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Studies on Adsorption of Petroleum Products under Static Conditions

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper provides an overview of the adsorption of petroleum products, focusing on various aspects such as adsorbent types, mechanisms of adsorption, factors influencing efficiency, kinetics, equilibrium, practical applications, and environmental implications. It explores the properties and characteristics of adsorbents, including activated carbon, zeolites, clay minerals, silica gel, and others, highlighting their interaction with petroleum products. The article delves into the theories and mechanisms governing the adsorption process, discussing physical and chemical adsorption as well as the role of forces like van der Waals, hydrogen bonding, and electrostatic interactions. The results of experimental investigations were conducted to evaluate the adsorption capacities of various adsorbents for petroleum products. The adsorption performance, kinetics, and equilibrium behavior of different adsorbents were analyzed, providing insights into their effectiveness in removing petroleum contaminants from aqueous solutions. The adsorption kinetics and equilibrium studies were explored through mathematical models like Langmuir and Freundlich isotherms. The practical applications of adsorption in the petroleum industry were discussed, including removing pollutants from wastewater, gas and diesel purification, and desulfurization. The environmental implications of adsorption technology in mitigating oil spills and reducing petroleum-related pollution were addressed. The conclusion emphasizes the significance of these studies in enhancing understanding, developing efficient solutions, and addressing environmental challenges associated with the petroleum industry. Ongoing research in this field aims to further improve adsorption processes for a more effective and sustainable approach.
Słowa kluczowe
Rocznik
Strony
40--46
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
  • Department of Ecology and Sustainable Environmental Management, Lviv Polytechnic National University, Viacheslav Chornovil Institute of Sustainable Development, S. Bandera St, 12, Lviv, 79013, Ukraine
  • Department of Ecology and Sustainable Environmental Management, Lviv Polytechnic National University, Viacheslav Chornovil Institute of Sustainable Development, S. Bandera St, 12, Lviv, 79013, Ukraine
Bibliografia
  • 1. Sočo, E., Papciak, D., Michel, M.M., Pająk, D., Domoń, A., Kupiec, B. 2021. Characterisation of the physical, chemical, and adsorption properties of coal-fly-ash–hydroxyapatite composites. Minerals, 11(7), 774.
  • 2. Biswal, T., Shadangi, K.P., Sarangi, P.K. 2023. Fly Ash Derived Catalyst for Biodiesel Production. Biorefinery Production of Fuels and Platform Chemicals, 203–232.
  • 3. Nahursky, O., Krylova, H., Vasiichuk, V., Kachan, S., Nahursky, A., Paraniak, N., Malovanyy, M. 2022. Utilisation of household plastic waste in technologies with final biodegradation. Ecological Engineering & Environmental Technology, 23(4), 94–100.
  • 4. Prabhu, R., Jeevananda, T., Reddy, K.R., Raghu, A.V. 2021. Polyaniline-fly ash nanocomposites synthesised via emulsion polymerisation: Physicochemical, thermal and dielectric properties. Materials Science for Energy Technologies, 4, 107–112.
  • 5. Sabadash, V., Gumnitsky, J., Lyuta, O. 2020. Combined adsorption of the copper and chromium cations by clinoptilolite of the Sokyrnytsya deposit. Journal of Ecological Engineering, 21(5), 42–46.
  • 6. Sabadash, V., Mylanyk, O., Matsuska, O., Gumnitsky, J. 2017. Kinetic regularities of copper ions adsorption by natural zeolite. Chemistry Chemical Technology, 4 (11), 459–462.
  • 7. Ge, J.C., Wu, G., Xu, G., Song, J. H., Choi, N. J. 2023. Synthesis of Polyvinyl Alcohol/Coal Fly Ash Hybrid Nano-Fiber Membranes for Adsorption of Heavy Metals in Diesel Fuel. Nanomaterials, 13(10), 1674–1688.
  • 8. Sydorchuk, O., Matsuska, O., Sabadash, V., Gumnitsky, J. 2014. Parallel-serial Adsorption of Phosphate Ions by Natural Sorbents. Eastern-European Journal of Enterprise Technologies, 6(6), 56–60.
  • 9. Sabadash, V., Gumnitsky, J., Lyuta, O., Pochapska, I. 2018. Thermodynamics of (NH4+) cation adsorption under static conditions. Chemistry & Chemical Technology, 12(2), 143–146.
  • 10. Hyvlud, A., Sabadash, V., Gumnitsky, J., Ripak, N. 2019.Statics and Kinetics of Albumin Adsorption by Natural Zeolite. Chemistry Chemical Technology, 13(1), 95–100.
  • 11. Zheng, K., Zhang, W., Li, Y., Ping, A., Wu, F., Xie, G., Xia, W. 2023. Enhancing flotation removal of unburned carbon from fly ash by coal tar-based collector: Experiment and simulation. Fuel, 332, 126023–12034.
  • 12. Zhang, W., Liu, C. 2019. The effect of diesel emulsification using sodium petroleum sulfonate on carbon flotation from fly ash. Waste Management, 98, 144–150.
  • 13. Paliulis, D. 2021. Experimental investigations of dynamic sorption of diesel from contaminated water. Archives of environmental protection, 47(4), 30–39.
  • 14. Mohammed, I.A., Jawad, A.H., Abdulhameed, A. S., Mastuli, M.S. 2020. Physicochemical modification of chitosan with fly ash and tripolyphosphate for removal of reactive red 120 dye: statistical optimisation and mechanism study. International journal of biological macromolecules, 161, 503–513.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fe2f8f71-3a15-4a6c-a4b9-b4bec0345afe
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