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مقالات فارسیISIکنفرانسهاژورنالها

Remediation technologies for oil contaminated soil

Publish place: Global Journal of Environmental Science and Management، Vol: 7، Issue: 3
Publish Year: 1400
نوع سند: مقاله ژورنالی
زبان: English
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https://civilica.com/doc/1225767

شناسه ملی سند علمی:

JR_GJESM-7-3_007

تاریخ نمایه سازی: 18 خرداد 1400

Abstract:

Crude oil continues to impact many nations as it is among the major sources of fuel.  Its role in making life in modern societies comfortable cannot be overemphasized as it is readily available and easy to use. Contamination resulting from its use in industries such as mining, transportation and petroleum especially soil contamination cannot be overlooked. Soil pollution resulting from oil contamination can be seen as being among the twenty-first-century vulnerabilities because if not well taken care of the consequences can be devastating. Soil contamination is of interest in most societies because it affects both the environment and humans. This review highlights common sources of soil pollution and their effects, oil waste disposal methods, soil remediation techniques that are well established and those still in their infancy. Such techniques include bioremediation such as phytoremediation and landfarming, where percent removal of contaminated soils was reported from ۶۸% to ۸۹ % in ۴۰ days to ۱ year, respectively; physical methods such as excavation and incineration (۷۵-۸۶% removal); chemical methods such as oxidation (۴۸ % by Fenton process); and photocatalysis (۶۷% using titanium dioxide). The choice of remediation in mining, transportation and petroleum industries depends on the urgency and hazardous effects of the pollutant. In Zambia, Mopani Copper Mines uses landfarming as a means to mitigate large amounts of soil contaminated with oil wastes, but the process is slow. In the proposed research, photocatalysis coupled with adsorption of oil on clay will be used to assess the effectiveness of this emerging technology to quicken the degradation of oil in soils. Clay will be incorporated with metal ions and with hydrophobic groups to enhance light absorption and oil-clay interaction, respectively. Photochemical remediation techniques for remediation of soils polluted with oil have attracted considerable interest as the processes are reported to enhance the degradation of oils in soil compared to the biological and physical methods. The extent of photo-degradation of oil waste will be evaluated using the Soxhlet technique by determining the percent residual oil. The importance of remediating contaminated soil in any nation cannot be overemphasized as consequences of not remediating this precious resource might be devastating. Since economic development through industrialization will continue, there is need to constantly improve on methods of mitigating the impact of wastes on the environment, especially in developing countries, where engineering of cheap, nontoxic materials for soil remediation is paramount. ========================================================================================== COPYRIGHTS©۲۰۲۱ The author(s). This is an open access article distributed under the terms of the Creative Commons Attribution (CC BY ۴.۰), which permits unrestricted use, distribution, and reproduction in any medium, as long as the original authors and source are cited. No permission is required from the authors or the publishers. ==========================================================================================  

Keywords:

Hydrocarbons , landfarming , Oil-contaminated soil , Photocatalysis , Remediation

Authors

M. Mambwe

Department of Chemistry, School of Mathematics and Natural Sciences, The Copperbelt University, Kitwe, Zambia

K. Kalebaila

Department of Chemistry, School of Mathematics and Natural Sciences, The Copperbelt University, Kitwe, Zambia

T. Johnson

Department of Biological Sciences, School of Mathematics and Natural Sciences, The Copperbelt University, Kitwe, Zambia

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  • Abdulsalam, S.; Bugaje, I.M.; Adefila, S.S.; Ibrahim, S., (۲۰۱۱). Comparison of ...
  • Achugasim, D.; Osuji, L.; Ojinnaka, C., (۲۰۱۱). Use of activated ...
  • Adipah, S., (۲۰۱۸). Remediation of Petroleum Hydrocarbons Contaminated Soil by ...
  • Adlane, B.; Xu, Z.; Xu, X.; Liang, L.; Han, J.; ...
  • Ahmad, A.A.; Muhammad, I.; Shah, T.; Kalwar, Q.; Zhang, J.; ...
  • Akpoveta, V.O.; Osakwe, S.; Egharevba, F.; Medjor, W.O.; Asia, I.O.; ...
  • Ali, W.A., (۲۰۱۹). Biodegradation and phytotoxicity of crude oil hydrocarbons ...
  • Amin, M.M.; Hatamipour, M.S.; Momenbeik, F.; Mohammadi-moghadam, F., (۲۰۱۴). Soil ...
  • Anthony, E.J.; Wang, J., (۲۰۰۶). Pilot plant investigations of thermal ...
  • Ashraf, A.M.; Maah, M.J.; Yusoff, I., (۲۰۱۴). Soil Contamination, Risk ...
  • Atlas, R.M.; Stoeckel, D.M.; Faith, S.A.; Minard-Smith, A.; Thorn, J.R.; ...
  • Azubuike, C.C.; Chioma, B.C.; Okpokwasili, G.C., (۲۰۱۶). Bioremediation techniques – ...
  • Ball, A.S.; Steward, R.J.; Schliephake, K., (۲۰۱۲). A review of ...
  • Banerjee, S.; Pillai, S.C.; Falaras, P.; O’Shea, K.E.; Byrne, J.A.; ...
  • Borowik, A.; Wyszkowska, J., (۲۰۱۸). Response of Avena sativa L. ...
  • Brame, J.A.; Hong, S.W.; Lee, J.; Lee, S.H.; Alvarez, P.J.J., ...
  • Chen, C.; Feng, H.; Deng, Y., (۲۰۱۹). Re-evaluation of sulfate ...
  • Cheng, M.; Zeng, G.; Huang, D.; Lai, C.; Xu, P.; ...
  • Chibwe, L.; Geier, M.C.; Nakamura, J.; Tanguay, R.L.; Aitken, M.D.; ...
  • Clark, C.D.; De Bruyn, W.J.; Ting, J.; Scholle, W., (۲۰۰۷). ...
  • Collings, A.F.; Gwan, P.B.; Pintos, A.P.S., (۲۰۰۷). Soil Remediation Using ...
  • Cook, R.L.; Hesterberg, D., (۲۰۱۳). Comparison of Trees and Grasses ...
  • Dadrasnia, A.; Agamuthu, P., (۲۰۱۴). Biostimulation and monitoring of diesel ...
  • Dadrasnia, A.; Agamuthu, P., (۲۰۱۳). Dynamics of diesel fuel degradation ...
  • de Andrade Lima, L.R.P.; Bernardez, L.A.; dos Santos, M.G.; Souza, ...
  • Derudi, M.; Venturini, G.; Lombardi, G.; Nano, G.; Rota, R., ...
  • Deshmukh, K.; Kovářík, T.; Křenek, T.; Docheva, D.; Stich, T.; ...
  • Devatha, C.P.; Vishal, A.V.; Rao, J.P.C., (۲۰۱۹). Investigation of physical ...
  • Diphare, M.; Muzenda, E., (۲۰۱۴). Remediation of Oil Contaminated Soils: ...
  • dos Santos, J.J.; Maranho, L.T., (۲۰۱۸). Rhizospheric microorganisms as a ...
  • Effendi, A.J.; Wulandari, M. (۲۰۱۹).The impact of ultrasonic power and ...
  • Effendi, A.J.; Aminati, T., (۲۰۱۹). Enhancing Bioremediation of Crude Oil ...
  • Emami, S.; Pourbabaei, A.A.; Alikhani, H.A., (۲۰۱۴). Interactive effect of ...
  • Ershadi, L.; Ebadi, T.; Ershadi, V., (۲۰۱۱). Chemical oxidation of ...
  • Ezenne, G.I.; Nwoke, O.A.; Ezikpe, D.E.; Obalum, S.E.; Ugwuishiwu, B.O., ...
  • Falciglia, P.P.; Giustra, M.G.; Vagliasindi, F.G.A., (۲۰۱۱). Low-temperature thermal desorption ...
  • Galus, M.; Kirischian, N.; Higgins, S.; Purdy, J.; Chow, J.; ...
  • Gao, S.; Liang, J.; Teng, T.; Zhang, M., (۲۰۱۹). Petroleum ...
  • Gitipour, S.; Narenjkar, K.; Farvash, E.S.; Asghari, H., (۲۰۱۴). Soil ...
  • Godoy-Faúndez, A.; Antizar-Ladislao, B.; Reyes-Bozo, L.; Camaño, A.; Sáez-Navarrete, C., ...
  • Goi, A.; Kulik, N.; Trapido, M., (۲۰۰۶). Combined chemical and ...
  • Grenni, P., (۲۰۱۱). Effects of pesticides and pharmaceuticals on soil ...
  • Guarino, C.; Spada, V.; Sciarrillo, R., (۲۰۱۷). Assessment of three ...
  • Guerra, A.B.; Oliveira, J.S.; Silva-Portela, R.C.B.; Araújo, W.; Carlos, A.C.; ...
  • Hadnadjev-Kostic, M.; Vulic, T.; Marinkovic-Neducin, R., (۲۰۱۴). Solar light induced ...
  • Hamzah, A.; Phan, C.; Yong, P.;Ridzuan, N.H.M., (۲۰۱۴). An Oil ...
  • Hansen, K. A., (۲۰۱۷). Physical spill countermeasures on water-response in ...
  • Havugimana, E.; Bhople, B. S.; Kumar, A.; Byiringiro, E.; Mugabo, ...
  • Hernando, M.D.; Mezcua, M.; Fernández-Alba, A.R.; Barceló, D., (۲۰۰۶). Environmental ...
  • Huang, Y.; Pan, H.; Wang, Q.; Ge, Y.; Liu, W.; ...
  • Javorská, H.; Tlustoš, P.; Komárek, M.; Leštan, D.; Kaliszová, R.; ...
  • Jebeli, M.T.; Heidarzadeh, N.; Gitipour, S., (۲۰۱۹). Pollution potential of ...
  • Jernelöv, A., (۲۰۱۰). The Threats from Oil Spills: Now, Then, ...
  • Jung, H.; Ahn, Y.; Choi, H.; Kim, I.S., (۲۰۰۵). Effects ...
  • Kamath, R.; Rentz, J.A.; Schnoor, J.L.; Alvarez, P.J.J., (۲۰۰۴). Phytoremediation ...
  • Kapoor, D., (۲۰۱۵). Impact of pharmaceutical industries on environment, health ...
  • Karbassi, A.R.; Pazoki, M., (۲۰۱۵). Environmental qualitative assessment of rivers ...
  • Khan, F. I.; Husain, T.; Hejazi, R., (۲۰۰۴). An overview ...
  • Khan, M.N.; Mobin, M.; Zahid, A..; Alamri, S. (۲۰۱۷). Fertilizers ...
  • Kim, A.W.; Vane, C.H.; Engelhart, S.E.; Kemp, A.C., (۲۰۱۸). PAH ...
  • Lim, M.W.; Lau, E.V.; Poh, P.E., (۲۰۱۶). A comprehensive guide ...
  • Li, J.; Song, X.; Hu, G.; Thring, R.W., (۲۰۱۳). Ultrasonic ...
  • Li, Y.; Sallach, J.B.; Zhang, W.; Boyd, S.A.; Li, H., ...
  • Liu, J.; Zhang, G., (۲۰۱۴). Recent advances in synthesis and ...
  • Liu, Q.; Li, Q.; Wang, N.; Liu, D.; Zan, L.; ...
  • Lombi, E.; Hamon, R.E., (۲۰۰۵). Remediation of Polluted Soils. Encyclopedia ...
  • Maila, M.P.; Cloete, T.E., (۲۰۰۴). Bioremediation of petroleum hydrocarbons through ...
  • McCarthy, K.; Walker, L.; Vigoren, L.; Bartel, J., (۲۰۰۴). Remediation ...
  • Merkl, N.; Schultze-Kraft, R.; Infante, C., (۲۰۰۵). Assessment of tropical ...
  • Moon, D.H.; Park, J.W.; Koutsospyros, A.; Cheong, K.H.; Chang, Y.Y.; ...
  • Moreira, I.T.A.; Oliveira, O.M.C.; Triguis, J.A.; Queiroz, A.F.S.; Ferreira, S.L.C.; ...
  • Morelli, B.; Hawkins, T.R; Niblick, B.; Henderson, A.D.; Golden, H.E.; ...
  • Mosbech, A., (۲۰۰۲). Potential environmental impacts of oil spills in ...
  • Mosco, M.J.; Zytner, R.G., (۲۰۱۷). Large-scale bioventing degradation rates of ...
  • Narayan, R., (۲۰۱۰). Titania: a material-based approach to oil spill ...
  • Nedunuri, K.V.; Govindaraju, R.S.; Banks, M.K.; Schwab, A.P.; Chen, Z., ...
  • New climate economy., (۲۰۱۴). Better Growth Better Climate. The New ...
  • Ogunkeyede, A.O., (۲۰۱۶). Conventional and microwave pyrolysis remediation of crude ...
  • Okonofua, E.S.; Babatola, J.O.; Ojuri, O.O.; Lasisi, K.H., (۲۰۲۰). Determination ...
  • Park, E.; Zhan, H., (۲۰۰۳). Hydraulics of horizontal wells in ...
  • Pashkevich, M.A., (۲۰۱۷). Classification and Environmental Impact of Mine Dumps. ...
  • Paudyn, K.; Rutter, A.; Kerry Rowe, R.; Poland, J.S., (۲۰۰۸). ...
  • Peng, S.; Zhou, Q.; Cai, Z.; Zhang, Z., (۲۰۰۹). Phytoremediation ...
  • Pomati, F.; Orlandi, C.; Clerici, M.; Luciani, F.; Zuccato, E., ...
  • Rajabi, H.; Sharifipour, M., (۲۰۱۹). Geotechnical properties of hydrocarbon-contaminated soils: ...
  • Reicosky, D., (۲۰۱۸). Managing soil health for sustainable agriculture Volume ۱: ...
  • Ren, J.; Song, X.; Ding, D., (۲۰۱۹). Sustainable remediation of ...
  • Rostami, S.; Azhdarpoor, A., (۲۰۱۹). The application of plant growth ...
  • Roy, A.S.; Baruah, R.; Borah, M.; Singh, A.K.; Boruah, H.P.D.; ...
  • Ruley, J.A.; Amoding, A.; Tumuhairwe, J.B.; Basamba, T.A.; Opolot, E.; ...
  • Rushton, D.G.; Ghaly, A.E.; Martinell, K., (۲۰۰۷). Assessment of canadian ...
  • Russo, L.; Rizzo, L.; Belgiorno, V., (۲۰۱۲). Ozone oxidation and ...
  • Sethi, S.; Gupta, P., (۲۰۲۰). Soil Contamination: A Menace to ...
  • Shen, Y.; Chen, X.; Wang, J.; Ge, X.; Chen, M., ...
  • Sharma, S., (۲۰۱۲). Bioremediation: Features, Strategies and applications. Asian J. ...
  • Shrestha, R.A.; Pham, T.D.; Sillanpää, M., (۲۰۰۹). Effect of ultrasound ...
  • Singh, B.; Bhattacharya, A.; Channashettar, V.A.; Jeyaseelan, C.P.; Gupta, S.; ...
  • Sivakumar, D., (۲۰۱۵). Hexavalent chromium removal in a tannery industry ...
  • Soleimani, M.; Afyuni, M.; Hajabbasi, M.A.; Nourbakhsh, F.; Sabzalian, M.R.; ...
  • Speight, J.G., (۲۰۱۸). Reaction Mechanisms in Environmental Engineering. Analysis and ...
  • Srivastava, M.; Srivastava, A.; Yadav, A.; Rawat, V., (۲۰۱۹). Source ...
  • Stamets, L.D.C., (۲۰۱۳). Best Mycorestoration Practices for Habitat Restoration of ...
  • Su, C.; Jiang, L.; Zhang, W., (۲۰۱۴). A review on ...
  • Sutton, N.B.; Kalisz, M.; Krupanek, J.; Marek, J.; Grotenhuis, T.; ...
  • Szulc, A.; Ambrożewicz, D.; Sydow, M.; Ławniczak,Ł.; Piotrowska-Cyplik, A.; Marecik, ...
  • Thomé, A.; Reginatto, C.; Cecchin, I.; Colla, L.M., (۲۰۱۴). Bioventing ...
  • Valentine, D.L.; Kessler, J.D.; Redmond, M.C.; Mendes, S.D.; Heintz, M.B.; ...
  • van der Heul, R.M., (۲۰۰۹). Environmental Degradation of petroleum hydrocarbons. ...
  • Varjani, S.J.; Rana, D.P.; Jain, A.K.; Bateja, S.; Upasani, V.N., ...
  • Vidonish, J.E.; Zygourakis, K.; Masiello, C.A.; Sabadell, G.; Alvarez, P.J.J., ...
  • Wang, S.; Xu, Y.; Lin, Z.; Zhang,J.; Norbu, N.; Liu, W., (۲۰۱۷). ...
  • Xu, X.; Liu, W.; Tian, S.; Wang, W.; Qi, Q.; ...
  • Yakubu, M.B., (۲۰۰۷). Biological approach to oil spills remediation in ...
  • Yang, Y.; Javed, H.; Zhang, D.; Li, D.; Kamath, R.; ...
  • Yuvaraj, M.; Mahendran, P.P., (۲۰۲۰). Soil Pollution Causes and Mitigation ...
  • Zamudio-pérez, E.; Bandala, E.R.; Fernandez, L.C.; Torres, L.G., (۲۰۱۳). Surfactant ...
  • Zhang, H.; Yuan, X.; Xiong, T.; Wang, H.; Jiang, L., ...
  • Zhang, C.; Wu, D.; Ren, H., (۲۰۲۰b). Bioremediation of oil ...
  • Zhang, L.; Li, P.; Gong, Z.; Li, X., (۲۰۰۸). Photocatalytic ...
  • Zhu, H.; Aitken, M.D., (۲۰۱۰). Surfactant-enhanced desorption and biodegradation of ...
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