1. M. Soufan, Oxydation par le chlore de composes pharmaceutiques, Thèse de doctorat, l’Université Poitiers, chimie et microbiologie de l’eau, 173, 2011 (Oxidation of Pharmaceutical Compounds by Chlorine, Doctoral Thesis, University Poitiers, Chemistry and Microbiology of Water, 173, 2011).
  2. A.V. Flores Nardy Ribeiro, M. Belisario, R. Moretto Galazzi, D. Cazoni Balthazar, Evaluation of two bioadsorbents for removing paracetamol from aqueous media, J. Biotechnol., 14 (2011) 1–10.
  3. J. Radjenovic, M. Petrovic, D. Barceló, Fate and distribution of pharmaceuticals in wastewater and sewage sludge of the conventional activated sludge (CAS) and advanced membrane bioreactor (MBR) treatment, Water Res., 43 (2009) 831–841.
  4. J. Rivera-Utrilla, M. Sánchez-Polo, M.Á. Ferro-García, G. Prados-Joya, R. Ocampo-Pérez, Pharmaceuticals as emerging contaminants and their removal from water. A review, Chemosphere, 93 (2013) 1268–1287.
  5. A. Jelic, M. Gros, A. Ginebreda, R. Cespedes-Sánchez, F. Ventura, M. Petrovic, D. Barcelo, Occurrence, partition and removal of pharmaceuticals in sewage water and sludge during wastewater treatment, Water Res., 45 (2011) 1165–1176.
  6. P. Verlicchi, M. Al Aukidy, E. Zambello, Occurrence of pharmaceutical compounds in urban wastewater: removal, mass load and environmental risk after a secondary treatment – a review, Sci. Total Environ., 429 (2012) 123–155.
  7. S. Cheng, J. Wu, H. Xia, J. Peng, S. Wang, L. Zhang, Microwaveassisted regeneration of spent activated carbon from paracetamol wastewater plant using response surface methodology, Desal. Wat. Treat., 57 (2016) 18981–18991.
  8. J. Lladó, C. Lao-Luque, B. Ruiz, E. Fuente, M. Solé-Sardans, A.D. Dorado, Role of activated carbon properties in atrazine and paracetamol adsorption equilibrium and kinetics, Process Saf. Environ. Prot., 95 (2015) 51–59.
  9. Y. Kim, K. Choi, J. Jung, S. Park, P.-G. Kim, J. Park, Aquatic toxicity of acetaminophen carbamazepine, cimetidine, diltiazem and six major sulfonamides, and their potential ecological risks in Korea, Environment Int., 33 (2007) 370–375.
  10. The State of Food and Agriculture, FAO STATE, 2013.
  11. The official website of the International Exhibition of the Dating of Biskra “SIDAB”, whose first edition was organized from 21 to 24 march in Biskra under the auspices of the Zibans Chamber of Commerce and Industry and the Algerian Chamber of Commerce and Industry, 2015.
  12. H. Babaci, H. Aksas, K. Louhab, Biosorption of anionic dye Bezaktiv Yellow HE-4G on mixture of olive stone and date pits in backed bed column, Asian J. Chem., 27 (2015) 4029–4033.
  13. N. Babakhouya, S. Boughrara, F. Abed, N. Abai, S. Midoune, Etude du potentiel d’utilisation des déchets agroalimentaires, les grignons d’olives et les noyaux de date pour recuperation et adsorption des métaux lourds, Algerian J. Environ. Sci. Technol., 1 (2015). ISSN: 2437-1114.
  14. A. Chouchene, Etude expérimentale et théorique de procédés de valorisation de sous produtis oléicoles par voies thermique et physico-chimique, Food and Nutrition, University Haute Alsace, Mulhouse, 2012 (Experimental and theoretical study of processes for the valorization of sub-olive products by thermal and physico-chemical means).
  15. O. Lorphensri, J. Intravijit, D.A. Sabatini, T.C.G. Kibbey, K. Osathaphan, C. Saiwan, Sorption of acetaminophen, 17α-ethynyl estraiol, nalidixic acid, and norfloxacin to silica, alumina, and a hydrophobic medium, Water. Res., 40 (2006) 1481–1491.
  16. T. Bohli, A. Ouederni, N. Fiol, I. Villaescusa, Evaluation of an activated carbon from olive stones used as an adsorbent for heavy metal removal from aqueous phases, C.R. Chim. (2014) 1–12.
  17. I. Ghouma, M. Jeguirim, S. Dorge, L. Limousy, C.M. Ghimbeu, A. Ouederni, Activated carbon prepared by physical activation of olive stones for the removal of NO2 at ambient temperature, C.R. Chim. (2014) 1–12.
  18. M.L. Sekirifa, Étude des propriétés absorbantes des charbons activés issus des noyaux de dattes, Application au traitement d’effluent aqueux, une thèse de doctorat, 2013 (Study of the Absorbent Properties of Activated Carbons from Date Pits. Application to the Treatment of Aqueous Effluent, Doctoral Thesis, Badji Mokhtar –Annaba University, 2013).
  19. H. Aksas, Etude cinétique et thermodynamique de l’adsorption des métaux lourds par l’utilisation des adsorbants naturels (Kinetic and Thermodynamic Study of the Adsorption of Heavy Metals by the Use of Natural Adsorbents), Doctoral Thesis, Boumerdes University, Algérie, 198, 2012.
  20. M. Belhachemi, M. Jeguirim, L. Limousy, F. Addoun, Comparison of NO2 removal using date pits activated carbon and modified commercialized activated carbon via different preparation methods: effect of porosity and surface chemistry, Chem. Eng. J., 253 (2014) 121–129.
  21. V. Arya, L. Philip, Adsorption of pharmaceuticals in water using Fe3O4 coated polymer clay composite, Microporous Mesoporous Mater., 232 (2016) 273–280.
  22. I. Villaescusa, N. Fiol, J. Poch, A. Bianchi, C. Bazzicalupi, Mechanism of paracetamol removal by vegetable wastes: the contribution of p–p interactions, hydrogen bonding and hydrophobic effect, Desalination, 270 (2011) 135–142.
  23. H. Liu, W. Ning, P. Cheng, J. Zhang, Y. Wang, C. Zhang, Evaluation of animal hairs-based activated carbon for sorption of norfloxacin and acetaminophen by comparing with cattail fiber-based activated carbon, J. Anal. Appl. Pyrolysis, 101 (2013) 156–165.
  24. A. Mashayekh-Salehi, G. Moussavi, Removal of acetaminophen from the contaminated water using adsorption onto carbon activated with NH4Cl, Desal. Wat. Treat., 57 (2016) 12861–12873.
  25. C. Saucier, P. Karthickeyan, G.S. dos Reis, V. Ranjithkumar, I.A.S. de Brum, E.C. Lima, Efficient removal of amoxicillin and paracetamol from aqueous solutions using magnetic activated carbon, Environ. Sci. Pollut. Res., 24 (2017) 5918–5932.
  26. M. Antunes, V.I. Esteves, R. Guégan, J.S. Crespo, A.N. Fernandes, M. Giovanela, Removal of diclofenac sodium from aqueous solution by Isabel grape bagasse, Chem. Eng. J., 192 (2012) 114–121.
  27. Y.S. Ho, Review of second-order models for adsorption systems, J. Hazard. Mater., 136 (2006) 681–689.
  28. Y. Önal, C.A.R. Akmil-Bas, Ç. Sar1c1-Özdemir, Elucidation of the naproxen sodium adsorption onto activated carbon prepared from waste apricot: kinetic, equilibrium and thermodynamic characterization, J. Hazard. Mater., 148 (2007) 727–734.
  29. W.J. Weber, J.C. Morris, Kinetics of adsorption on carbon from solution, J. Sanit. Eng. Div. ASCE, 89 (1963) 31–60.
  30. G.H. Pino, L.M.S. Mesquita, M.L. Torem, G.A.S. Pinto, Biosorption of cadmium by green coconut shell powder, Miner. Eng., 19 (2006) 380–387.
  31. S.K. Bajpai, M. Bhowmik, Adsorption of diclofenac sodium from aqueous solution using polyaniline as a potential sorbent. I. Kinetic studies, J. Appl. Polym. Sci., 117 (2010) 3615–3622.
  32. M. Kilic, E. Apaydin-Varol, A.E. Putun, Adsorptive removal of phenol from aqueous solutions on activated carbon prepared from tobacco residues: equilibrium, kinetics and thermodynamics, J. Hazard. Mater., 189 (2011) 397–403.
  33. C. Valderrama, X. Gamisans, F.X. las Heras, J.L. Cortina, A. Farran, Kinetics of polycyclic aromatic hydrocarbons removal using hyper-cross-linked polymeric sorbents Macronet Hypersol MN200, React. Funct. Polym., 67 (2007) 1515–1529.
  34. S. Venkata Mohan, N. Chandrasekhar Rao, J. Karthikeyan, Adsorption removal of direct azodye from aqueous phase onto coal based sorbents – a kinetic and mechanistic study, J. Hazard. Mater., 90 (2002) 189–204.
  35. A. Ozer, G. Dursun, Removal of methylene blue from aqueous solution by dehydrated wheat bran carbon, J. Hazard. Mater., 146 (2007) 262–269.
  36. I. Langmuir, The adsorption of gases on plane surfaces of glass, mica and platinum, J. Am. Chem. Soc., 40 (1918) 1361–1367.
  37. H.M.F. Freundlich, Over the adsorption in solution, J. Phys. Chem., 57 (1906) 385–470.
  38. Y.S. Ho, C.T. Huang, H.W. Huang, Equilibrium sorption isotherm for metal ions on tree fern, Process Biochem., 37 (2002) 1421–1430.
  39. C.H. Giles, T.H. Macewan, S.N. Nakhwa, D. Smith, Studies in adsorption. Part XI. A system of classification of solutions adsorption isotherms, and its use in diagnosis of adsorption mechanisms and in measurement of specific surface areas of solids, J. Chem. Soc., (1960) 3973–3993.
  40. R. Baccar, M. Sarra, J. Bouzid, M. Fiki, P. Blanquez, Removal of pharmaceutical compounds by activated carbons prepared from agricultural by-product, Chem. Eng. J., 211–212 (2012) 310–317.
  41. B.H. Hameed, A.T.M. Din, A.L. Al Ahmed, Adsorption of methylene blue onto bamboo-based activated carbon: kinetics and equilibrium studies, J. Hazard. Mater., 141 (2007) 819–825.
  42. B.H. Hameed, Evaluation of papaya seeds as a novel nonconventional low-cost adsorbent for removal of methylene blue, J. Hazard. Mater., 162 (2009) 939–944.
  43. A. Behnamfard, M.M. Salarirad, Equilibrium and kinetic studies on free cyanide adsorption from aqueous solution by activated carbon, J. Hazard. Mater., 170 (2009) 127–133.
  44. T. Mukoko, M. Mupa, U. Guyo, F. Dziike, Preparation of rice hull activated carbon for the removal of selected pharmaceutical waste compounds in hospital effluent, J. Environ. Anal. Toxicol. (2015) S7.
  45. B. Ruiz, I. Cabrita, A.S. Mestre, J.B. Parra, J. Pires, A.P. Carvalho, C.O. Ania, Surface heterogeneity effects of activated carbons on the kinetics of paracetamol removal from aqueous solution, Appl. Surf. Sci., 256 (2010) 5171–5175.
  46. A.S. Mestre, A.S. Bexiga, M. Proença, M. Andrade, M.L. Pinto, I. Matos, I.M. Fonseca, A.P. Carvalho, Activated carbons from sisal waste by chemical activation with K2CO3: kinetics of paracetamol and ibuprofen removal from aqueous solution, Bioresour. Technol., 102 (2011) 8253–8260.
  47. P. Pandey, V. Kumar Saini, Synthesis of low cost carbon replica for paracetamol removal from waste water and effect of temperature on adsorption capacity, Int. J. Occup. Health Saf. Fire Environ. Allied Sci., 5 (2015) 17–19.
  48. R.C. Ferreira, O.M. Couto Jr., K.Q. Carvalho, P.A. Arroyo, M.A.S.D. Barros, Effect of solution pH on the removal of paracetamol by activated of dende coconut mesocarp, Chem. Biochem. Eng. Q., 29 (2015) 47–53.
  49. D. Sigh, Studies of the adsorption thermodynamics of oxamymyl on fly ash, Adsorpt. Sci. Technol., 18 (2000) 742–748.
  50. B.K. Nandi, A. Goswami, M.K. Purkait, Adsorption characteristics of brilliant green dye on kaolin, J. Hazard. Mater., 161 (2009) 387–395.
  51. M.K. Purkait, A. Maiti, S. DasGupta, S. De, Removal of congo red using activated carbon and its regeneration, J. Hazard. Mater., 145 (2007) 287–295.