Proceedings of the Royal Society. Section A, Mathematical and Physical Science, Volume 393Harrison and Son, 1984 |
Contents
The development of a recuperative burner for gasfired furnaces | 20 |
COMBUSTION AIR PREHEATING | 27 |
THE USE OF PHYSICAL AND MATHEMATICAL MODELLING TECHNIQUES IN | 33 |
25 other sections not shown
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Common terms and phrases
acetaldehyde acoustic activation energy air preheat approximately asymptotic atoms beam behaviour boundary conditions boundary heat boundary layer calculated CALIFORNIA UNIVERSITY carbon cathode cathode ray tube CIRA coefficients combustion components condition number conduction constant correlation function corresponding crack curve density distribution edge effect eigenvalues electron equation exothermic reactions experimental exponential factor film flue frequency function furnace given H₁ heat addition heat flux heat transfer heat treated height hydrogen initial interstitial ions King-Hele matrix measured metal molecules obtained orbit p₁ parameter peak curvature perigee perturbations phthalocyanine Phys piston plane plate pressure problem radiation damage ratio Rayleigh Rayleigh waves reaction recuperative burners recuperator sampling interval shock wave shown in figure shows solid solution specimen speed ẞ² summit curvature surface theorem theory thermal timescale tube UNIVERSITY OF CALIFORNIA v₁ values variation velocity wavenumber