References

1. S.L. Zheng, X.Y. Qiu, B. Chen, X.G. Yu, Z.H. Liu, G.P. Zhong, H.Y. Li, M. Chen, G.D. Sun, H. Huang, W.W. Yu, D. Freestone, Antibiotics pollution in Jiulong River estuary: source, distribution and bacterial resistance, Chemosphere, 84 (2011) 1677–1685.
2. I. Yahiaoui, F. Aissani-Benissad, F. Fourcade, A. Amrane, Removal of tetracycline hydrochloride from water based on direct anodic oxidation (Pb/PbO₂, electrode) coupled to activated sludge culture, Chem. Eng. J., 221 (2013) 418–425.
3. H. Wang, Y.H. Dong, Y.Y. Yang, G.S. Toor, X.M. Zhang, Changes in heavy metal contents in animal feeds and manures in an intensive animal production region of China, J. Environ. Sci., 25 (2013) 2435–2442.
4. L.G. Chen, X.P. Zhang, Y. Xu, X.B. Du, X. Sun, L. Sun, H. Wang, Q. Zhao, A.M. Yu, H.Q. Zhang, L. Ding, Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography–tandem mass spectrometry, Anal. Chim. Acta., 662 (2010) 31–38.
5. H.J. Shi, X. Xiao, L.X. Zeng, Q.Y. Zhang, J.M. Nan, L.S. Wang, Synthesis of three-dimensional (3D) hierarchical titanate nanoarchitectures from Ti particles and their photocatalytic degradation of tetracycline hydrochloride under visible-light irradiation, J. Nanosci. Nanotechnol., 14 (2014) 6934–6940.
6. X.Q. Wu, L.K. Dodgen, J.L. Conkle, J. Gan, Plant uptake of pharmaceutical and personal care products from recycled water and biosolids: a review, Sci. Total. Environ., 536 (2015) 655–666.
7. H.J. Haroosh, Y. Dong, K.T. Lau, Tetracycline hydrochloride (TCH)-loaded drug carrier based on PLA:PCL nanofibre mats: experimental characterisation and release kinetics modelling, J. Mater. Sci., 49 (2014) 6270–6281.
8. C.M. Han, E.J. Lee, H.E. Kim, Y.H. Koh, J.H. Jang, Porous TiO₂ films on Ti implants for controlled release of tetracycline-hydrochloride (TCH), Thin Solid Films, 519 (2011) 8074–8076.
9. V. Homem, L. Santos, Degradation and removal methods of antibiotics from aqueous matrices-a review, J. Environ. Manage., 92 (2011) 2304–2347.
10. C. Zhao, M. Pelaez, X.D. Duan, H.P. Deng, K. O’Shea, D. Fatta- Kassinos, D.D. Dionysiou, Role of ph on photolytic and photocatalytic degradation of antibiotic oxytetracycline in aqueous solution under visible/solar light: kinetics and mechanism studies, Appl. Catal. B-Environ., 134 (2013) 83–92.
11. H.Z. Zhao, Y. Sun, L.N. Xu, J.R. Ni, Removal of acid orange 7 in simulated wastewater using a three-dimensional electrode reactor: removal mechanisms and dye degradation pathway, Chemosphere, 78 (2010) 46–51.
12. R.A. Palominos, M.A. Mondaca, A. Giraldo, G. Penuela, M. Perez-Moya, H.D. Mansilla, Photocatalytic oxidation of the antibiotic tetracycline on TiO₂, and ZnO suspensions, Catal. Today, 144 (2009) 100–105.
13. C.I. Brinzila, M.J. Pacheco, L.Ciriaco, R.C. Ciobanu, A. Lopes, Electrodegradation of tetracycline on BDD anode, Chem. Eng. J., 209 (2012) 54–61.
14. S. Liu, X.R. Zhao, H.Y. Sun, R.P. Li, Y.F. Fang, Y.P. Huang, The degradation of tetracycline in a photo-electro-Fenton system, Chem. Eng. J., 231 (2013) 441–448.
15. K.X. Li, A. Yediler, M. Yang, S. Schulte-Hostede, M.H. Wong, Ozonation of oxytetracycline and toxicological assessment of its oxidation by-products, Chemosphere, 72 (2008) 473–478.
16. K.V. Bao, E.W. Shin, O. Snisarenko, S.J. Wang, H.S. Lee, Removal of the antibiotic etracycline by fe-impregnated sba-15, Korean. J. Chem. Eng., 27 (2010) 116–120.
17. S. Zhang, H.L. Song, X.L. Yang, K.Y. Yang, X.Y. Wang, Effect of electrical stimulation on the fate of sulfamethoxazole and tetracycline with their corresponding resistance genes in three-dimensional biofilm-electrode reactors, Chemosphere, 164 (2016) 113–119.
18. L.Y. Wei, S.H. Guo, G.X. Yan, C.M. Chen, X.Y. Jiang, Electrochemical pretreatment of heavy oil refinery wastewater using a three-dimensional electrode reactor, Electrochim. Acta., 55 (2010) 8615–8620.
19. C. Zhao, H.P. Deng, Y. Li, Z.Z. Liu, Photodegradation of oxytetracycline in aqueous by 5A and 13X loaded with TiO₂ under UV irradiation, J. Hazard. Mater., 176 (2010) 884–892.
20. L. Yan, H.Z. Ma, B. Wang, Y.F. Wang, Y.S. Chen, Electrochemical treatment of petroleum refinery wastewater with three-dimensional multi-phase electrode, Desalination, 276 (2011) 397–402.
21. C. Zhang, Y.H. Jiang, Y.L. Li, Z.X. Hu, L. Zhou, M.H. Zhou, Three-dimensional electrochemical process for wastewater treatment: a general review, Chem. Eng. J., 228 (2013) 455–467.
22. Y.J. Sun, P. Li, H.L. Zheng, C. Zhao, X.F. Xiao, Y.H. Xu, W.Q. Sun, H.F. Wu, M.J. Ren, Electrochemical treatment of chloramphenicol using Ti-Sn/gamma-Al₂O₃ particle electrodes with a three-dimensional reactor, Chem. Eng. J., 308 (2017) 1233–1242.
23. M. Ahmadi, H.R. Motlagh, N. Jaafarzadeh, A. Mostoufi, R. Saeedi, G. Barzegar, S. Jorfi, Enhanced photocatalytic degradation of tetracycline and real pharmaceutical wastewater using MWCNT/TiO₂ nano-composite, J. Environ. Manage., 186 (2017) 55–63.
24. M. Xiao, Y. Zhang, Electro-catalytic oxidation of phenacetin with a three-dimensional reactor: Degradation pathway and removal mechanism, Chemosphere, 152 (2016) 17–22.
25. D.A.L. Leelamanie, J. Karube, Soil-water contact angle as affected by the aqueous electrolyte concentration, Soil. Sci. Plant. Nutr., 59 (2013) 501–508.
26. C. Wang, Y.K. Huang, Q. Zhao, M. Ji, Treatment of secondary effluent using a three-dimensional electrode system: COD removal, biotoxicity assessment and disinfection effects, Chem. Eng. J., 243 (2014) 1–6.
27. K.W. Jung, M.J. Hwang, D.S. Park, K.H. Ahn, Performance evaluation and optimization of a fluidized three-dimensional electrode reactor combining pre-exposed granular activated carbon as a moving particle electrode for greywater treatment, Sep. Purif. Technol., 156 (2015) 414–423.
28. L.Z. Wang, Y.M. Zhao, J.F. Fu, The influence of TiO₂ and aeration on the kinetics of electrochemical oxidation of phenol in packed bed reactor, J. Hazard. Mater., 160 (2008) 608–613.
29. X.Y. Li, W. Zhu, C.W. Wang, L.W. Zhang, Y. Qian, F.Q. Xue, Y. Wu, The electrochemical oxidation of biologically treated citric acid wastewater in a continuous-flow three-dimensional electrode reactor (CTDER), Chem. Eng. J., 232 (2013) 495–502.
30. T.C. An, W.B. Zhang, X.M. Xiao, G.Y. Sheng, J.M. Fu, X.H. Zhu, Photoelectrocatalytic degradation of quinoline with a novel three-dimensional electrode-packed bed photocatalytic reactor, J. Photoch. Photobio. A., 161 (2004) 233–242.
31. X.B. Wu, X.Q. Yang, D.C. Wu, R.W. Fu, Feasibility study of using carbon aerogel as particle electrodes for decoloration of RBRX dye solution in a three-dimensional electrode reactor, Chem. Eng. J., 138 (2008) 47–54.
32. M.H. Zhou, W. Wang, M.L. Chi, Enhancement on the simultaneous removal of nitrate and organic pollutants from groundwater by a three-dimensional bio-electrochemical reactor, Bioresource. Technol., 100 (2009) 4662–4668.
33. W.Y. He, Q.L. Ma, J. Wang, J. Yu, W.R. Bao, H.Z. Ma, A. Amrane, Preparation of novel kaolin-based particle electrodes for treating methyl orange wastewater, Appl. Clay. Sci., 99 (2014) 178–186.
34. M.S. Xiao, Y.G. Zhang, Electro-catalytic oxidation of phenacetin with a three-dimensional reactor: degradation pathway and removal mechanism, Chemosphere, 152 (2016) 17–22.
35. J. Wang, Q.H. Meng, B. Cao, Electrochemical degradation of O-chloroaniline with three dimensional electrodes, Environ. Sci. Technol., 35 (2012) 86–89.
36. H.J. Shi, X. Xiao, L.X. Zeng, Q.Y. Zhang, J.M. Nan, L.S. Wang, Synthesis of three-dimensional (3D) hierarchical titanate nanoarchitectures from Ti particles and their photocatalytic degradation of tetracycline hydrochloride under visible-light irradiation, J. Nanosci. Nanotechno., 14 (2014) 6934–6940.
37. W.T. Mook, M.H. Chakrabarti, M.K. Aroua, G.M.A. Khan, B.S. Ali, M.S. Islam, M.A. Abu Hassan, Removal of total ammonia nitrogen (TAN), nitrate and total organic carbon (TOC) from aquaculture wastewater using electrochemical technology: a review, Desalination, 285 (2012) 1–13.
38. X. Zhao, A.Z. Li, R. Mao, H.J. Liu, J.H. Qu, Electrochemical removal of haloacetic acids in a three-dimensional electrochemical reactor with Pd-GAC particles as fixed filler and Pd-modified carbon paper as cathode, Water. Res., 51 (2014) 134–143.
39. M. Hara, H. Nakagawa, T. Shinohara, J. Suehiro, Generation, growth and collapse of bubbles on collision of particle with electrode in dc electrically stressed liquid helium, IEEE. T. Dielect. El. In., 9 (2002) 910–921.
40. H. Wang, J.W. Chen, X.J. Li, Electrochemical advanced treatment of organics from coking wastewater using three-dimensional electrodes, Asian. J. Chem., 25 (2013) 7915–7917.