The temperature loading along the circumference is

Info iconThis preview shows page 1. Sign up to view the full content.

View Full Document Right Arrow Icon
This is the end of the preview. Sign up to access the rest of the document.

Unformatted text preview: r approximating the circular boundary with a straight-sided element. Adiabatic boundary conditions are assumed at the symmetry edges. The steady-state convergence procedures are used. Note that this problem can also be modeled using the axisymmetric option as in VM102. Results Comparison T, °F Target ANSYS Ratio Node 2 23.3 23.0 0.989 Node 3 35.9 35.5 0.990 Node 4 42.2 41.8 0.991 Node 5 44.0 43.7 0.992 Node 6 42.2 41.9 0.992 Node 7 37.0 36.8 0.993 Node 8 28.6 28.4 0.991 Node 9 16.5 16.4 0.991 Figure 105.2 Variation of Temperature in the Radial Direction ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 1–239 VM106: Radiant Energy Emission Overview Reference: F. Kreith, Principles of Heat Transfer, 2nd Printing, International Textbook Co., Scranton, PA, 1959, pg. 22, problem 1-8(b). Analysis Type(s): Thermal Analysis (ANTYPE = 0) Element Type(s): Radiation Link Elements (LINK31) Input Listing: vm106.dat Test Case Determine the rate of radiant heat emission q in Btu/h...
View Full Document

Ask a homework question - tutors are online