Chantana Phongpensri (Chantrapornchai), Saran Keinprapai, Opas Wongtaveesap, Kanok Hournkumnuard, and Sergei Gorlatch
[1] D.R. Kelland, High gradient magnetic separation applied tomineral beneficiation, IEEE Transactions on Magnetics, 9,1973, 307. [2] C. Delatour, Magnetic separation in water pollution control,IEEE Transactions on Magnetics, 9, 1973, 314. [3] R. Gerber & R.R. Birss, High gradient magnetic separation(New York: John Wiley & Sons, 1983). [4] M. Takayasu, D.R. Kelland, & J.V. Minervini, Continuousmagnetic separation of blood components from whole blood,IEEE Transactions on Applied Superconducting, 10, 2000, 927. [5] I. Safarik, Z. Sabatkova, O. Tokar, Safarikova, Magnetic cationexchange isolation of lysozyme from native hen egg white, FoodTechnology and Biotechnology, 45, 2007, 355. [6] M.O. Avil´es, A.D. Ebner, & J.A. Ritter, Ferromagnetic seedingfor the magnetic targeting of drugs and radiation in capillarybed, Journal of Magnetism and Magnetic Materials, 310, 2007,131. [7] M.O. Avil´es, A.D. Ebner, & J.A. Ritter, In vitro study ofmagnetic particle seeding for implant-assisted-magnetic drugtargeting: seed and magnetic drug carrier particle capture,Journal of Magnetism and Magnetic Materials, 321, 2009,1586. [8] J.A. Ritter, A.D. Ebner, K.D. Daniel, & K.L. Stewart, Ap-plication of high gradient magnetic separation principles tomagnetic drug targeting, Journal of Magnetism and MagneticMaterials, 280, 2004, 184. [9] P. Pacheco, Parallel programming with MPI (Morgan Kaufman,1997). [10] M. Snir & W. Gropp, MPI: the complete reference (MIT Press,2000). [11] S. Balay, K. Buschelman, V. Jkhout, W. Gropp, D. Kaushik,M. Knepley, L.C. McInnes, B. Smith, & H. Zhang, PETScUsers Manual, Technical Report: ANL-95/11 - Revision 2.3.2. [12] http://www.netlib.org/scalapack/index.html as seen on Au-gust 15th 2009. [13] J.W. Shu, Q. Lu, W.O. Wong, & H. Huang, Parallelizationstrategies for Monte Carlo simulations of thin film deposition,Computer Physics Communications, 144, 2002, 34. [14] S. Hioki, Pure QCD Monte Carlo simulation code with MPI,http://insam.sci.hiroshima-u.ac.jp/QCDMPI/ as seen on July2008. [15] S. Roy, R.Y. Jin, V. Chaudhary, & W.L. Hase, Parallel molec-ular dynamic simulations of alkane/hydroxylated α-aluminumoxide interfaces, Computer Physics Communications, 128,2000, 210. [16] J. Xu, P.N. Ostroumov, & J. Nolen, Comput. A parallel3D Poisson solver for space charge simulation in cylindricalcoordinates, Physics Community, 178, 2008, 290. [17] J.S. Wu, K.H. Hsu, F.L. Li, C.T. Hung, & S.Y. Jou, Develop-ment of a parallelized 3D electrostatic PIC-FEM code and itsapplications, Computer Physics Communications, 177, 2007,98. [18] L.P. Davies & R. Gerber, 2-D simulation of ultra-fine particlecapture by a single-wire magnetic collector, IEEE Transactionson Magnetics, 26, 1990, 1867. [19] R. Gerber, M. Takayasu, & F.J. Friedlaender, Generalizationof HGMS theory: the capture of ultra-fine particles, IEEETransactions on Magnetics, 19, 1983, 2115. [20] K. Hournkumnuard & M. Natenapit, Diffusive capture of mag-netic particles and assemblage of random cylindrical collectors,Separation Science and Technology, 43, 2008, 3448. [21] C. Chantrapornchai (Phonpensri), B. Dolwithayakuland, &S. Gorlatch, Parallel mass transfer simulation of nanopar-ticles using nonblocking communications, Proc. of Multime-dia, Computer Graphics and Broadcasting Communicationsin Computer and Information Science, 2009, 60, 17–24. DOI:10.1007/978-3-642-10512-8_3 [22] A.J. Kramer, J.J.M. Janssen, & J.A.A.J. Perenboom, Single-wire HGMS of colloical particles: the evolution of concentrationprofiles, IEEE Transactions on Magnetics, 26, 1990, 1858. [23] M.J. Quinn, Parallel programming in C with MPI and OpenMP(New York: McGraw-Hill, 2003).81
Important Links:
Go Back