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Adsorptive removal of some carbonyl containing compounds from aqueous solutions using Iraqi porcelanite rocks: a kinetic-model study | ||
| Caspian Journal of Environmental Sciences | ||
| دوره 20، شماره 1، فروردین 2022، صفحه 117-129 اصل مقاله (940.44 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2022.5406 | ||
| نویسندگان | ||
| Ahmed M Alwan Al Mashhadani* 1؛ Takialdin A Himdan2؛ Ali S Hamadi Al Dulaimi3؛ Yousif I. M. AbuZaid4 | ||
| 1Department of Medical Laboratory Technologies, Al-Yarmouk University College, Dayalah, Iraq | ||
| 2Al-Essraa University College, Baghdad, Iraq | ||
| 3General Directorate of Chemistry, Ministry of Higher Education and Scientific Research, Baghdad, Iraq | ||
| 4Department of Chemistry, College of Education for Pure Science /Ibn Al-Haitham University of Baghdad, Baghdad, Iraq | ||
| چکیده | ||
| The kinetics of removal of Acetaldehyde (A,Al), Benzaldehyde (B.al),2-Butanone (2-But), Acetophenone (A.Ph) and Benzophenone (B.Ph) from their aqueous solution by adsorption onto powder of Iraqi Porcelanite rocks was investigated. The results were treated by non-linear pseudo-first order (PFO) and non-linear pseudo-second order (PSO) models, the latter model was better fitting with experimental data. Furthermore, the non-linear treatment indicates that the time periods of the operation is longer than that estimated from direct observation, hence the quantity of adsorption at equilibrium will be greater than observed directly. Another advantage of non-linear treatment not mentioned before is deducing kinetic model best fitting with data by expecting the equilibrium time of the process depending on the data pointsof initial time period. The obtained kinetic parameters were correlated with some molar parameters using multi-variable linear regression which show that molar polarizability has a promotional effect upon kinetic adsorption parameters, while molar volume and hydrophobicity have a demotion effect. The kinetic investigation was extended to include diffusion Boyd’, and Weber-Morris models. The results showed that A.Al and 2-But had a film diffusion kinetic determining step, the remaining compounds show a non-diffusional (local adhering) like behavior. | ||
| کلیدواژهها | ||
| Kinetics؛ Adsorption؛ Carbonyl compounds؛ Porcelanite | ||
| مراجع | ||
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Abu-Hawwas, JK, Ibrahim, KM & Musleh, SM 2020, Study of Jordanian porcelanite and its adsorption behavior on 3, 5-dimethyle phenol from aqueous solution. Research Journal of Chemistry and Environment, 13: 387-402.
Al-Kazragi, MA, Al-Heetimi, DT & Himdan, TA 2017, Adsorption of 4-chlorophenol from aqueous solution onto Iraqi bauxite and surfactant–modified Iraqi bauxite: Equilibrium, kinetic, and thermodynamic studies. Oriental Journal of Chemistry, 33: 2983-2991.
Arellano-Cárdenas, S, Gallardo-Velázquez, T, Osorio-Revilla, G, López-Cortéz, M & Gómez-Perea, B 2005, "Adsorption of phenol and dichlorophenols from aqueous solutions by porous clay heterostructure (PCH). The Journal of the Mexican Chemistry Society, 49: 287-291.
Babić, K, van der Ham, L & de Haan, A 2006, Recovery of benzaldehyde from aqueous streams using extractant impregnated resins. Reactive and Functional Polymers, 66: 1494-1505.
Balcerek, M, Pielech-Przybylska, K, Patelski, P, Dziekońska-Kubczak, U & Jusel, T 2017, Treatment with activated carbon and other adsorbents as an effective method for the removal of volatile compounds in agricultural distillates. Food Additives Contaminations, Part A: Chemistry, Analysis, Control, Exposure & Risk Assessment, 34: 714-727.
Balsamo, M & Montagnaro, F 2015, Fractal-like Vermeulen kinetic equation for the description of diffusion-controlled adsorption dynamics. Journal of Physical Chemistry, 119: 8781-8785.
Boyd, GE, Adamson, AW & Myers, JrLS 1947, The exchange adsorption of ions from aqueous solutions by organic zeolites. ii kinetics. Journal of American Chemistry Society, 69: 2836-2848.
Brasquet, C, Bourges, B & Le Cloirec, P 1999, Quantitative structure-property relationship (QSPR) for the Adsorption of organic compounds onto activated carbon cloth: comparison between multiple linear regression and neural network. Environmental Science and Technology, 33: 4226-4231.
Carmalin, SA, & Eder, LC 2018, Removal of emerging contaminants from the environment by adsorption. Ecotoxicology and Environmental Safety, 150: 1-17.
Dabrowska, A & Nawrocki, J 2013, Aldehyde concentrations in wet deposition and river waters. Science of the Total Environment, 452-453: 1-9.
Dabrowska, A, Borcz, A & Nawrocki, J 2003, Aldehyde contamination of mineral water stored in PET bottles. Food Additives and Contaminants, 20: 1170-1177.
de Andrade, J, Oliveira, MF, da Silva, MG & Vieira, MG 2018, Adsorption of pharmaceuticals from water and wastewater using nonconventional low-cost materials: A review. Industrial & Engineering Chemistry Research, 57: 3103-3127.
El-Khaiary, MI & Malash, GF 2011, Common data analysis errors in batch adsorption studies. Hydrometallurgy, 105: 314-320.
Gupta, VK, Carrott, PJM, Ribeiro Carrott, MML & Suhas 2009, Low-cost adsorbents: growing approach to wastewater treatment: A review. Critical Reviews in Environmental Science and Technology 39: 783-842.
Hameed, BH & El-Khaiary, MI 2008, Malachite green adsorption by rattan sawdust: Isotherm, kinetic and mechanism modeling. Journal of Hazardous Materials, 159: 574-579.
Hebert, A, Forestier, D, Lenes, D, Benanou, D, Jacob, S, Arfi, C, Lambolez, L & Levi, Y 2010, Innovative method for prioritizing emerging disinfection by-products (DBPs) in drinking water on the basis of their potential impact on public health. Water Research, 44: 3147-3165.
Kajjumba, GW, Emik, S, Öngen, A, Özcan, HK & Aydın, S 2018, Modelling of adsorption kinetic processes—errors,theory and application. In Advanced Sorption Process Applications, 1-19, London: IntechOpen.
Kuang, Y, Zhang, X & Zhou, S 2020, Adsorption of methylene blue in water onto activated carbon by surfactant modification. Water, 12: 587 (1-19).
Kumar, KV 2006, Linear and non-linear regression analysis for the sorption kinetics of methylene blue onto activated carbon. Journal of Hazardous Materials, B137: 1538-1544.
Ling, Y, Klemes, M, Steinschneider, S, Dichtel, WR & Helbling, DE 2019, QSARs to predict adsorption affinity of organic micropollutants for activated carbon and β-cyclodextrin polymer adsorbents. Water Research, 154: 217-226.
Nayak, PS & Singh, BK 2007, Sorption studies on clay for the removal of phenol and p-nitrophenol from aqueous solution. Indian Journal of Chemistry-Section A, 46A: 620-623.
Obradovic, B 2020, Guidelines for general adsorption kinetics modeling. Hemijska Industrija, 74: 65-70.
Ofomaja, AE 2008, Sorptive removal of Methylene blue from aqueous solution using palm kernel fibre: Effect of fibre dose. Biochemical Engineering Journal, 40: 8-18.
Piir, G, Kahn, I, García-Sosa, AT, Sild, S, Ahte, P & Maran, U 2018, Best practices for QSAR model reporting: Physical and chemical properties, ecotoxicity, environmental fate, human health, and toxicokinetics end points. Environmental Health Perspectives, 126: 1-20.
Rice, EW, Baird, RB & Eaton, AD 2012, Standard Methods for the Examination of Water and Wastewater. 22nd. Washington, DC.: American Public Health Association, American Water.
Richardson, SD, Plewa, MJ, Wagner, ED, Schoeny, R & Demarini, DM 2007, Occurrence, genotoxicity, and carcinogenicity of regulated and emerging disinfection by-products in drinking water: A review and roadmap for research. Mutation Research, 636: 178-242.
Roy, J, Ghosh, S, Ojha, PK & Roy, K 2019, Predictive quantitative structure–property relationship (QSPR) modeling for adsorption of organic pollutants by carbon nanotubes (CNTs). Environmental Science: Nano, 6: 224-247.
Schwaab, M, Steffani, E, Barbosa-Coutinho, E & Severo Júnior, JB 2017, Critical analysis of adsorption/diffusion modelling as a function of time square root. Chemical Engineering Science, 173: 179-186.
Sharma, S & Bhattacharya, A 2017, Drinking water contamination and treatment techniq. Applied Water Science, 7: 1043-1067.
Tsibranska, I & Hristova, E 2011, Comparison of different kinetic models for adsorption of heavy metals onto activated carbon from apricot stones. Bulgarian Chemical Communications, 43: 370-377.
Vidal , RR & Moraes, JS 2019, Removal of organic pollutants from wastewater using chitosan: A literature review. International Journal of Environmental Science and Technology, 16: 1741-1754.
Weber, WJ & Morris, JC 1963, Kinetics of Adsorption on Carbon from Solution. Journal of the Sanitary Engineering Division, 89: 31-59.
Yao, M, Ji, Y, Wang, H, Ao, Z, Li, G & An, T 2017, Adsorption mechanisms of typical carbonyl-containing volatile organic compounds on anatase TiO2 (001) surface: A DFT investigation. The Journal of Physical Chemistry C, 121: 13717-13722.
Yoro, KO, Amosa, MK, Sekoai, PT, Mulopo, J & Daramola, MO 2020, Diffusion mechanism and effect of mass transfer limitation during the adsorption of CO2 by polyaspartamide in a packed-bed unit. International Journal of Sustainable Engineering, 13: 54-67. | ||
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