 22, 153-160.
191. Sharma Y.C, Singh B, Agrawal A and Weng C.H. 2008. Removal of chromium by
riverbed sand from water and waste water: effect of important parameters, Journal of
hazardous Materials, 151, 789-793.
192. Shetty G.R, Chellam S. 2003. Predicting membrane fouling during municipal drinking
water nanofiltration using artificial neural Networks. Journal of Membrane Sciences,
217, 69-86.
193. Singh R, Chadetrik R, Kumar R, Bishnoi K, Bhatia D, Kumar A, Bishnoi N.R, Singh
N. 2010. Biosorption optimization of lead (II), Cadmium (II) and copper (II) using
response surface methodology and applicability in isotherms and thermodynamics
modeling, Journal of Hazardous Materials, 174, 623-634.
194. Siegel S, Keller P, Galun M, Lehr, H, Siegel B and Galun B.1986. Biosorption of lead
and chromium by penicillium preparations Water Air Soil Pollut. 27, 69–75.
195. Sikaily A.E, Nemr A.E, Khaled A, Abdelwahab O. 2007. Removal of toxic chromium
from waste water using green alga Ulva Lactuca and its activated carbon, Journal of
Hazardous Materials, 148, 216-228.
196. Singh K.K, Rastogi R and Hasan S.H. 2005. Removal of Cr (VI) from waste water
using rice bran, Journal of Colloidal Interface Science, 290, 61-68.
250
197. Singh V, Kumari P, Pandey S and Narayan T. 2009. Removal of chromium (VI) using
poly (methylacrylate) functionalized guar gum, Bioresource Technology., 100, 1977-
1982.
198. Souza A.S, Dos Santos W.N.L, Ferreira S.L.C. 2005. Application of Box-Behnken
design in the optimization of an on-line pre-concentration system using knotted
reactor for cadmium determination by flame atomic absorption spectrometry,
Spectrochimica Acta part B: Atomic spectroscopy, 60, 737-742.
199. Srinath T, Verma T, and Ramteke P.W. 2002. Chromium (VI) biosorption and
bioaccumulation by chromate resistant, Chemosphere, Volume 48, Issue 4, July-427-
435.
200. Srivastava S.K, Gupta V.K and Mohan D. 1997. Removal of lead and chromium by
activated slag - ablast-furnace waste J. Environ. Eng. 123, 461–468.
201. Sudha Bai R and Emilia Ambram. T. 2003. Biosorption of Cr (VI) from aqueous
solution by Rhizopus arrhizus, Bioresource Technology, 87, 73-81
202. Suleman Qaiser. 2009. Biosorption of lead (II) and chromium (VI) on groundnut hull:
Equilibrium, kinetics and thermodynamics study, Electronic Journal of
Biotechnology, Vol.12 No.4, and Issue of October 15.
203. Suresh Gupta, Babu B.V. 2009. Utilization of waste product (Tamarind seeds) for
removal of chromium from aqueous solution: Equilibrium, Kinetics, and regeneration
studies, Journal of Environmental Management, 90, 3013-3022.
204. Tarangini K, Kumar A, Satapathy G.R, Sangal V.K. 2009. Statistical optimization of
process parameters for Cr (VI) biosorption onto mixed cultures of Pseudomonas
aeruginosa and Bacillus subtillis, Clean, 37, 319-327.
205. Temkin M.J, Pyzhev V. 1940. Recent modifications to Langmuir Isotherms, Acta
Physiochim.USSR 12, 217–222.
251
206. Tewari Neetu, Vasudevan P. and. Guha B.K. 2005. Study on Biosorption of Cr (VI)
by Mucor hiemalis. Biochemical Engineering journal, 23 (2), 185-192.
207. Thakur I.S. 2006. Environmental Bio-Technology basic concepts and applications,
I.K.International Pvt Ltd, Science, January-2006.
208. Tien C, Adsorption calculations and modeling (Butterworth-Heinemann, Boston),
1994.
209. Tobin J.M., Cooper D.G., and Neufield R.J. 1984. Uptake of metal ions by Rhizopus
arrhizus. Appl. Envir. Microbiol. 47, 821-24.
210. Tomczak E.T, Kaminski W.L. 2012. Application of artificial neural network to the
sorption equilibrium modeling of heavy metal ions on Clinoptilolite, ECOL CHEM
ENG S, 19, 227-237.
211. Tomczak E. 2011. Application of artificial neural network & Evolutionary algorithm
for description of metal ions sorption on chitosan foamed structure –Equlibrium &
dynamics of packed column, Computers & Chemical Engineering, 35, 226-235.
212. Turan N.G, Mesci B, Ozgonenel, O. 2011. Artificial neural network (ANN) approach
for modeling of Zn (II) adsorption from leachate using a new biosorbent, Chemical
Engineering Journal, 173, 98-105.
213. Ucun Handan, Kemal Bayhan Y, Kaya Yusuf, Cakici Avni and Faruk Algur O. 2002.
Biosorption of chromium (VI) from aqueous solution by cone biomass of Pinus
sylvestris, journal of Bioresource Technology 85, 155–158.
214. Varma A, Chakraborty S and Basu J.K. 2006. Adsorption study of hexavalent
Chromium using tamarind hull based adsorbents, Separation and Purification
Technology, 50, 336-341.
252
215. Viera M.G.V, Oisiovici R.M, Gimenes M.L and Silva M.G.C. 2008. Biosorption of
chromium(VI) using a Sargassum sp. packed-bed column, Bioresource Technology
99, 3094–3099
216. Vijayaraghavan K, Yun Y.S. 2008. Bacterial biosorbents and biosorption,
Biotechnology Advances, 26, 266–291.
217. Vinod K Gupta, Arshi Rastogi, Arunima Nayak. 2010. Adsorption studies on the
removal of hexavalent chromium from aqueous solution using a low cost fertilizer
industry waste material, Journal of Hazardous Materials, 342, 135-141.
218. Volesky B, and Tsezos M. 1982. Separation of uranium by Biosorption,
Biotechnol.Bioeng. 23, 583-604.
219. Volesky B (ed). 1990. Biosorption of heavy metals, CRC press, Boca Raton, FL.
220. Wang Xue Song, Li Zhi Zhong and Tao Sheng Rong. 2009. Removal of chromium
(VI) from aqueous solution using walnut hull, Journal of Environmental Management
90, 721-729.
221. Wang X.S, Tang Y.P, Tao S.R. 2009. Kinetics, equilibrium and thermodynamic study
on removal of Cr (VI) from aqueous solution using low cost adsorbent Alligator
weed, Chemical Engineering Journal, 148, 217-225.
222. Watonabe T and Ogawa K. 1929. Activated carbon for purifying copper electrolytes.
Chem. Abs. 24: 1037.
223. Weber W. J, Morris J. C. 1963. Kinetics of adsorption on carbon from solution, J.
Sanit. Eng. Div. Am. Soc. Civ. Eng. 89, 31–60.
224. Xie J.Z, Chand H.L and Kilbane J.J. 1996. Removal and recovery of metal ions from
wastewater using biosorbents and chemically modified biosorbents, Bioresource
Technology, 57, 127-136.
253
225. Xue Song Wang, Zhi Zhong Li, Cheng Sun. 2008. Removal of Cr (VI) from aqueous
solution by low cost adsorbents: Marine macroalgae and agricultural by-products,
Journal of Hazardous Materials, 153, 1176-1184.
226. Yang L and Paul Chen. J. 2008. Biosorption of hexavalent chromium onto raw and
chemically modified Sargassum sp., Journal of Bioresource Technology 99, 297–307.
227. Yetilmezsoy K, Demirel S. 2008. Artificial neural network (ANN) approach for
modeling of Pb (II)adsorption from aqueous solution by Antep Pistachio (Pistacia
Vera L) shells, Journal of Hazardous Materials., 153, 1288-1300.
228. Yetilmezsoy K, Demirel S, Vanderbei R.J. 2009. Response surface modeling of Pb
(II) removal from aqueous solution by Pistacia Vera L: Box-Behnken experimental
design, Journal of Hazardous Materials., 171, 551-562.
229. Yasemin Sahin and Ayten Ozturk. 2005. Biosorption of chromium (VI) ions from
aqueous solution by the bacterium Bacillus thuringiensis, journal of Process
Biochemistry 40, 1895–1901.
230. Yamin Khambhaty, Kalpana Mody, Shaik Basha and Bhavanath Jha. 2009. Kinetics,
equilibrium and thermodynamic studies on biosorption of hexavalentchromium by
dead fungal biomass of marine Aspergillus Niger, Chemical Engineering Journal 145,
489–495.
231. Young R.V. ed. World of chemistry.Michigan; Gate Group, 2000.
232. Yue Zhongren, Samantha E Bender, Jinwen Wang and James Economy. 2008.
Removal of chromium Cr (VI) by low-cost chemically activated carbon materials
from water, Journal of Hazardous Materials 166, 74–78
233. Zainul Akmar Zakaria, Marlini Suratman, Nurfadilah Mohammed and Wan Azlina
Ahmad. 2009. Chromium (VI) removal from aqueous solution by untreated rubber
wood sawdust, Journal of Desalination 244, 109–121.
254
234. Zhung R, Wang B and Ma H. 2010. Studies on chromium (VI) adsorption on
sulfonated lignite, Desalination, 255, 61-66.
235. Ziagova M, Dimitriadis G, Daslanidou, Papaloamnou X, Utopolou E, Tzannituki M
and Liako poulou. 2007. Removal of Cd (II) and Cr (VI) adsorption on
Staphylococcus xylosus and pseudomonas sp., Bioresource Technology, 98, 2859-
2865.