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Show lent flows. The technique's generalized treatment of physical geometries and associated boundary conditions, as well as its numerical stability, make it a practical engineering tool. Numerical simulations of free and bounded coaxial jets have been used in this paper to describe the fluid dynamics and heat transfer processes in typical industrial combustors. It is clear from these examples that the code can be used to identify potential design problems and solutions for a wide variety of thermal processing systems. Immediate applications include direct and indirect gas-fired burners, high temperature radiant tube burners, selective catalytic reduction systems for NOx control, and high intensity burners. REFERENCES 1. Gosman, A.D., R.I. Issa, "Post Experience Course in Computational Fluid Mechanics and Heat Transfer," Course note - Imperial College of Science & Technology (July 8-10, 1985) 2. Patankar, S.V. "Numerical Heat Transfer and Fluid Flow," McGraw-Hill Book Co. (1980) 3. Gosman, A.D., W.M. Pun, Lecture Notes for Course Entitled "Calculation of Recirculating Flows." Imperial College of Science and Technology ( December, 1973) 4. Issa, R.I. "Solution of Implicitly Discretized Fluid Flow Equations by Operator - Splitting," Imperial College Fluid Section Report FS/82/15 5. Gosman, A.D., R.I. Issa, & A.P. Watkins, "Application of a New Implicit Scheme to the Computation of Compressible and Incompressible Recirculating Flows," Imperial College Report No. FS/83/8 6. Launder, B.E., D.B. Spalding, "Mathematical Models of Turbulence," Academic Press (1972) 7. Gosman, A.D., W.M. Pun, A.K. Runchal, D.B. Spalding & M. Walfshtein, "Heat and Mass Transfer in Recirculating Flows," Academic Press (1969) 116 |