References

  1. M. Zamparas, D. Tzivras, V. Dracopoulos, T. Ioannides, Application of sorbents for oil spill cleanup focusing on naturalbased modified materials: a review, Molecules, 25 (2020) 4522, doi: 10.3390/molecules25194522.
  2. G. Shi, Y. Qian, F. Tan, W. Cai, Y. Li, Y. Cao, Controllable synthesis of pomelo peel-based aerogel and its application in adsorption of oil/organic pollutants, R. Soc. Open Sci., 6 (2019) 181823, doi: 10.1098/rsos.181823.
  3. H.-S. Guan, T.-T. Fan, H.-Y. Bai, Y. Su, Z. Liu, X. Ning, M. Yu, S. Ramakrishna, Y.-Z. Long, A waste biomass-derived photothermic material with high salt-resistance for efficient solar evaporation, Carbon, 188 (2022) 265–275.
  4. X. Yang, M. Guo, Y. Wu, Q. Wu, R. Zhang, Removal of emulsified oil from water by fruiting bodies of
    macro-fungus (Auricularia polytricha), PLoS One, 9 (2014) 0095162, doi: 10.1371/journal. pone.0095162.
  5. M. Mojžiš, T. Bubeníková, M. Zachar, D. Kačíková, J. Štefková, Comparison of natural and synthetic sorbents’ efficiency at oil spill removal, BioResources, 14 (2019) 8738–8752.
  6. B.B. Thombare, B.N. Barse, B.G. Barhate, S.M. Kolhe, H.B. Jagtap, Analysis of belt type oil skimmer,
    IJARIIEISSN(O), 4 (2018) 2395–4396.
  7. T.A. Saleh, Global trends in technologies and nanomaterials for removal of sulfur organic compounds: clean energy and green environment, J. Mol. Liq., 359 (2022) 119340, doi: 10.1016/j.molliq.2022.119340.
  8. T.A. Saleh, Advanced trends of shale inhibitors for enhanced properties of water-based drilling fluid, Upstream Oil Gas Technol., 8 (2022) 100069, doi: 10.1016/j.upstre.2022.100069.
  9. I.A. El Gheriany, F.A. El Saqa, A.A. El Razek Amer, M. Hussein, Oil spill sorption capacity of raw and thermally modified orange peel waste, Alexandria Eng. J., 59 (2020) 925–932.
  10. M.A. Mahmoud, Hydrodynamic separator unit for removal and recovery oil from wastewater, J. Pet. Environ. Biotechnol., 7 (2016) 2–8.
  11. R. Behnood, B. Anvaripour, N. Jaafarzadeh, M. Farasati, Oil spill sorption using raw and acetylated sugarcane bagasse, J. Cent. South Univ., 23 (2016) 1618–1625.
  12. T.R. Annunciado, T.H.D. Sydenstricker, S.C. Amico, Experimental investigation of various vegetable fibers as sorbent materials for oil spills, Mar. Pollut. Bull., 50 (2005) 1340–1346.
  13. M. Husseien, A.A. Amer, A. El-Maghraby, N.A. Taha, Availability of barley straw application on oil spill clean-up, Int. J. Environ. Sci. Technol., 6 (2009) 123–130.
  14. A.Q. Al-Gamal, T.A. Saleh, F.I. Alghunaimi, Nanofiltration membrane with high flux and oil rejection using graphene oxide/β-cyclodextrin for produced water reuse, Mater. Today Commun., 31 (2017) 103438, doi: 10.1016/j.mtcomm.2022.103438.
  15. B.O. Abdullahi, E. Ahmed, H. Al Abdulgader, F. Alghunaimi, T.A. Saleh, Facile fabrication of hydrophobic alkylamine intercalated graphene oxide as absorbent for highly effective oilwater separation, J. Mol. Liq., 325 (2021) 115057, doi: 10.1016/j.molliq.2020.115057.
  16. A.B. Olabintan, E. Ahmed, H. Al Abdulgader, T.A. Saleh, Hydrophobic and oleophilic amine-functionalised graphene/polyethylene nanocomposite for oil–water separation, Environ. Technol. Innovation, 27 (2022) 102391, doi: 10.1016/j.eti.2022.102391.
  17. D. Sidiras, F. Batzias, I. Konstantinou, M. Tsapatsis, Simulation of autohydrolysis effect on adsorptivity of wheat straw in the case of oil spill cleaning, Chem. Eng. Res. Des., 92 (2014) 1781–1791.
  18. F.B.P.S. Almeida, L. Meili, J.I. Soletti, K.P.S.O.R. Esquerre, L.M.O. Ribeiro, C.E. de Farias Silva, Oil produced water treatment using sugarcane solid residue as biosorbent, Rev. Mex. Ing. Chim., 18 (2019) 27–38.
  19. J. Wang, F. Han, B. Liang, G. Geng, Hydrothermal fabrication of robustly superhydrophobic cotton fibers for efficient separation of oil/water mixtures and oil-in-water emulsions, J. Ind. Eng. Chem., 54 (2017) 174–183.
  20. A. Srinivasan, T. Viraraghavan, Removal of oil by walnut shell media, Bioresour. Technol., 99 (2008) 8217–8220.
  21. J.C. Onwuka, E.B. Agbaji, V.O. Ajibola, F.G. Okibe, Treatment of crude oil-contaminated water with chemically modified natural fiber, Appl. Water Sci., 8 (2018) 86, doi: 10.1007/s13201-018-0727-5.
  22. M.A. Mahmoud, Oil spill cleanup by raw flax fiber: Modification effect, sorption isotherm, kinetics and thermodynamics, Arabian J. Chem., 13 (2020) 5553–5563.
  23. M.A. Abdullah, M. Afzaal, Z. Ismail, A. Ahmad, M.S. Nazir, A.H. Bhat, Comparative study on structural modification of Ceiba pentandra for oil sorption and palm oil mill effluent treatment, Desal. Water Treat., 54 (2014) 3044–3053.
  24. E. Khan, W. Virojnagud, T. Ratpukdi, Use of biomass sorbents for oil removal from gas station runoff, Chemosphere, 57 (2004) 681–689.
  25. A. Pasila, A biological oil adsorption filter, Mar. Pollut. Bull., 49 (2004) 1006–1012.
  26. M. Haussard, I. Gaballah, N. Kanari, Ph. de Donato, O. Barrès, F. Villieras, Separation of hydrocarbons and lipid from water using treated bark, Water Res., 37 (2003) 362–374.
  27. T. Fan, Y. Su, Q. Fan, Z. Li, W. Cui, M. Yu, X. Ning, S. Ramakrishna, Y. Long, Robust graphene@PPS fibrous membrane for harsh environmental oil/water separation and all-weather cleanup of crude oil spill by joule heat and photothermal effect, ACS Appl. Mater. Interfaces, 13 (2021) 19377–19386.
  28. A. Abutaleb, N. Zouli, O.Y. Bakather, M.A. Mahmoud, Performance evaluation of Solanum incanum leaves as a biodegradable adsorbent for oil-spill cleanup in seawater, Desal. Water Treat., 233 (2021) 182–189.
  29. S. Viju, G. Thilagavathi, B. Vignesh, R. Brindha, Oil sorption behavior of acetylated nettle fiber, Desal. Water Treat., 110 (2019) 1415–1423.
  30. F.L. Motta, S.R. Stoyanov, J.B.P. Soares, Development and application of an amylopectin-graft-poly(methyl acrylate) solidifier for rapid and efficient containment and recovery of heavy oil spills in aqueous environments, Chemosphere, 236 (2019) 124352, doi: 10.1016/j.chemosphere.2019.124352.
  31. M.A. Mahmoud, A. Abutaleb, I.M.H. Maafa, I.Y. Qudsieh, E.A. Elshehy, Synthesis of polyvinylpyrrolidone magnetic activated carbon for removal of Th(IV) from aqueous solution, Environ. Nanotechnol. Monit. Manage., 11 (2019) 100191, doi: 10.1016/j.enmm.2018.10.006.
  32. A. Abutaleb, A.M. Tayeb, M.A. Mahmoud, A.M. Daher, O.A. Desouky, O.Y. Bakather, R. Farouq, Removal and recovery of U(VI) from aqueous effluents by flax fiber: adsorption, desorption and batch adsorber proposal, J. Adv. Res., 22 (2020) 153–162.