- 1-D Steady State Thermal Analysis
Subject a rectangular plate (0.1 m x 0.01 m) to a prescribed temperature at its left-hand edge and a prescribed radiation to ambient temperature at its right-hand edge. Determine the steady state temperature at its right-hand edge.
- 1-D Transient Thermal Analysis
Subject the rectangular plate (0.01 m x 0.001 m) to a uniform initial temperature, zero flux at its left-hand end, a prescribed temperature at its right-hand end, and a step change to constant internal heat generation (Q = 107 W/m3). Determine the temperature at x = 0.005 m.
- 1-D Oscillating Transient Thermal Analysis
A rectangular plate (0.1 m x 0.01 m) is subjected to a one-dimensional sinusoidal variation of temperature at its right-hand end, constant temperature at its left-hand end, and a uniform initial temperature. Determine its temperature at x = 0.09 m.
- 1-D Transient Thermal Analysis with Varying Heat Generation
Subject the rectangular plate (0.01 m x 0.001 m) to zero flux at its left-hand end, constant temperature of 0 °C at its right-hand end, uniform initial temperature followed by a step change to constant internal heat generation. Determine the temperature at x = 0.005 m.
- Steady State Temperature Distribution in a Plate
A rectangular plate (0.6 m x 0.4 m) is subjected to a prescribed temperature distribution, and internal heat generation. Determine the steady state temperature distribution in the plate at predefined locations A (x = 0.2 m, y = 0.2 m) and B (x= 0.3 m, y = 0.2 m).
- 2-D Steady State Thermal Analysis
A rectangular plate (0.6 m x 1 m) is subjected to a uniform prescribed temperature on one edge and convection to ambient temperature at two edges. Determine the steady state temperature distribution at the predefined location A (x = 0.6 m, y = 0.2 m).