References

  1. M. Frenkel-Pinter, V. Rajaei, J.B. Glass, N.V. Hud, L.D.Williams, Water and life: the medium is the message, J. Mol. Evol., 89 (2021) 2–11.
  2. E. Del Giudice, P.R. Spinetti, A. Tedeschi, Water dynamics at the root of metamorphosis in living organisms, Water, 2 (2010) 566–586.
  3. UNEP, Water Quality for Ecosystem and Human Health, 2nd ed., United Nations Environment Programme, Ontario, 2008, pp. 1–130.
  4. M. Thakur, D. Pathania, Chapter 12 – Environmental Fate of Organic Pollutants and Effect on Human Health, P. Singh, A. Kumar, A. Borthakur, Eds., Abatement of Environmental Pollutants: Trends and Strategies, Elsevier, 2020, pp. 245–262.
  5. M. Ammar, E. Yousef, M.A. Mahmoud, S. Ashraf, J. Baltrusaitis, A comprehensive review of the developments in electrocoagulation for the removal of contaminants from wastewater, Separations, 10 (2023) 337, doi: 10.3390/separations10060337.
  6. M.N. Rashed, Adsorption Technique for the Removal of Organic Pollutants From Water and Wastewater, M. Nageeb Rashed, Ed., Organic Pollutants - Monitoring, Risk and Treatment, InTechOpen, 2013, pp. 167–194.
  7. D. Zhu, Q. Zhou, Action and mechanism of semiconductor photocatalysis on degradation of organic pollutants in water treatment: a review, Environ. Nanotechnol. Monit. Manage., 12 (2019) 100255, doi: 10.1016/j.enmm.2019.100255.
  8. E. Lois, E. Keating, A. Gupta, Fuel, in: Encyclopedia of Physical Science and Technology, 3rd ed., Academic Press, 2003, pp. 275–314.
  9. Y. Zvirin, M. Gutman, L. Tartakovsky, Chapter 16 – Fuel Effects on Emissions, E. Sher, Ed., Handbook of Air Pollution From Internal Combustion Engines: Pollutant Formation and Control, Academic Press, 1998,
    pp. 547–651.
  10. J.G. Speight, Hydrocarbons From Crude Oil, in: Handbook of Industrial Hydrocarbon Processes, 2nd ed., Gulf Professional Publishing, 2020, pp. 95–142.
  11. J.G. Speight, Handbook of Petroleum Refining, Feedstock Composition, CRC Press, Boca Raton, 2016, pp. 101–142.
  12. R.J. Ouellette, J.D. Rawn, Alkanes and Cycloalkanes: Structures and Reactions Structure, Mechanism, and Synthesis, Elsevier, San Diego, 2014, pp. 111–161.
  13. R.J. Ouellette, J.D. Rawn, Principles of Organic Chemistry, Elsevier, San Diego, 2015, pp. 65–94.
  14. R. Sadeghbeigi, Chapter 3 – FCC Feed Characterization, R. Sadeghbeigi, Ed., Fluid Catalytic Cracking Handbook, Elsevier, Massachusetts, 2012, pp. 51–86.
  15. M.A. Fahim, T.A. Al-Sahhaf, A.S. Elkilani, Fundamentals of Petroleum Refining, Elsevier, Amsterdam, 2010.
  16. S.C. Gad, Diesel Fuel, in: Encyclopedia of Toxicology, 2nd ed., Academic Press, 2005, pp. 19–22.
  17. S. Safari, M. Azadi Aghdam, H.-R. Kariminia, Electrocoagulation for COD and diesel removal from oily wastewater, Int. J. Environ. Sci. Technol., 13 (2016) 231–242.
  18. M.H. El-Naas, S. Al-Zuhair, A. Al-Lobaney, S. Makhlouf, Assessment of electrocoagulation for the treatment of petroleum refinery wastewater, J. Environ. Manage., 91 (2009) 180–185.
  19. A. Verma, X. Wei, A. Kusiak, Predicting the total suspended solids in wastewater: a data-mining approach, Eng. Appl. Artif. Intell., 26 (2013) 1366–1372.
  20. H.I. Eldos, M. Khan, N. Zouari, S. Saeed, M.A. Al-Ghouti, Characterization and assessment of process water from oil and gas production: a case study of process wastewater in Qatar, Case Stud. Chem. Environ. Eng., 6 (2022) 100210, doi: 10.1016/j.cscee.2022.100210.
  21. X. Chen, G. Chen, P. Lock, Investigation on the electrolysis voltage of electrocoagulation, Chem. Eng. Sci., 57 (2002) 2449–2455.
  22. M. Carmona, M. Khemis, J.P. Leclerc, F. Lapicque, A simple model to predict the removal of oil suspensions from water using the electrocoagulation technique, Chem. Eng. Sci., 61 (2006) 1237–1246.
  23. A. Benhadji, M.T. Ahmed, R. Maachi, Electrocoagulation and effect of cathode materials on the removal of pollutants from tannery wastewater of Rouïba, Desalination, 1–3 (2011) 128–134.
  24. S. Manikandan, R. Saraswathi, Electrocoagulation technique for removing organic and inorganic pollutants (COD) from the various industrial effluents: an overview, Environ. Eng. Res., 28 (2023) 220231, doi: 10.4491/eer.2022.231.
  25. C. An, G. Huang, Y. Yao, S. Zhao, Emerging usage of electrocoagulation technology for oil removal from wastewater: a review, Sci. Total Environ., 559 (2017) 537–556.
  26. A.W. Kalsido, B. Tekola, B. Mogessie, E. Alemayehu, Chapter 19 – Excess Fluoride Issues and Mitigation Using Low-Cost Techniques From Groundwater: A Review, S. Kathi, S. Devipriya, K. Thamaraiselvi, Eds., Cost Effective Technologies for Solid Waste and Wastewater Treatment: Advances in Environmental Pollution Research, Elsevier, 2022, pp. 241–263.
  27. P.V. Nidheesh, F.M. Khan, A. Kadier, J. Akansha, M.E. Bote, M. Mousazadeh, Removal of nutrients and other emerging inorganic contaminants from water and wastewater by electrocoagulation process, Chemosphere, 307 (2022) 135756, doi: 10.1016/j.chemosphere.2022.135756.
  28. M.E. Bote, Studies on electrode combination for COD removal from domestic wastewater using electrocoagulation, Heliyon, 7 (2021) e08614, doi: 10.1016/j.heliyon.2021.e08614.
  29. A. Othmani, A. Kadier, R. Singh, C.A. Igwegbe, M. Bouzid, Md.O. Aquatar, W.A. Khanday, M.E. Bote, F. Damiri, Ö. Gökkuş, F. Sher, A comprehensive review on green perspectives of electrocoagulation integrated with advanced processes for effective pollutants removal from water environment, Environ. Res., 215 (2022) 114294, doi: 10.1016/j.envres.2022.114294.
  30. H. Hu, K. Xu, Chapter 8 – Physico-chemical Technologies for HRPs and Risk Control, H. Ren, X. Zhang, Eds., High-Risk Pollutants in Wastewater, Cambridge, Elsevier, 2020, pp. 169–207.
  31. S. García-Segura, M.M.S.G. Eiband, J.V. de Melo, C.A. Martínez-Huitle, Electrocoagulation and advanced electrocoagulation processes: a general review about the fundamentals, emerging applications and its association with other technologies, J. Electroanal. Chem., 801 (2017) 267–299.
  32. Y. Feng, L. Yang, J. Liu, B.E. Logan, Electrochemical technologies for wastewater treatment and resource reclamation, Environ. Sci. Water Res. Technol., 2 (2016) 800–831.
  33. B. Chen, M. Wang, M. Duan, X. Ma, J. Hong, F. Xie, R. Zhang, X. Li, In search of key: protecting human health and the ecosystem from water pollution in China, J. Cleaner Prod., 228 (2019) 101–111.
  34. G.K. Singh, N.B. Singh, S.P.Shukla, Markandeya, Remediation of COD and color from textile wastewater using dual stage electrocoagulation process, SN Appl. Sci., 1 (2019) 1000, doi: 10.1007/s42452-019-1046-7.
  35. M.Y.A. Mollah, R. Schennach, J.R. Parga, D.L. Cocke, Electrocoagulation (EC) — science and applications, J. Hazard. Mater., 84 (2001) 29–41.
  36. A.A. Moneer, W.M. Thabet, M. Khedawy, M.M. El-Sadaawy, N.A. Shaaban, Electrocoagulation process for oily wastewater treatment and optimization using response surface methodology, Int. J. Environ. Sci. Technol., 20 (2023) 13859–13872.
  37. T.J. Mohammed, H.A. Al-Zuheri, Application of response surface methodology for analysis and optimization of the operational parameters for turbidity removal from oily wastewater by electrocoagulation process, IOP Conf. Ser.: Mater. Sci. Eng., 454 (2018) 012069, doi: 10.1088/1757-899X/454/1/012069.
  38. E. Bazrafshan, L. Mohammadi, A. Ansari-Moghaddam, A.H. Mahvi, Heavy metals removal from aqueous environments by electrocoagulation process – a systematic review, J. Environ. Health Sci. Eng., 13 (2015) 74, doi: 10.1186/s40201-015-0233-8.
  39. Y.O. Fouad, Separation of cottonseed oil from oil–water emulsions using electrocoagulation technique, Alexandria Eng. J., 53 (2014) 199–204.
  40. M. Priya, J. Jeyanthi, Removal of COD, oil and grease from automobile wash water effluent using electrocoagulation technique, Microchem. J., 150 (2019) 104070, doi: 10.1016/j.microc.2019.104070.
  41. İ.A. Şengil, M. Özacar, Treatment of dairy wastewaters by electrocoagulation using mild steel electrodes, J. Hazard. Mater., 167 (2009) 940–946.
  42. M. Kobya, H. Hiz, E. Senturk, C. Aydiner, E. Demirbas, Treatment of potato chips manufacturing wastewater by electrocoagulation, Desalination, 190 (2006) 201–211.
  43. M. Zaied, N. Bellakhal, Electrocoagulation treatment of black liquor from paper industry, J. Hazard. Mater., 163 (2009) 995–1000.
  44. R. Shankar, L. Singh, P. Mondal, S. Chand, Removal of lignin from wastewater through electro-coagulation, World J. Environ. Eng., 1 (2013) 16–20.
  45. F. Liu, Z. Zhang, Z. Wang, X. Li, X. Dai, L. Wang, X. Wang, Z. Yuan, J. Zhang, M. Chen, S. Wang, Experimental study on treatment of tertiary oil recovery wastewater by electrocoagulation, Chem. Eng. Process. Process Intensif., 144 (2019) 107640, doi: 10.1016/j.cep.2019.107640.
  46. C.B. Shivayogimath, C. Watawati, Treatment of solid waste leachate by electrocoagulation technology, Int. J. Res. Eng. Technol., (2013) 266–269.
  47. G. Varank, H. Erkan, S. Yazýcý, A. Demir, G. Engin, Electrocoagulation of tannery wastewater using monopolar electrodes: process optimization by response surface methodology, Int. J. Environ. Res., 8 (2014) 165–180.
  48. D. Valero, J.M. Ortiz, V. García, E. Expósito, V. Montiel, A. Aldaz, Electrocoagulation of wastewater from almond industry, Chemosphere, 84 (2011) 1290–1295.
  49. D.T. Moussa, M.H. El-Naas, M. Nasser, M.J. Al-Marri, A comprehensive review of electrocoagulation for water treatment: potentials and challenges, J. Environ. Manage., 186 (2017) 24–41.
  50. A. Kadier, Z. Al-Qodah, G.K. Akkaya, D. Song, J.M. Peralta- Hernández, J.Y. Wang, C. Phalakornkule, M. Bajpai, N.M. Niza, V. Gilhotra, M.E. Bote, Q. Ma, C.C. Obi, C.A. Igwegbe, A state-of-the-art review on electrocoagulation (EC): an efficient, emerging, and green technology for oil elimination from oil and gas industrial wastewater streams, Case Stud. Chem. Environ. Eng., 6 (2022) 100274, doi: 10.1016/j.cscee.2022.100274.
  51. A.H. Essadki, M. Bennajah, B. Gourich, C. Vial, M. Azzi, H. Delmas, Electrocoagulation/electroflotation in an externalloop airlift reactor—application to the decolorization of textile dye wastewater: a case study, Chem. Eng. Process. Process Intensif., 48 (2008) 1211–1223.
  52. M. Bayramoglu, M. Kobya, M. Eyvaz, E. Senturk, Technical and economic analysis of electrocoagulation for the treatment of poultry slaughterhouse wastewater, Sep. Purif. Technol., 51 (2006) 404–408.
  53. K. Bensadok, N. El Hanafi, F. Lapicque, Electrochemical treatment of dairy effluent using combined Al and Ti/Pt electrodes system, Desalination, 280 (2011) 244–251.
  54. C.-H. Huang, S.-Y. Shen, C.-W. Chen, C.-D. Dong, M. Kumar, B. Dakshinamoorthy, J.-H. Chang, Effect of chloride ions on electro-coagulation to treat industrial wastewater containing Cu and Ni, Sustainability, 12 (2020) 7693, doi: 10.3390/su12187693.
  55. S.S. Alkurdi, A.H. Abbar, Removal of COD from petroleum refinery wastewater by electro-coagulation process using SS/Al electrodes, IOP Conf. Ser.: Mater. Sci. Eng., 870 (2020) 012052,
    doi: 10.1088/1757-899X/870/1/012052.
  56. P.V. Ngobeni, M. Basitere, A. Thole, Treatment of poultry slaughterhouse wastewater using electrocoagulation: a review, Water Pract. Technol., 17 (2022) 38–59.
  57. N.S. Graça, A.M. Ribeiro, A.E. Rodrigues, Modeling the electrocoagulation process for the treatment of contaminated water, Chem. Eng. Sci., 197 (2019) 379–385.
  58. H. Liu, X. Zhao, J. Qu, Electrocoagulation in Water Treatment, in: Electrochemistry for the Environment, Springer, 2010, pp. 245–262.
  59. X. Chen, G. Chen, P.L. Yue, Separation of pollutants from restaurant wastewater by electrocoagulation, Sep. Purif. Technol., 19 (2000) 65–76.
  60. A.M. Manilal, P.A. Soloman, C.A. Basha, Removal of oil and grease from produced water using electrocoagulation, J. Hazard. Toxic Radioact. Waste, 24 (2019) 1–13.
  61. D. Ghernaout, A. Badis, A. Kellil, B. Ghernaout, Application of electrocoagulation in Escherichia coli culture and two surface waters, Desalination, 219 (2008) 118–125.
  62. J.N. Hakizimana, B. Gourich, M. Chafi, Y. Stiriba, C. Vial, P. Drogui, J. Naja, Electrocoagulation process in water treatment: a review of electrocoagulation modeling approaches, Desalination, 404 (2017) 1–21.
  63. J.A.G. Gomes, P. Daida, M. Kesmez, M. Weir, H. Moreno, J.R. Parga, G. Irwin, H. McWhinney, T. Grady, E. Peterson, D.L. Cocke, Arsenic removal by electrocoagulation using combined Al–Fe electrode system and characterization of products, J. Hazard. Mater., 139 (2007) 220–231.
  64. M.B. Sasson, W. Calmano, A. Adin, Iron-oxidation processes in an electroflocculation (electrocoagulation) cell, J. Hazard. Mater., 171 (2009) 704–709.
  65. E.T. Al-Hanif, A.Y. Bagastyo, Electrocoagulation for drinking water treatment: a review, IOP Conf. Ser.: Earth Environ. Sci., 623 (2021) 012016, doi: 10.1088/1755-1315/623/1/012016.
  66. E. Gengec, M. Kobya, E. Demirbas, A. Akyol, K. Oktor, Optimization of baker’s yeast wastewater using response surface methodology by electrocoagulation, Desalination, 286 (2012) 200–209.
  67. J.M. Ebeling, P.L. Sibrell, S.R. Ogden, S.T. Summerfelt, Evaluation of chemical coagulation–flocculation aids for the removal of suspended solids and phosphorus from intensive recirculating aquaculture effluent discharge, Aquacult. Eng., 29 (2003) 23–42.
  68. G. Moussavi, R. Khosravi, M. Farzadkia, Removal of petroleum hydrocarbons from contaminated groundwater using an electrocoagulation process: batch and continuous experiments, Desalination, 278 (2011) 288–294.
  69. M. Asselin, D. Patrick, H. Benmoussa, J.-F.Blais, Effectiveness of electrocoagulation process in removing organic compounds from slaughterhouse wastewater using monopolar and bipolar electrolytic cells, Chemosphere, 72 (2008) 1727–1733.
  70. S.O.A. Nassar, M.S. Yusoff, H. Halim, N.H.M. Kamal, M.J.K. Bashir, T.S.B.A. Manan, H.A. Aziz, A. Mojiri, Ultrasonic (US)-assisted electrocoagulation (EC) process for oil and grease (O&G) removal from restaurant wastewater, Separations, 10 (2023) 61, doi: 10.3390/separations10010061.
  71. E. Bazrafshan, H. Moein, F.K. Mostafapour, S. Nakhai, Application of electrocoagulation process for dairy wastewater treatment, J. Chem., 2013 (2013) 8, doi: 10.1155/2013/640139.
  72. M. Nasrullah, A.W. Zularisam, S. Krishnan, M. Sakinah, L. Singh, Y.W. Feng, High performance electrocoagulation process in treating palm oil mill effluent using high current intensity application, Chin. J. Chem. Eng., 27 (2019) 208–217.
  73. F.A. Nugroho, A.Z. Arif, G.Z.M. Sabila, P.T.P. Aryanti, Slaughterhouse wastewater treatment by electrocoagulation process, IOP Conf. Ser.: Mater. Sci. Eng., 1115 (2021) 012037,
    doi: 10.1088/1757-899X/1115/1/012037.
  74. J. Bratby, Chapter 16 – Turbidity: Measurement of Filtrate and Supernatant Quality?, S. Tarleton, Ed., Progress in Filtration and Separation, Academic Press, 2015, pp. 637–657.
  75. H. Rügner, M. Schwientek, B. Beckingham, B. Kuch, P. Grathwohl, Turbidity as a proxy for total suspended solids (TSS) and particle facilitated pollutant transport in catchments, Environ. Earth Sci., 69 (2013) 373–380.
  76. I. Al-Yaseri, S. Morgan, W. Retzlaff, Using turbidity to determine total suspended solids in storm-water runoff from green roofs, J. Environ. Eng., 139 (2013) 822–828.
  77. M.A. Jasim, F.Y. AlJaberi, Treatment of oily wastewater by electrocoagulation technology: a general review (2018–2022), J. Electrochem. Sci. Eng., 13 (2023) 361–372.
  78. V.K. Sangal, I.M. Mishra, J.P. Kushwaha, Electrocoagulation of soluble oil wastewater: parametric and kinetic study, Sep. Sci. Technol., 48 (2013) 1–11.
  79. S.O. Giwa, S. Ertunc, M. Alpbaz, H. Hapoglu, Electrocoagulation treatment of turbid petrochemical wastewater, Int. J. Adv. Sci. Technol., 5 (2012) 23–32.
  80. N. Gousmi, A. Sahmi, H.Z. Li, S. Poncin, R. Djebbar, K. Bensadok, Purification and detoxification of petroleum refinery wastewater by electrocoagulation process, Environ. Technol., 18 (2016) 2348–2357.
  81. W. Reátegui-Romero, S.A. Tuesta-Tinoco, C.E. Ochoa, J.A. Huamán-Ccopa, M.E. King-Santos, E.F. Estrada-Huamaní, B. Bulege-Gutierrez, R.A. Yuli-Posadas, V. Fernández-Guzmán, Electrocoagulation in batch mode for the removal of the chemical oxygen demand of an effluent from slaughterhouse wastewater in Lima Peru: Fe-and-Al electrodes, Desal. Water Treat., 202 (2020) 206–218.