참고문헌 (43)

1. ANES, Mechanism of Ariores, https://anes-corp.jp/en/ariores/mechanism/ (September 1, 2021). 

2. Clean Water System, http://en.cws153.com/47 (April 1, 2021). 

3. Dubova, V., Ilavsky, J. and Barlokova, D. (2011). Evaluation of annual corrosion tests for aggressive water, Slovak J. Civ. Eng., 14(4), 24-27. 

4. Echeverria, F., Castano, J.G. Castano, Arroyave, C. and Penuela, G. (2009). Characterization of deposits formed in a water distribution system, Ingeniare. Revista chilena de ingenieria, 17(2), 275-281. 

5. Gritli, M., Cheap-Charpentier, H., Horner, O., Perrot, H. and Amor, Y.B. (2019). Scale inhibition properties of metallic cations on CaCO 3 formation using fast controlled precipitation and a scaling quartz microbalance, Desalination Water Treat., 167, 113-121. 

   상세보기

6. Grunberg, L. (1953). The Formation of Hydrogen Peroxide on Fresh Metal Surfaces, Proc. Phy. Soc. B., 66, 153-161. 

   상세보기

7. Harfst, W.F. (2010). Non-chemical water treatment, Chem. Eng., 117(4), 66-69. 

8. https://www.chemengoline/non-chemical-water-treatment/ (September 1, 2021) 

9. Jinhaeng Waterway (2020). Annual reports(2005-2015) of the effectiveness verification for zinc ionization devices installed in water-line (September 1, 2021). 

10. Kadoi, M. (1972). Corrosion by tap water, Zairyo-to-Kankyo, 21(2), 51-61. 

11. Kato, M., Koiwai, M., Kuwano, J. (1982). Inhibitive effect of aluminium ion for iron corrosion in water, Zairyo-to-Kankyo, 31, 27-33. 

12. Kim, J.J. and Kim, Y.T. (2002). Mineralogical characteristics and Zinc effects on scale in the water pipe, J. Korea Soc. Water Wastewater, 16(3), 284-290. 

13. Kim, J.J., Kim, Y.Y., Kim, H.S. and Jang Y.D. (2006). Removal and restrain effects by Mg metal on scale in water pipe, J. Miner. Soc. Korea, 19(2), 111-121. 

14. Kim, M.H., Hyun, S.H., Lee, W.S. and Li, L.Y. (2017). The regulations and guidelines for management of corrosive water and pipe corrosion in drinking water distribution system in North America, J. Korean Soc. Water Environ., 33(3), 359-369. 

    원문보기 상세보기

15. Kitano, Y., Kanamori, N. and Yoshioka, S. (1976). Adsorption of zinc and copper ions on calcite and aragonite and its influence on the transformation of aragonite to calcite, Geochem. J., 10,175-179. 

    상세보기

16. Kyoritsu Chemical-Check Lab., Corp. (2017). Instruction manual for Digital Pack Test.Multi SP, 3rd Ed. DPM-MTSP User Manual in Korean Version, Sehan Instruments. 

17. Larson, T.E. and King, R.M. (1954). Corrosion by water at low flow velocity, J. Am. Water Works Assoc., 46(1). 1-9. 

    상세보기

18. Lee, H.D., Park, J.H. and Bae, C.H. (2002). Evaluation of corrosion prevention and cleaning effects on old water service pipes by inhibitors, magnetic and Ionic treatment apparatuses, J. Korean Soc. Water Quality, 18(5), 553-562. 

19. Lee, J.G. Daejeon Development Institute. (2013). A study on the method of rehabilitation of water pipeline and application on Daejeon City, 2013-10, 90-101. 

20. Lee, J.S., Min, K.H. and Yi, S.W. (2005). A study of corrosion and scale prevention in the iron and galvanized steel pipe at water distribution system, J. Korea Soc. Environ. Anal., 8(1), 27-32. 

21. Lee, K.I. (2010). Ultrasonic technique for measuring the thickness of scale on the inner surfaces of pipes, J. Korean Phys. Soc., 56(2), 558-561. 

    상세보기

22. Lee, Y.B., Jeong, Y.S., Seong, T.R. and Ahn, J.H. (2018). Estimation of mean corrosion depth of structural steel using thickness of corrosion products, J. Korean Soc. Steel Constr., 30(3), 153-161. 

    상세보기

23. Lim, J.C., Kim, J.K. and Koo, J.Y. (2012). Coating formation of water supply pipes by inhibitor and water quality improvement effect, J. Korea Soc. Water Wastewater, 26(1), 97-106. 

    원문보기 상세보기

24. Lin, L., Jiang, W., Xu, X. and Xu, P. (2020). A critical review of the application of electromagnetic fields for scaling control in water systems: mechanisms, characterization, and operation, NPJ Clean Water, 3(25). 

25. MacAdam, J. and Parson, S.A. (2004). Calcium carbonate scale formation and control, Rev. Environ. Sci. Biotechnol., 3, 159-169. 

    상세보기

26. Melchers, R. (2018). A review of trends for corrosion loss and pit depth in longer-term exposures, Corrs. Mater. Degrad. 1, 42-58. 

    상세보기

27. Mubenga, S.B. (1997). The role of zinc in physical water treatment for prevention of scale, Master's Thesis, University of Johannesburg, Johannesburg, South Africa, 111-153. 

28. Park, Y.B. and Huh, B.G. (2008). Inhibition method of tap-water line corrosion, Korean Intellectual Property Office, 10-0797847. 

29. Pomies, M.P., Moin, G. and Vignaud, C. (1998). XRD study of the geothite-hematite transformation: application to the identification of heated prehistoric pigments, Eur. J. Solid State Inorg. Chem., 35, 9-25. 

    상세보기

30. Ramakrishna, C., Thenepalli, T. and Ahn, J.W. (2017). A brief review of aragonite precipitated calcium carbonate (PCC) synthesis methods and its applications, Korean Chem. Eng. Res., 55(4), 443-455. 

    원문보기 상세보기

31. Reichle, R.A., McCurdy, K.G. and Hepler, L.G. (1975). Zinc hydroxide: Solubility product and hydroxy-complex stability constants from 12.5-75℃, Can. J. Chem. 53, 3841-3845. 

    상세보기

32. Rhee, J.S., Min, K.H. and Yi, S.W. (2005). Analysis of influence factors and corrosion characteristics of water-pipe in portable water system, J. Korea Soc. Environ. Anal., 8(2), 57-61. 

33. Sarin, P., Snoeyink, V.L., Bebee, J., Jim, K.K, Beckett, M.A. and Kriven, W.M. (2004). Iron release from corroded iron pipes in drinking water distribution systems: effect of dissolved oxygen, Water Res., 38, 1259-1269. 

    상세보기

34. Scheers, P.V. (1992). The effects of flow velocity and pH on the corrosion rate of mild steel in a synthetic minewater, J. South. Afr. Inst. Min. Metall., 92(10), 275-281. 

35. Song, S.J., Cho, Y.G. and Kim, J.H. (2018). A study on the effect of corrosion prevention in water distribution system by galvanized zinc-brass pipe, J. Urban Sci., 7(1), 23-27. 

    원문보기 상세보기

36. Tavanpour, N., Noshadi, M. and Tavanpour, N. (2016). Scale formation and corrosion of drinking water pipes: A case study of drinking water distribution system of Shiraz City, Mod. Appl. Sci.. 10(3), 1913-1844. 

37. Toshikogyo. (2018). Data review of water quality improvement effects by the biowater, http://www.toshikogyo.com/advantage/bio.html (Jun 1, 0201). 

38. Vulcan, The electronic anti-scale system: Vulcan technology-how it works, www.cwt-vulcan.com/technology (September 1, 2021). 

39. Yoda, S., Wakibe, Y. and Imagawa, Y. (2014). Inspection methods of piping, Bull. Soc. Sea Water Sci., Jpn., 68, 57-62. 

40. Yu, M.S. (2021). Principle of magnetite coating method for the tap-water pipeline, Environ. Media, 391, 47-49. 

41. Yu, M.S., Yang, S.B., Shim, H.S. and Lee, S.H. (2020). Measurement of inhibition effect on the iron coupon in tap-water with zinc ionization device, J. Korean Soc. Environ. Technol., 21(6), 438-446. 

42. Yu, M.S., Lee, S.H., Choi, J.W., Shim, H.S. and Yang, S.B. (2021). Prediction of corrosion inhibition effect on steel coupons and tap-water pipe with zinc ionization device, J. Korean Soc. Environ. Technol., 22(3), 203-212. 

    상세보기

43. Zeppenfeld, K. (2016). Physikalische und Energetische Wasserbehandlungsverfahren. 2nd Ed., Publico Publications Essen, Germany, 4-20. 

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