Mango shell (MS) and mango shell activated carbon (MSAC) was used to adsorb crude oil from water at various experimental conditions. The MSAC was prepared by carbonization at 450°C and chemical activation using strong H₃PO₄ acid. The adsorbents were characterized with Fourier Transform Infrared spectroscopy. Investigations carried out included the effects of parametric variations of different adsorbate dose, adsorbent dose, time, temperature, pH and mixing speed on the adsorption of crude oil. The equilibrium isotherm for the adsorption process was determined using Langmuir, Freundlich, Temkin and Dubinin Radushkevich isotherm models. Temkin isotherm was found to fit the equilibrium data reasonably well than others. The result demonstrated that MSAC was more effective for crude oil adsorption than raw mango shell. Optimum conditions were also presented. The enhanced effect from activation was justified statistically using Analysis of Variance and Bonferroni-Holm Posthoc significance test. The pseudo first order kinetics gave a better fit for crude oil adsorption with both MS and MSAC.

• ABSTRACT
• 1. Introduction
• 2. Materials and Methods
• 3. Results and Discussion
• 4. Conclusions
• References

1 Bhatnagar A, "Utilization of agro-industrial and municipal waste materials as potential adsorbents for water treatment – A review" 157 : 2270-2296, 2010

2 Saleh TA, "Synthesis and characterization of alumina nano-particles polyamide membrane with enhanced flux rejection performance" 89 : 245-251, 2012

3 Itodo AU, "Surface coverage and adsorption study of dye up take derived acid and base treated mango seed shell" 2 : 673-683, 2010

4 유창규, "Removal of acid dye (violet 54) and adsorption kinetics model of using musa spp. waste: A low-cost natural sorbent material" 한국화학공학회 27 (27): 1469-1475, 2010

5 Saleh TA, "Processing methods, characteristics and adsorption behavior of tire derived carbons: A review" 211 : 93-101, 2014

6 Saleh TA, "Polyethylenimine modified activated carbon as novel magnetic adsorbent for the removal of uranium from aqueous solution" 117 : 218-227, 2017

7 Saleh TA, "Photo-catalyzed degradation of hazardous dye methyl orange by use of a composite catalyst consisting of multi-walled carbon nanotubes and titanium dioxide" 371 : 101-106, 2012

8 Saleh TA, "Optimization of parameters with experimental design for the adsorption of mercury using polyethylenimine modified-activated carbon" 5 : 1079-1088, 2017

9 Kwaghger A, "Optimization of conditions for the preparation of activated carbon from mango nuts using ZnCl2" 1 : 1-7, 2012

10 Mohammed AR, "Oil palm ash/Ca(OH)2/CaSO4 adsorbent for flue gas desulfurization" 28 : 939-945, 2005

11 Lin J, "Nanoporous polystyrene fibers for oil spill cleanup" 20 : 1-6, 2011

12 Saleh TA, "Nanocomposite of carbon nanotubes/silica nanoparticles and their use for adsorption of Pb (II): From surface properties to sorption mechanism" 57 : 10730-10744, 2016

13 Sidik SM, "Modified oil palm leaves adsorbent with enhanced hydrophobicity for crude oil removal" 203 : 9-18, 2012

14 Saleh TA, "Mercury sorption by silica/carbon nanotubes and silica/activated carbon: a comparison study" 64 : 892-903, 2015

15 Saleh TA, "Mercury sorption by silica/carbon nanotubes and silica/activated carbon: A comparison study" 64 : 892-903, 2015

16 Angelova D, "Kinetics of oil and oil products adsorption by carbonized rice husks" 172 : 306-311, 2011

17 Saleh TA, "Isotherm, kinetic, and thermodynamic studies on Hg (II) adsorption from aqueous solution by silica-multiwall carbon nanotubes" 22 : 16721-16731, 2015

18 Haruna K, "Hydroxylamine reduced silver colloid for naphthalene and phenanthrene detection using surface-enhanced Raman spectroscopy" 304 : 141-148, 2016

19 Broder JM, "Gulf oil spills are bad, but how bad?"

20 Annunciado TR, "Experimental investigation of various vegetable fibers as sorbent materials for oil spills" 50 : 1340-1346, 2005

21 Coates J, "Encyclopedia of analytical chemistry" John Wiley & Sons Ltd 10815-10837, 2000

22 Saleh TA, "Effective adsorption of antimony (III) from aqueous solutions by polyamide-graphene composite as a novel adsorbent" 307 : 230-238, 2017

23 Uzoije AP, "Crude oil sorption onto groundnut shell activated carbon: Kinetic and isotherm studies" 3 : 555-563, 2011

24 Saleh TA, "Column with CNT/magnesium oxide composite for lead (II) removal from water" 19 : 1224-1228, 2012

25 Saleh TA, "Chitosan-modified vermiculite for As (III) adsorption from aqueous solution: Equilibrium, thermodynamic and kinetic studies" 219 : 937-945, 2016

26 Gupta VK, "Chemical treatment technologies for waste-water recycling – An overview" 2 : 6380-6388, 2012

27 Agarry SE, "Biosorption equilibrium, kinetic and thermodynamic modeling of naphthalene removal from aqeous solution onto modified spent tea leaves" 34 : 825-839, 2013

28 Ayotamuno MJ, "Bioremediation of a crude-oil polluted agricultural-soil at Port Harcourt, Nigeria" 83 : 1249-1257, 2006

29 Gupta VK, "Adsorptive removal of dyes from aqueous solution onto carbon nanotubes:A review" 193 : 24-34, 2013

30 Gupta VK, "Adsorptive removal of dyes from aqueous solution onto carbon nanotubes:A review" 193 : 24-34, 2013

31 Bello OS, "Adsorptive removal of a synthetic textile dye using cocoa pod husks" 93 : 1298-1308, 2011

32 Mise SR, "Adsorption studies of colour removal by activated carbon derived from Mangifera indica (mango)seed shell" 2 (2): 325-328, 2013

33 Olufemi BA, "Adsorption of crude oil using meshed concorbs" 3 : 7-21, 2014

34 Lin CC, "Adsorption in a centrifugal field: Basic dye adsorption by activated carbon" 39 : 161-167, 2000