Removal of polycyclic aromatic hydrocarbons from aqueous solution using plant residue materials as a biosorbent

Chen, Baoliang; Yuan, Miaoxin; Líu, Hao

doi:10.1016/j.jhazmat.2011.01.114

Cited by 113 publications

(55 citation statements)

References 35 publications

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“…Also, large hydraulic pore sizes observed in ACP adsorbent encouraged easy diffusion of the adsorbate [17] and its large surface area increased the possibility of surface heterogeneity which consequently provided greater potential for effective adsorption. Similar observations were abound in the study of [21]Olayiwola (2013).The glaring difference in pore space sizes and distributions observed in the results of the study surface chemistry of the adsorbents could be attributed to the natural effect of different adsorbent species.…”

Section: Adsorbent Physical Characteristics and Adsorption Capacitymentioning

confidence: 99%

“…Similar observations were abound in the study of [21]Olayiwola (2013).The glaring difference in pore space sizes and distributions observed in the results of the study surface chemistry of the adsorbents could be attributed to the natural effect of different adsorbent species. Previous studies affirmed that the capacity to adsorb any substance is essentially a function of the pore space distribution of the adsorbent, indicating that large pore size distribution encourages high adsorption capacity because the pore spaces create adsorption sites [22] [17]. Similar observations were made in the study of Uzoije et al 2015b [20], Annadurai et al 2012 [12], and Oyekunle et al 2013 [18].This buttressed the high adsorption capacity of ACP observed in the present study as against the APP which has lower pore space distribution.…”

Section: Adsorbent Physical Characteristics and Adsorption Capacitymentioning

confidence: 99%

“…Fluoranthene has nonalternate arrangement hence more soluble and less susceptible to adsorption as indicated on Figures 6a and 6b. In contrast, Pyrene has alternate structural arrangement therefore less soluble than Fluoranthene [16] and by implication more susceptible to adsorption onto solid phase [17] …”

Section: Adsorbent Physical Characteristics and Adsorption Capacitymentioning

confidence: 99%

See 2 more Smart Citations

Performance Evaluation of Data Mining Classification in Educational System using Genetic Algorithm

Kaur¹,

Kaur²

2018

IJAST

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Section: Adsorbent Physical Characteristics and Adsorption Capacitymentioning

confidence: 99%

Section: Adsorbent Physical Characteristics and Adsorption Capacitymentioning

confidence: 99%

Section: Adsorbent Physical Characteristics and Adsorption Capacitymentioning

confidence: 99%

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Performance Evaluation of Data Mining Classification in Educational System using Genetic Algorithm

Kaur¹,

Kaur²

2018

IJAST

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“…This is due to the several techno-economic and environmental advantages associated with low-cost adsorbents when compared to other water treatment techniques; cheap, easy to obtain, process and use, available in abundance as waste or nuisance, good efficiency of adsorption and environmentally friendly [5][6][7]. Several low cost adsorbents such as biological materials [6][7][8][9][10][11][12][13][14][15], nanomaterials [16,17] and clays [5,[18][19][20][21][22][23][24] have been investigated. However, most of these adsorbents suffer from limitations such as low efficiency of pollutant removal, technicality, low stability, bleeding, low mechanical strength, non-durability and/or poor re-usability, thus limiting their potential for applications.…”

Section: Introductionmentioning

confidence: 99%

Calcined biomass-modified bentonite clay for removal of aqueous metal ions

Olu-Owolabi

Alabi

Unuabonah

et al. 2016

Journal of Environmental Chemical Engineering

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A B S T R A C TRecent studies have shown that kaolinite clay modified with biosorbents are promising low cost adsorbents for the removal of metals from aqueous solution because the resultant composites have higher adsorption capacities, and hence a better aqueous metal ions removal efficiencies. However, some clay properties suggest that not all such modifications enhance adsorption capacity. In this study, bentonite (BEN) clay was calcined after modification with Carica papaya seeds or pine cone to obtain C. papaya-modified bentonite (CPB) and pine cone-modified bentonite (PCB). The efficiencies of these adsorbents for the removal of Pb(II), Cu(II) and Cd(II) ions from aqueous solutions were studied as a function of pH, time, sorbate concentration and temperature. X-ray diffraction results showed that CPB and PCB had lattice structure as BEN, but reductions in the surface areas of CPB and PCB were observed. Adsorption results showed that pH did not significantly affect removal of aqueous metal ions between pH 3 and 7. The adsorption fitted pseudo-second order (r 2 ! 0.966) and intra-particle diffusion models and indicated mainly surface phenomena involving sharing of electrons between the adsorbent surfaces and the metal ion species. Unlike Cu(II) and Cd(II), Pb(II) adsorption reduced in CPB and PCB indicating that not all calcined biomass-clay composites have enhanced aqueous metal adsorption efficiency. However, undesired properties such as adsorbent bleeding were removed and mechanical strength enhanced while easier separation of the adsorbents from solution as compared to the raw bentonite was observed.

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“…In recent years, extensive researches are focused on the development of alternative and economic activated carbon from agricultural by-products [35][36][37][38][39] that are ubiquitous green waste in the environment and which may cause some serious environmental pollution when filling at a fixed site. However, the use of activated carbon derived from agricultural waste materials as adsorbents for the enhancement of hydrocarbon biodegradation rate in soil is very limited [28].…”

Section: Introductionmentioning

confidence: 99%

Biodegradation of 2,6-Dichlorophenol Wastewater in Soil Column Reactor in the Presence of Pineapple Peels-Derived Activated Carbon, Palm Kernel Oil and Inorganic Fertilizer

Agarry¹,

Aremu²,

Aworanti³

2013

JEP

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In this study, the potential effects of palm kernel oil (PKO), pineapple peels derived-activated carbon (PPAC) and NPK fertilizer (20:10:10) as amendment agents on the natural bioattenuation of 2,6-dichlorophenol (2,6-DCP) in tropical agricultural soil were investigated. The effect of PPAC dosage on 2,6-DCP biodegradation was also studied. Column reactors containing soil were spiked with 2,6-dichlorophenol (2,6-DCP) wastewater (300 mg/l) and amended with PKO, NPK fertilizer and PPAC alone or in combinations. The rates of 2,6-DCP biodegradation were studied for a remediation period of 42 days under laboratory conditions. The results showed that there was a positive relationship between the rate of 2,6-DCP biodegradation, bacterial growth rate and presence of NPK fertilizer and PPAC (alone or in combination) in soil column microcosms contaminated with 2,6-DCP. The 2,6-DCP biodegradation data fitted well to the first-order kinetic model. The model revealed that 2,6-DCP contaminated-soil microcosms amended with NPK fertilizer and PPAC (alone or in combination) had higher biodegradation rate constants (k) as well as lower half-life times (t 1/2 ) than soil column microcosms amended with PKO and unamended soil (natural attenuation) remediation system. Thus, the use of combined NPK fertilizer and activated carbon (NPK + PPAC) to enhance 2,6-DCP degradation in the soil could be one of the severally sought bioremediation strategies of remediating natural ecosystem (environment) contaminated with organic chemicals.

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Removal of polycyclic aromatic hydrocarbons from aqueous solution using plant residue materials as a biosorbent

Cited by 113 publications

References 35 publications

Performance Evaluation of Data Mining Classification in Educational System using Genetic Algorithm

Performance Evaluation of Data Mining Classification in Educational System using Genetic Algorithm

Calcined biomass-modified bentonite clay for removal of aqueous metal ions

Biodegradation of 2,6-Dichlorophenol Wastewater in Soil Column Reactor in the Presence of Pineapple Peels-Derived Activated Carbon, Palm Kernel Oil and Inorganic Fertilizer

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