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Jordan Y. Hristov

COMMENTS ON GAS-FLUIDIZED MAGNETIZABLE BEDS IN A MAGNETIC FIELD PART 1: MAGNETIZATION FIRST MODE

ABSTRACT
The fluidization in a magnetic field in presence of external magnetic fields is an attractive technique over 35 years. The fundamental studies concerning the phenomena are rare and strongly affected by the author interpretations. That is the reason to focus the attention on the results of several scientific schools as well as on their interpretations and problems in the area of the so-called "Magnetization FIRST" mode of operation.
PUBLISHED ONLINE: 2020-09-27
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THERMAL SCIENCE YEAR 1998, VOLUME 2, ISSUE Issue 2, PAGES [3 - 26]
REFERENCES
  1. Rosensweig, R. E., Fluidization: Hydrodynamics Stabilization with a Magnetic field, Science, 204 (1979), pp. 57-60
  2. Chem. Eng. Commun. — A Special Issue (Ed. W. N. Gill ), 67 (1988), pp.1-340
  3. Sonolikar, R. L., Magncto-Fluidized Beds, Transport in Fluidizcd Particle Systems (Ed. A. Mujumdar), Elsevier, New York, 1989, pp. 359-422
  4. Liu, Y. A., Hamby, R. K., Colberg, R. D., Fundamental and Practical Developments of Magnetofluidized Beds: A review., Powder Technol. 64 (1991), pp. 3-41
  5. Saxena, S. C., Ganzha, V. L., Rahman, S. H., Dolidovich, A. F., Heat Transfer and Relevant Characteristics of Magnetofluidized Beds, Adv. in Heat Transfer, 25 (1994), pp. 151-249
  6. Yates, J. G., Fundamentals of Fluidized-bed Chemical Processes, Butterworths, London, 1983
  7. Kirko, I. M., Filippov, M. V., The Features of a Suspended Bed of Ferromagnetic Particles in a Magnetic Field (in Russian), Journal Techn. Fiziki, 30 (1960), pp. 1081-1084
  8. Casal, J., Contributio a l'estudi dels fenomens de transport en la fluidizacio particulada, Doctoral Thesis, Univ. Politechnica de Catalunya, Barcelona, 1982
  9. Johnson, T. W., Melcher, J. R., Electromechanics of Electrofluidized Beds, Ind. Eng. Chem. Fund., 14 (1975), pp. 146-153
  10. Dictz, P. W., Mcicher, J. R., Interparticle Electrical Forces in Packed and Fluidized Beds, Ind. Eng. Chem. Fund., 17 (1976), pp. 28-32
  11. Hristov, J. Y., Fluidization of Ferromagnetic Particles in a Magnetic Field, Part 1: The Effect of the Field Lines Orientation on Bed Stability, Powder Technology, 87 (1996), pp. 59-66
  12. Siegel, J. H., Liquid-Fluidized Magnetically Stabilized Beds, Powder Technology, 52 (1987), pp. 139-148
  13. Penchev, I. P. Hristov, J. Y., Behavior of Fluidized Beds of Ferromagnetic Particles in an Axial Magnctic Field, Powder Technology, 61 (1990), pp. 103-118
  14. Penchev, I. P. Hristov, J. Y., Fluidization of Ferromagnetic Particles in a Transverse Magnetic Field, Powder Technology, 62 (1990), pp. 1-11 |
  15. Filippov, M. V., A Fluidized Bed of Ferromagnetic Particles and the Action of a Magnetic Field on It (in Russian), Troudii Inst. Fiziki Latv. SSR, 12 (1961), pp. 215-236
  16. Filippov, M. V., Some Properties of a Suspended Bed of Ferromagnetic Particles in a Magnetic Field (in Russian), Voprosii magn. gidrodinamiki i dinamiki plasmii, Riga, 1962, pp. 637-642
  17. Bologa, M. K., Syutkin, S. U., The Influence of an Electromagnetic Field on the Structural Hydrodynamic Properties of a Fluidized Bed (in Russian), Elektronna obrabotka materialov, 1 (1977), pp. 37-42
  18. Siegel, J. H., Radial Dispersion and Flow Distribution of Gas in Magnetically Stabilized Beds, Ind. Eng. Chem. Process. Des. Dev., 21 (1982), pp. 135-141
  19. Zhu and H. Li, Study on Magnetic Fluidization of Group C Powders, Powder Technology, 86 (1996), pp. 179-185 .
  20. Hristov, J. Y., Fluidization of Ferromagnetic Particles in a Magnetic Field. Part 2: Ficld Effects of Preliminarily Fluidized Beds, Powder Technology, 97 (1998), pp. 35-44
  21. Tamm, I. E., Osnovii teorii elektrichestva (in Russian), Nauka publ., Moskow, 1966
  22. Laurilla, E., On the Behaviour of Magnetic Powder in a Rotating Magnetic Field, Ann. Acad. Scien. Fennicae, Ser. A, Physica, 34 (1959), pp. 1-13 :
  23. Weinstock, R., On a Fallacious Proof of Earnshaw's Theorem, Am. J. Phys., 44 (1976), pp. 392-393
  24. Karmazin, V. I., Karmazin, V. V., Magnetic Methods for Ore Dressing (in Russian), Nedra Publ., Moscow, 1984
  25. Rosensweig, R. E., Sicgel, J. H., Lec, W. K., Mikus, T., Magnetically Stabilized Fluidized Solids, AIChE J., Synip. Ser. 77 (1981), 205, pp. 8-16
  26. Davidson, J. F., Harrison, D, Fluidized Particles, Cambridge Univ. Press, Cambridge, UK, 1963
  27. Kunii, D., Levenspiel, O., Fluidization Enginccring, 2nd cd., Butterworth-Hcincman, Boston, 1991
  28. Nekrasov and Chekin, Effect of an Alternative Magnetic Field on a Fluidized Bed of Ferromagnetic Particles (in Russian), Izv. Acad. Nauk USSR, OTN, Metallurgy and Fuel 6 (1961), pp. 25-29
  29. Ivanov, D. G. , Zrunchev, I., Ammonia Synthesis in a Fluidized Catalyst Bed and a Magnetic Field (in Russian), Kinetika i kataliz (USSR), // (1970), pp. 1214-1218 |
  30. Rosensweig, R. E., Process for Operating a Magnetically Stabilized Fluidized Bed, U. S. Patent 4 125927, Sept. 24, 1980
  31. Contal, P., Gothier, Y., Bernis, A. Etude d'un lit fluidisé gaz-solid stabilisé magnetiquement par des amants permanents, Powder Technology, 71 (1992), pp. 101-105
  32. Contal, P. Approache de la filtration des gaz par un lit fluidisé magnetiquement, Thése de docteur, Université de Savoie, Chambery, 1994
  33. Contal, P., Gothier, Y., Bernis, A., Lacour, G., Experimental Investigation of Gas Filtration in Magnetically Stabilized Fluidized Bed Filters, Proceedings, 7th World Filtration Congress 1996, Budapest, Vol. ;II, pp. 812-816
  34. Filippov, M. V., The Effect of a Magnetic Field on a Suspended Bed of Ferromagnetic Particles (in Russian), Prikl. Magn. Hydrodyn. Acad. Nauk. Latv. SSR, 12 (1960), pp. 215-236
  35. Tuthill, E. J., Magnetically Stabilized Fluidizee' Bed, U.S. patent 3 440 731, 1969
  36. Geldart, D., Types of Gas Fluidizations, Powder Technology, 7 (1973), pp. 285-292
  37. Casal, J., Contributio a l'estudi de la fluidizacio homogena (in Catalan), Institut d'Estudis Catalans, Barcelona, 1984
  38. Lucas, A., Casal, J., Puigjaner, Fluidized Bed Stabilization with a Magnetic Field: Transition Conditions and Mixed Systems. in Fluidization (Eds. D. Kunii and R. Toei), Engineering Foundation, New York, 1984, pp. 129-136
  39. Saxena, S. C., Srivastava S., The Influence of an External Magnetic Field on an Air-Fluidized Bed of Ferromagnetic Particles, Chem. Eng. Sci., 45 (1990), pp. 1125-1130
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COMMENTS ON GAS-FLUIDIZED MAGNETIZABLE BEDS IN A MAGNETIC FIELD Part 1: Magnetization FIRST mode

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