1 |
H. Kolm, J. Oberyeuffer and D. Kelland"High gradient magnetic separation" Scientific American 233,no.5,pp.46-54,1975
|
2 |
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
|
3 |
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
DOI
|
4 |
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
|
5 |
Z.Zian W.Meifen, N.Feipeng,Y.Huan,Z.Guoqing L.Zhongxiu "Progress of superconducting magnet separation for Kaolin" IFMFC O-6,2015
|
6 |
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
|
7 |
S.Fukui "The theoretical calculation of magnetic field and magnetic force for magnetic separation" IFMFC O-6,2012
|
8 |
"State and trends of the precise magnetic force control technology using magnetic characteristics of material " Technical Report IEEJ No.1198, p.23, 2013
|
9 |
N. Hirota "Magneto-Archimedes Effect and Its Application" TEION KOGAKU (J.Cryo.Super.Soc.Jpa.) 55,no.3,pp185-188,2020d
DOI
|
10 |
S.K.BaiK "Magnetic Force Calculation on Iron-oxide Particles from Condenser Water of a Thermal Power Plant" IFMFC O-9,2012
|
11 |
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
|
12 |
T.Shiina and O.Miura "Evaluation of the Magnetic Separation Properties of RH-MAC Utilizing High Gradient Magnetic Separation System" IFMFC P-1,2018
|
13 |
S.Nishijima "The Superconducting Magnetic force Control Technologies for Industrial Applications" IFMFC O-5, 2013
|
14 |
Y.Wakui,Y.Sakai and T.Nikata "Perfomance of Magnetic Metha Fermendation at Room Temperature Using Bench-Scale Reactor" IFMFC SO-7,2020
|
15 |
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
|
16 |
S.Nishijima "Application of Superconducting Magnetic Separation for Decontamination Soil inFukushima" IFMFC O-7,2014
|
17 |
Y.Akiyama,S.Nishijima and Y.Ito "Superconducting Magnetic Separation System for Volume Reduction and Recycle of Removed Soil" IFMFC O-3, 2017
|
18 |
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
DOI
|
19 |
H.Liu.D.Xu and L.Li "The development of Superconducting Magnetic Separation System for Swage Treatment in TIPC" IFMFC O-9,2019
|
20 |
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
|
21 |
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
|
22 |
H.Okada "Simulation of Particle Motion in Fluid under Magnetic Field of HGMS" IFMFC O-6,2011
|
23 |
Hee-Won Kwon "Selective Removal of Pb in inorganic Wastewater Using Synthesized ion Imprinted Magnetic Nano-adsotbent" IFMFC O-1,2020
|
24 |
G.Zhang, and Z.Zian"The recent development of conduction cooled superconducting magnets for magnetic separation in IHEP" IFMFC O-2, 2019
|
25 |
E.Beaugonn "Acculate Measurement of the Forced or Free Damped Oscillation of a Magnetical Levitaed Droplet" IFMFC O-4,2019
|
26 |
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
|
27 |
T.Watanabe and I.Ihara "The ecological and novel system of landfill water treatment" IFMFC O-2,2015
|
28 |
N.Hirota "Development of High Through-put High Quality Protein Crystal Growth Utilizing High Magnetic Force" IFMFC O-4 2013
|
29 |
C.Mukata and Y.Akiyama "Fundamental Study on Sustanable Treatment System of Mine Water" IFMFC O~-9, 2018
|
30 |
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
|
31 |
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
|
32 |
T.Hasegawa, H.Nakagami,Y.Akiyama and S.Nishijima " Fundamental Study on Gene Transfer Utilizing Magnetic Force and Jet Injector" IFMFC O-7,2016
|
33 |
I.Ihara "Cleanability of Semi-Dried Milk Deposition on a HighlySmooth internal Surface of Stainless Tubing by Magnetic Abrasive Finishing" IFMFC O-12, 2019
|
34 |
S.Nishijima "Study of Micropalastic Separation from Sea Water with Electro-Magnetic Force" IFMFC O-2,2020
|
35 |
D.WooHa and Y.Hun Kim"Development of High-Tc Superconducting Wires and Magnets for Magnetic Separation in Korea" IFMFC O-2,2018
|