Progress in Superconductivity and Cryogenics (한국초전도ㆍ저온공학회논문지)

The Korean Society of Superconductivity and Cryogenics (한국초전도저온학회)
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The review of international forum on magnetic force control IFMFC activity from 2010

  • Received : 2022.06.21
  • Accepted : 2022.09.29
  • Published : 2022.09.30
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Abstract

The Magnetic Force Control MFC technology is very useful because of its physical treatment process. Especially the Magnetic Separation MS technology is expected to contribute to SDGs 2030, Circular Economy and Carbon neutral 2050 realization. This paper describes the review of the IFMFC activity from 2010.The IFMFC is organized by three local committees of researchers in Japan, China and Korea. The IFMFC aims to exchange the information of the development results using the MFC technology and to educate the young researchers. The forum has been held in every year around three countries. In 2020 and 2021, the forum was organized by Zoom online due to the COVID-19. The 134 presentations were made up to 2020.The breakdown of these presentations are categorized to the environment remediation52%, material resource37% and fundamental research/technology11%. The Super Conducting Magnet SCM development promotes the MFC technologies. There are some impressive backgrounds as to the brilliant SM technology applications for many different magnetism ; SCM development, High Gradient Magnetic Separation HGMS, magnetic seeding method and magneto-Archimedes effect. This paper reviews the IFMFC activity according to those presented presentations.

Keywords

Acknowledgement

This review paper reflects the contributed presentations by many researchers to IFMFC. From this review, we could recognize the usefulness of magnetic force control MFC technology to the future in the worldwide. I sincerely express my thanks to the IFMFC local committee and colleague.

References

  1. H. Kolm, J. Oberyeuffer and D. Kelland"High gradient magnetic separation" Scientific American 233,no.5,pp.46-54,1975
  2. K.Watanabe,Y.Yamada,J.Sakuraba,F.Hasebe,C.K.Chong,T.Haseb e and M.Ishihara,"(Nb,Ti)3 SN Superconducting Magnet Operated at 11K in Vacuum Using High-Tc (Bi,Pb)2Sr2Ca2Cu3O10 Current Leads" Jpn.J.Applied Physics,32,.L488,1993 https://doi.org/10.1143/JJAP.32.L488
  3. J.Sakuraba,M.Ishihara,S.Yasuhara,K.Jikihara,K.Watazawa,T.Hase be,C.K.Chong,Y.Yamada and K.Watanabe."Development of liquid helium-free superconducting magnet" IEICE Trans. Electronics,E78-C,p.535,1995
  4. H.Maeda,Y.Tanaka,M.Fukutomi and T.Asano "A new high-Tc superconductor without a rare earth element" Jpn.J.Applied Physics,Part2,27,L209-210,1988 https://doi.org/10.1143/JJAP.27.L209
  5. T.Watanabe,S.Fukui "Current status and new development of practical application of superconducting technology using magnetic force control" TEION KOGAKU, (J.Cryo.Super.Soc.Jpa.) pp.149-155, 2020
  6. "State and trends of the precise magnetic force control technology using magnetic characteristics of material " Technical Report IEEJ No.1198, p.23, 2013
  7. N. Hirota "Magneto-Archimedes Effect and Its Application" TEION KOGAKU (J.Cryo.Super.Soc.Jpa.) 55,no.3,pp185-188,2020d https://doi.org/10.2221/jcsj.55.185
  8. H.Okada "Simulation of Particle Motion in Fluid under Magnetic Field of HGMS" IFMFC O-6,2011
  9. S.K.BaiK "Magnetic Force Calculation on Iron-oxide Particles from Condenser Water of a Thermal Power Plant" IFMFC O-9,2012
  10. S.Fukui "The theoretical calculation of magnetic field and magnetic force for magnetic separation" IFMFC O-6,2012
  11. N.Hirota,T.Ando,T.Takano and H.Okada "Insitu observationof magnetic particlesdeposition process on a magnetic filter in high gradient magnetic field" IFMFC O-1,2016
  12. H.S.Kim,H.W.Kwon,J.J.Kim,D.W.Ha,and H.Kim "Formation of Iron Oxides from Acid Mine Drainage and Magnetic Separation of the Heavy Metals Adsorbed iron Oxide" IFMFC O-1,2016
  13. T.Shiina and O.Miura "Evaluation of the Magnetic Separation Properties of RH-MAC Utilizing High Gradient Magnetic Separation System" IFMFC P-1,2018
  14. Hee-Won Kwon "Selective Removal of Pb in inorganic Wastewater Using Synthesized ion Imprinted Magnetic Nano-adsotbent" IFMFC O-1,2020
  15. S.Nishijima "The Superconducting Magnetic force Control Technologies for Industrial Applications" IFMFC O-5, 2013
  16. D.WooHa and Y.Hun Kim"Development of High-Tc Superconducting Wires and Magnets for Magnetic Separation in Korea" IFMFC O-2,2018
  17. G.Zhang, and Z.Zian"The recent development of conduction cooled superconducting magnets for magnetic separation in IHEP" IFMFC O-2, 2019
  18. H.Liu.D.Xu and L.Li "The development of Superconducting Magnetic Separation System for Swage Treatment in TIPC" IFMFC O-9,2019
  19. T.Hasegawa, H.Nakagami,Y.Akiyama and S.Nishijima " Fundamental Study on Gene Transfer Utilizing Magnetic Force and Jet Injector" IFMFC O-7,2016
  20. E.Beaugonn "Acculate Measurement of the Forced or Free Damped Oscillation of a Magnetical Levitaed Droplet" IFMFC O-4,2019
  21. I.Ihara "Cleanability of Semi-Dried Milk Deposition on a HighlySmooth internal Surface of Stainless Tubing by Magnetic Abrasive Finishing" IFMFC O-12, 2019
  22. S.Nishijima "Study of Micropalastic Separation from Sea Water with Electro-Magnetic Force" IFMFC O-2,2020
  23. N.Hirota "Development of High Through-put High Quality Protein Crystal Growth Utilizing High Magnetic Force" IFMFC O-4 2013
  24. T.Watanabe and I.Ihara "The ecological and novel system of landfill water treatment" IFMFC O-2,2015
  25. H.P.Hong,H.W.Kwon,T.C.Shin,D.Woo Ha and Y.H.Kim "Evaluation of Contamination for the Andong-dam Sediment and a Magnetic Separation for Reducing the Contamination Level" IFMFC O-8,2018
  26. C.Mukata and Y.Akiyama "Fundamental Study on Sustanable Treatment System of Mine Water" IFMFC O~-9, 2018
  27. X.Shan,R.Huang,H.Liu, H.Zhang,F.Shen and Laifen Li "The wastewater Treatment Apparatus Employing the Superconducting High Gradient Magnetic Separation System" IFMFC O-3,2020
  28. Z.Zian W.Meifen, N.Feipeng,Y.Huan,Z.Guoqing L.Zhongxiu "Progress of superconducting magnet separation for Kaolin" IFMFC O-6,2015
  29. T.Oka, K.Ichiju, S.Fukui, J.Ogawa,T.Sato, M.Ooizumi and M.Tsujimura " Sepoaration for Recycling Ni Compounds from Processed Plating Waste with use of HTS Bulk Magnet" IFMFC O4,2016
  30. T.C.Shin, H. W.Kwon, D.W.Ha and Y.H..Kim "Recovery of Resources from Syteel Slag by a Superconducting Magnetic Separation System" IFMFC O-6, 2016
  31. S. Li W.Wei B.Hu, S..Han,and P.Zhang "Study on CopperContaminating Electroplating Wastewater Treatment by Superconducting HGMS with iron Contaning Substances" IFMFC O-7,2018
  32. S.Nishijima "Application of Superconducting Magnetic Separation for Decontamination Soil inFukushima" IFMFC O-7,2014
  33. Y.Akiyama,S.Nishijima and Y.Ito "Superconducting Magnetic Separation System for Volume Reduction and Recycle of Removed Soil" IFMFC O-3, 2017
  34. Y.Nomura,Y.Sakai, S.Eda,T.Nikata,M.Roppongi and S.M/Lai "Proposal of Combined Process Magnetic Methan Fermendation and MAS Process and Evaluation" IFMFC P-5,2019
  35. Y.Wakui,Y.Sakai and T.Nikata "Perfomance of Magnetic Metha Fermendation at Room Temperature Using Bench-Scale Reactor" IFMFC SO-7,2020