1. J.S. Baker, S.J. Judd, Magnetic amelioration of scale formation, Water Res., 30 (1996) 247–260.
  2. A. Trueba, García, Sergio, Otero, M. Félix, Mitigation of biofouling using electromagnetic fields in tubular heat exchangers-condensers cooled by seawater, Biofouling, 30 (2014) 95–103.
  3. H. Müller-Steinhagen, M.R. Malayeri, A.P. Watkinson, Heat exchanger fouling: mitigation and cleaning strategies, Heat Transfer Eng., 32 (2011) 189–196.
  4. Q. Yang, R. Wu, Y. Shi, C. Xiao, An experimental study and numerical investigation on fluidized defouling of non-clean water heat exchanger wall, Appl. Thermal Eng., 111 (2017) 638–646.
  5. S. García, T. Alfredo, Influence of the Reynolds number on the thermal effectiveness of tubular heat exchanger subjected to electromagnetic field-based antifouling treatment in an open once-through seawater cooling system, Appl. Thermal Eng., 140(2018) 531–541.
  6. S.N. Kazi, K.H. Teng, M.S. Zakaria, E. Sadeghinezhad, M.A. Bakar, Study of mineral fouling mitigation on heat exchanger surface, Desalination, 367 (2015) 248–254.
  7. S.H. Lee, Y.I. Cho, Velocity effect on electronic-antifouling technology to mitigate mineral fouling in an enhanced-tube heat exchanger, Int. J. Heat Mass Transfer, 45 (2002) 4163–4174.
  8. R. Liu, Y.I. Cho, Combined use of an electronic antifouling technology and brush punching for scale removal in watercooled plain tube, Exp. Heat Transfer, 12 (1999) 203–213.
  9. W. Kim, Y.I. Cho, Benefit of filtration in physical water treatment for the mitigation of mineral fouling in heat exchangers, Int. Commun. Heat Mass Transfer, 38 (2011) 1008–1013.
  10. Y. Han, Y. Zhao, X. Chai, Mathematical modeling of induced current for electronic anti-fouling system and optimizing of the system parameters, Int. J. Appl. Electromagnet Mech., 40 (2012) 237–250.
  11. M. Xuefei, X. Lan, C. Jiapeng, Y. Zikang, Experimental study on calcium carbonate precipitation using electromagnetic field treatment, Water Sci. Technol., 67 (2013) 2784.
  12. L. Bingcheng, L. Guanlin, L. Yangyang, H. Sun, A. Cheng, J. Wenguang, Experimental study on magnetic induction properties of PVC pipe in electronic anti-fouling technology, Pol. J. Environ. Stud., 28 (2018) 205–211.
  13. L. Bingcheng, C. Kui, L. Guanlin, Experimental study on magnetic induction property of solenoid coil used in cooling water treatment system, J. Water Supply Res. Technol. AQUA, 66 (2017) 353–360.
  14. H. Yong, Z. Chuanxin, W. Leichao, Z. Qianrui, Z. Lin, Z. Ruikan, Influence of alternating electromagnetic field and ultrasonic on calcium carbonate crystallization in the presence of magnesium ions, J. Crystal Growth, 499 (2018) 67–76.
  15. I. Drela, P. Falewicz, S. Kuczkowska, New rapid test for the evaluation of scale inhibitors, Water Res., 32 (2018) 3188–3191.
  16. C. Piyadasa, H.F. Ridgway, T.R. Yeager, M.B. Stewart, C. Pelekani, S.R. Gray, J.D. Orbell, The application of electromagnetic fields to the control of the scaling and biofouling of reverse osmosis membranes - a review, Desalination, 418 (2017) 19–34.
  17. Y.I. Cho, C. Fan, B.G. Choi, Theory of electronic anti-fouling technology to control precipitation fouling in heat exchangers, Int. Commun. Heat Mass Transfer, 24 (1997) 757–770.