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Journal of the Illuminating Engineering Society Volume 14, 1985 - Issue 2
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Original Articles

A Predictive Theory of Power Balance in Incandescent Lamps

Stephen H. HoweThorn EMI Lighting Limited, Leicester, England
Pages 581-588 | Published online: 20 Sep 2013

References

  • van HornD. D.: “Mathematical and physical bases for incandescent lamp exponents,” Journal of the Illuminating Engineering Society, Vol. 60, April 1965, p 196.
  • CovingtonE. J.: “The life-voltage exponent for tungsten lamps,” Journal of the Illuminating Engineering Society, Vol. 2, January 1973, p 83.
  • LangmuirI.: “Convection and conduction of heat in gases”, Physical Review, Vol. 34, 1912, p 401.
  • CovingtonE. J.: “The Langmuir film model in incandescent lamps,” Journal of the Illuminating Engineering Society, Vol. 63, April 1968, p 134.
  • CoatonJ. R.: “Calculations of power loss to the gas-filling of incandescent lamps”, Lighting Research and Technology, Vol. 3, No. 2, 1971, p 163.
  • BernsE. G. and de RidderJ.: “Calculation of the tungsten and heat transport in spherical gas-filled incandescent lamps”, Philips Journal of Research, Vol. 35, No. 3, 1980.
  • AlmerP. H. R. and de RidderJ.: “Calculation of the radial tungsten transport in cylindrical gas-filled incandescent lamps”, Lighting Research and Technology, Vol. 8, 1976, p 31.
  • AladyshevA. N.: “Calculation of the helical filament radiation coefficient”, Svetotechnica, No. 5, 1973, p 11.
  • Quoted inBakerC.: “The effect of coil pitch and wire diameter variations on incandescent filament behaviour”, Journal of the Illuminating Engineering Society, Vol. 5, October 1975, p 3.
  • BrettJ. et al: “Filaments for incandescent lamps with energy conserving envelopes”, IEEE Transactions on Industry Applications, Vol. 1A-17, No. 2, March/April 1981, p 210.
  • American Institute of Physics Handbook, p 6–168, (McGraw Hill, Second Edition, 1963).
  • AladyshevA. N.: “Calculation of the radiation coefficient from a coiled coil filament”, Svetotechnica, No. 12, 1973 p 14.

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