On the calculation of turbulent heat transport downstream from an abrupt pipe expansion
Abstract
A numerical study is reported of flow and heat transfer in the separated flow region created by an abrupt pipe expansion. Computations employed an adaptation of the TEACH-2E computer program with the standard model of turbulence. Emphasis is given to the simulation, from both a physical and numerical viewpoint, of the region in the immediate vicinity of the wall where turbulent transport gives way to molecular conduction and diffusion. Wall resistance laws or wall functions used to bridge this near-wall region are based on the idea that, beyond the viscous sublayer, the turbulent length scale is universal, increasing linearly with distance from the wall. Predictions of expermental data for a diameter ratio of 0.54 show generally encouraging agreement with experiment. At a diameter of 0.43 different trends are discernible between measurement and calculation though this appears to be due to effects unconnected with the wall region studied.
- Publication:
-
In Von Karman Inst. for Fluid Dyn. Meas. and Predictions of Complex Turbulent Flows
- Pub Date:
- 1980
- Bibcode:
- 1980mpct....1.....C
- Keywords:
-
- Computer Programs;
- Heat Transfer;
- Pipe Flow;
- Turbulent Flow;
- Wall Flow;
- Algorithms;
- Computerized Simulation;
- Fluid Dynamics;
- Reynolds Number;
- Separated Flow;
- Fluid Mechanics and Heat Transfer