INDUCTION HEATING OF FOSSIL FUELS IN-SITU BY ELECTRIC AND MAGNETIC FIELDS.

被引:0
|
作者
Vermeulen, F.E. [1 ]
Chute, F.S. [1 ]
机构
[1] Univ of Alberta, Dep of Electrical, Engineering, Edmonton, Alberta, Can, Univ of Alberta, Dep of Electrical Engineering, Edmonton, Alberta, Can
来源
Canadian electrical engineering journal | 1985年 / 10卷 / 04期
关键词
ELECTRIC COILS - ELECTRIC HEATING; INDUCTION; -; Applications;
D O I
10.1109/CEEJ.1985.6594703
中图分类号
学科分类号
摘要
The authors have conducted a study of induction heating of fossil fuels for the Alberta Oil Sands Technology and Research Authority (AOSTRA) as part of a comprehensive evaluation of electromagnetic heating techniques for in-situ recovery of bitumen from the Athabasca Oil Sands. The results provide a description of the mechanisms whereby currents are induced, and the heating that will occur when an induction coil is embedded in a fossil fuel formation. This article describes how some of these findings relate to the coil configurations proposed by Fisher and presents relevant results of physical scale model experiments of buried induction coil systems. The information provided permits an engineering assessment of Fisher's induction heating proposal to be made.
引用
收藏
页码:147 / 151
相关论文
共 50 条
  • [31] Equivalent Models of Electrical Devices via the Analysis of Electric and Magnetic Fields.
    Di Napoli, Augusto
    Energia Elettrica, 1985, 62 (02): : 59 - 68
  • [32] In-situ powder diffraction in high magnetic fields
    Pecharsky, V. K.
    Mudryk, Ya.
    Gschneldner, K. A., Jr.
    ZEITSCHRIFT FUR KRISTALLOGRAPHIE, 2007, : 139 - 145
  • [33] TEMPORAL AND SPATIAL SPECTROSCOPY OF THE PLASMA FORMATION IN CROSSED ELECTRIC AND MAGNETIC FIELDS.
    Miljevic, V.I.
    Tosic, D.Dj.
    Journal of Applied Physics, 1980, 51 (05): : 2520 - 2523
  • [34] Vacuum Rabi splitting in semiconductor microcavities with applied electric and magnetic fields.
    Whittaker, DM
    Fisher, TA
    Afshar, AM
    Skolnick, MS
    Kinsler, P
    Roberts, JS
    Hill, G
    Pate, MA
    NUOVO CIMENTO DELLA SOCIETA ITALIANA DI FISICA D-CONDENSED MATTER ATOMIC MOLECULAR AND CHEMICAL PHYSICS FLUIDS PLASMAS BIOPHYSICS, 1995, 17 (11-12): : 1781 - 1786
  • [35] INTERBAND ABSORPTION IN A SEMICONDUCTOR WITH A SUPERLATTICE SUBJECTED TO QUANTIZING MAGNETIC AND ELECTRIC FIELDS.
    Berezhkovskii, A.M.
    Ovchinnikov, A.A.
    Suris, R.A.
    Soviet physics. Semiconductors, 1982, 16 (10): : 1147 - 1150
  • [36] The motion of electrons in hydrogen under the action of crossed electric and magnetic fields.
    Chaudhuri, RN
    PHILOSOPHICAL MAGAZINE, 1923, 46 (273): : 553 - 564
  • [37] ELECTRON AND HOLE SPECTRUM IN THE KANE MODEL WITH CROSSED ELECTRIC AND MAGNETIC FIELDS.
    Piragas, V.A.
    Soviet physics. Semiconductors, 1984, 18 (07): : 801 - 802
  • [38] About the Separation of Hydrogen lines in parallel and crossed electric and magnetic Fields.
    Sen, N. R.
    ZEITSCHRIFT FUR PHYSIK, 1929, 56 (9-10): : 673 - 683
  • [39] BIOLOGIC AND CLINICAL EFFECTS OF LOW-FREQUENCY MAGNETIC AND ELECTRIC FIELDS.
    1973,
  • [40] OSCILLATIONS OF THE TRANSPORT CHARACTERISTICS OF HOT ELECTRONS IN CROSSED ELECTRIC AND MAGNETIC FIELDS.
    Brazis, R.S.
    Starikov, E.V.
    Shiktorov, P.N.
    1600, (16):
12345