Adsorption of Paracetamol Using Activated Carbon of Dende and Babassu Coconut Mesocarp
Removal of the widespread used drug paracetamol
from water was investigated using activated carbon originated from
dende coconut mesocarp and babassu coconut mesocarp. Kinetic and
equilibrium data were obtained at different values of pH. Both
activated carbons showed high efficiency when pH ≤ pHPZC as the
carbonil group of paracetamol molecule are adsorbed due to
positively charged carbon surface. Microporosity also played an
important role in such process. Pseudo-second order model was better
adjusted to the kinetic results. Equilibrium data may be represented
by Langmuir equation.
[1] Jelic A, Gros M, Ginebreda A, Cespedes-Sánchez R, Ventura F, Petrovic
M, et al. Occurrence, partition and removal of pharmaceuticals in
sewage water and sludge during wastewater treatment. Water Res 2011;
45:1165–76.
[2] Verlicchi P, Al Aukidy M, Zambello E. Occurrence of pharmaceutical
compounds in urban wastewater: removal, mass load and environmental
risk after a secondary treatment--a review. Sci Total Environ 2012;
429:123–55.
[3] Radjenović J, Petrović M, Barceló D. Fate and distribution of
pharmaceuticals in wastewater and sewage sludge of the conventional
activated sludge (CAS) and advanced membrane bioreactor (MBR)
treatment. Water Res 2009; 43:831–41.
[4] Rivera-Utrilla J, Sánchez-Polo M, Ferro-García MÁ, Prados-Joya G,
Ocampo-Pérez R. Pharmaceuticals as emerging contaminants and their
removal from water. A review. Chemosphere 2013; 93:1268–87.
[5] Abdallah MAM. The potential of different bio adsorbents for removing
phenol from its aqueous solution. Environ Monit Assess 2013;185:495–
503.
[6] Stankovic V, Bozic D, Gorgievski M, Bogdanovic G. Heavy metal ions
adsorption from mine waters by sawdust. Chem Ind Chem Eng Q 2009;
15:237–49.
[7] Soliman EM, Ahmed S a., Fadl A a. Removal of calcium ions from
aqueous solutions by sugar cane bagasse modified with carboxylic acids
using microwave-assisted solvent-free synthesis. Desalination 2011;
278:18–25.
[8] Cabrita I, Ruiz B, Mestre a. S, Fonseca IM, Carvalho a. P, Ania CO.
Removal of an analgesic using activated carbons prepared from urban
and industrial residues. Chem Eng J 2010; 163:249–55.
[9] Daraei H, Mittal A, Noorisepehr M, Daraei F. Kinetic and equilibrium
studies of adsorptive removal of phenol onto eggshell waste. Environ Sci
Pollut Res Int 2013; 20:4603–11.
[10] Kütahyalı C, Eral M. Sorption studies of uranium and thorium on
activated carbon prepared from olive stones: Kinetic and thermodynamic
aspects. J Nucl Mater 2010; 396:251–6.
[11] Baral SS, Das N, Roy Chaudhury G, Das SN. A preliminary study on the
adsorptive removal of Cr(VI) using seaweed, Hydrilla verticillata. J
Hazard Mater 2009; 171:358–69.
[12] Foo KY, Hameed BH. Factors affecting the carbon yield and adsorption
capability of the mangosteen peel activated carbon prepared by
microwave assisted K2CO3 activation. Chem Eng J 2012;180:66–74.
[13] Vieira AP, Santana SAA, Bezerra CWB, Silva HAS, Chaves JAP, de
Melo JCP, et al. Kinetics and thermodynamics of textile dye adsorption
from aqueous solutions using babassu coconut mesocarp. J Hazard
Mater 2009; 166:1272–8.
[14] Hossain MA, Ngo HH, Guo WS, Nguyen T V. Biosorption of Cu ( II )
From Water by Banana Peel Based Biosorbent : Experiments and
Models of Adsorption and Desorption. J Water Sustain 2012; 2:87–104.
[15] Khalil HPSA, Jawaid M, Firoozian P, Rashid U, Islam A, Akil HM.
Activated Carbon from Various Agricultural Wastes by Chemical
Activation with KOH: Preparation and Characterization. J Biobased
Mater Bioenergy 2013; 7:708–14.
[16] Mestre AS, Pires J, Nogueira JMF, Parra JB, Carvalho AP, Ania CO.
Waste-derived activated carbons for removal of ibuprofen from solution:
role of surface chemistry and pore structure. Bioresour Technol 2009;
100:1720–6.
[17] Ruiz B, Cabrita I, Mestre a. S, Parra JB, Pires J, Carvalho a. P, et al.
Surface heterogeneity effects of activated carbons on the kinetics of
paracetamol removal from aqueous solution. Appl Surf Sci 2010;
256:5171–5.
[18] Couto Jr. OM, Matos I, Fonseca IM da, Arroyo PA, Silva EA da, Barros
MASD de. Effect of Solution pH and Influence of Water Hardness on
Caffeine Adsorption onto Activated Carbons. Can J Chem Eng 2015;
93:68–77.
[19] Rodriguez-reinoso F, Martin-martinez JM, Prado-burguete C, Mcenaney
B. Standard Adsorption Isotherm for the Characterlzation of Activated
Carbons. J Phys Chem 1987; 91:515–6.
[20] Park J, Regalbuto JR. A simple, accurate determination of oxide PZC
and the strong buffering effect of oxide surfaces at incipient wetness. J
Colloid Interface Sci 1995; 175:239–52.
[21] Frisch M, Trucks G, Schlegel H. Gaussian, Inc. Gaussian, Inc,
Wallingford, … 2010.
[22] Lagergren S. Zur Theorie der sogenannten Adsorption gelöster Stoffe. K
Sven Vetenskapsakademiens, Handl 1898;24:1–39.
[23] Ho Y., McKay G. Pseudo-second order model for sorption processes.
Process Biochem 1999; 34:451–65.
[24] Langmuir I. The constitution and fundamental properties of solids and
liquids. J Am Chem Soc 1916; 38:2221–95.
[25] Ruthven DM. Principles of Adsorption and Adsorption Processes. John
Wiley. 1984.
[26] Guedidi H, Reinert L, Lévêque J-M, Soneda Y, Bellakhal N, Duclaux L.
The effects of the surface oxidation of activated carbon, the solution pH
and the temperature on adsorption of ibuprofen. Carbon N Y
2013;54:432–43.
[27] Florey K. Analytical Profiles of Drug Substances. Vol. 3, vol. 3.
Academic P, New York and London: 1974, p. 1–109.
[28] Dubinin M.M. Adsorption in micropores. J Colloid Interface Sci 1967;
23:487–99.
[29] Galhetas M, Mestre AS, Pinto ML, Gulyurtlu I, Lopes H, Carvalho AP.
Carbon-based materials prepared from pine gasification residues for
acetaminophen adsorption. Chem Eng J 2014;240:344–51.
[30] Ho Y-S. Review of second-order models for adsorption systems. J
Hazard Mater 2006; 136:681–9. doi:10.1016/j.jhazmat.2005.12.043.
[31] Moreno-Castilla C. Adsorption of organic molecules from aqueous
solutions on carbon materials. Carbon N Y 2004;42:83–94.
[32] Giles CH, Macewan TH, Nakhwa SN, Smith D. Studies in Adsorption.
Part XI.* A System of Classi$cation of Solution Adsorption Isotherms,
and its Use in Diagnosis of Adsorption Mechanisms and in
Measurement of Specific Surface Areas of Solids. J Chem Soc 1960:
3973–93.
[1] Jelic A, Gros M, Ginebreda A, Cespedes-Sánchez R, Ventura F, Petrovic
M, et al. Occurrence, partition and removal of pharmaceuticals in
sewage water and sludge during wastewater treatment. Water Res 2011;
45:1165–76.
[2] Verlicchi P, Al Aukidy M, Zambello E. Occurrence of pharmaceutical
compounds in urban wastewater: removal, mass load and environmental
risk after a secondary treatment--a review. Sci Total Environ 2012;
429:123–55.
[3] Radjenović J, Petrović M, Barceló D. Fate and distribution of
pharmaceuticals in wastewater and sewage sludge of the conventional
activated sludge (CAS) and advanced membrane bioreactor (MBR)
treatment. Water Res 2009; 43:831–41.
[4] Rivera-Utrilla J, Sánchez-Polo M, Ferro-García MÁ, Prados-Joya G,
Ocampo-Pérez R. Pharmaceuticals as emerging contaminants and their
removal from water. A review. Chemosphere 2013; 93:1268–87.
[5] Abdallah MAM. The potential of different bio adsorbents for removing
phenol from its aqueous solution. Environ Monit Assess 2013;185:495–
503.
[6] Stankovic V, Bozic D, Gorgievski M, Bogdanovic G. Heavy metal ions
adsorption from mine waters by sawdust. Chem Ind Chem Eng Q 2009;
15:237–49.
[7] Soliman EM, Ahmed S a., Fadl A a. Removal of calcium ions from
aqueous solutions by sugar cane bagasse modified with carboxylic acids
using microwave-assisted solvent-free synthesis. Desalination 2011;
278:18–25.
[8] Cabrita I, Ruiz B, Mestre a. S, Fonseca IM, Carvalho a. P, Ania CO.
Removal of an analgesic using activated carbons prepared from urban
and industrial residues. Chem Eng J 2010; 163:249–55.
[9] Daraei H, Mittal A, Noorisepehr M, Daraei F. Kinetic and equilibrium
studies of adsorptive removal of phenol onto eggshell waste. Environ Sci
Pollut Res Int 2013; 20:4603–11.
[10] Kütahyalı C, Eral M. Sorption studies of uranium and thorium on
activated carbon prepared from olive stones: Kinetic and thermodynamic
aspects. J Nucl Mater 2010; 396:251–6.
[11] Baral SS, Das N, Roy Chaudhury G, Das SN. A preliminary study on the
adsorptive removal of Cr(VI) using seaweed, Hydrilla verticillata. J
Hazard Mater 2009; 171:358–69.
[12] Foo KY, Hameed BH. Factors affecting the carbon yield and adsorption
capability of the mangosteen peel activated carbon prepared by
microwave assisted K2CO3 activation. Chem Eng J 2012;180:66–74.
[13] Vieira AP, Santana SAA, Bezerra CWB, Silva HAS, Chaves JAP, de
Melo JCP, et al. Kinetics and thermodynamics of textile dye adsorption
from aqueous solutions using babassu coconut mesocarp. J Hazard
Mater 2009; 166:1272–8.
[14] Hossain MA, Ngo HH, Guo WS, Nguyen T V. Biosorption of Cu ( II )
From Water by Banana Peel Based Biosorbent : Experiments and
Models of Adsorption and Desorption. J Water Sustain 2012; 2:87–104.
[15] Khalil HPSA, Jawaid M, Firoozian P, Rashid U, Islam A, Akil HM.
Activated Carbon from Various Agricultural Wastes by Chemical
Activation with KOH: Preparation and Characterization. J Biobased
Mater Bioenergy 2013; 7:708–14.
[16] Mestre AS, Pires J, Nogueira JMF, Parra JB, Carvalho AP, Ania CO.
Waste-derived activated carbons for removal of ibuprofen from solution:
role of surface chemistry and pore structure. Bioresour Technol 2009;
100:1720–6.
[17] Ruiz B, Cabrita I, Mestre a. S, Parra JB, Pires J, Carvalho a. P, et al.
Surface heterogeneity effects of activated carbons on the kinetics of
paracetamol removal from aqueous solution. Appl Surf Sci 2010;
256:5171–5.
[18] Couto Jr. OM, Matos I, Fonseca IM da, Arroyo PA, Silva EA da, Barros
MASD de. Effect of Solution pH and Influence of Water Hardness on
Caffeine Adsorption onto Activated Carbons. Can J Chem Eng 2015;
93:68–77.
[19] Rodriguez-reinoso F, Martin-martinez JM, Prado-burguete C, Mcenaney
B. Standard Adsorption Isotherm for the Characterlzation of Activated
Carbons. J Phys Chem 1987; 91:515–6.
[20] Park J, Regalbuto JR. A simple, accurate determination of oxide PZC
and the strong buffering effect of oxide surfaces at incipient wetness. J
Colloid Interface Sci 1995; 175:239–52.
[21] Frisch M, Trucks G, Schlegel H. Gaussian, Inc. Gaussian, Inc,
Wallingford, … 2010.
[22] Lagergren S. Zur Theorie der sogenannten Adsorption gelöster Stoffe. K
Sven Vetenskapsakademiens, Handl 1898;24:1–39.
[23] Ho Y., McKay G. Pseudo-second order model for sorption processes.
Process Biochem 1999; 34:451–65.
[24] Langmuir I. The constitution and fundamental properties of solids and
liquids. J Am Chem Soc 1916; 38:2221–95.
[25] Ruthven DM. Principles of Adsorption and Adsorption Processes. John
Wiley. 1984.
[26] Guedidi H, Reinert L, Lévêque J-M, Soneda Y, Bellakhal N, Duclaux L.
The effects of the surface oxidation of activated carbon, the solution pH
and the temperature on adsorption of ibuprofen. Carbon N Y
2013;54:432–43.
[27] Florey K. Analytical Profiles of Drug Substances. Vol. 3, vol. 3.
Academic P, New York and London: 1974, p. 1–109.
[28] Dubinin M.M. Adsorption in micropores. J Colloid Interface Sci 1967;
23:487–99.
[29] Galhetas M, Mestre AS, Pinto ML, Gulyurtlu I, Lopes H, Carvalho AP.
Carbon-based materials prepared from pine gasification residues for
acetaminophen adsorption. Chem Eng J 2014;240:344–51.
[30] Ho Y-S. Review of second-order models for adsorption systems. J
Hazard Mater 2006; 136:681–9. doi:10.1016/j.jhazmat.2005.12.043.
[31] Moreno-Castilla C. Adsorption of organic molecules from aqueous
solutions on carbon materials. Carbon N Y 2004;42:83–94.
[32] Giles CH, Macewan TH, Nakhwa SN, Smith D. Studies in Adsorption.
Part XI.* A System of Classi$cation of Solution Adsorption Isotherms,
and its Use in Diagnosis of Adsorption Mechanisms and in
Measurement of Specific Surface Areas of Solids. J Chem Soc 1960:
3973–93.
@article{"International Journal of Biological, Life and Agricultural Sciences:70095", author = "R. C. Ferreira and H. H. C. De Lima and A. A. Cândido and O. M. Couto Junior and P. A. Arroyo and K. Q De Carvalho and G. F. Gauze and M. A. S. D. Barros", title = "Adsorption of Paracetamol Using Activated Carbon of Dende and Babassu Coconut Mesocarp", abstract = "Removal of the widespread used drug paracetamol
from water was investigated using activated carbon originated from
dende coconut mesocarp and babassu coconut mesocarp. Kinetic and
equilibrium data were obtained at different values of pH. Both
activated carbons showed high efficiency when pH ≤ pHPZC as the
carbonil group of paracetamol molecule are adsorbed due to
positively charged carbon surface. Microporosity also played an
important role in such process. Pseudo-second order model was better
adjusted to the kinetic results. Equilibrium data may be represented
by Langmuir equation.", keywords = "Adsorption, activated carbon, babassu, dende.", volume = "9", number = "7", pages = "717-6", }
