TY - JOUR
T1 - Analysis of experimental and numerical results of a turbulent swirling flow in a tube
AU - Sampers, W.F.J.
AU - Lamers, A.P.G.G.
AU - Steenhoven, van, A.A.
PY - 1993
Y1 - 1993
N2 - In many applications swirling flow is used to enhance heat and mass transfer. One of the problems of modelling a turbulent swirling flow is the choice of the turbulent closure model which is acceptable for engineering purposes. To evaluate which model performs best, numerical results are compared with experimental data. Local velocity measurements are carried out on a swirling flow in a circular tube. The measurement method is hot-wire anemometry combined with visualization techniques. The numerical analysis is carried out using the k-e model and the Algebraic Stress Model. In the experiment a symmetrical swirl was observed, Comparing the experimental data with the numerical results shows that the Algebraic Stress Model represents the experimental data quite well, whereas the k-e model fails.
AB - In many applications swirling flow is used to enhance heat and mass transfer. One of the problems of modelling a turbulent swirling flow is the choice of the turbulent closure model which is acceptable for engineering purposes. To evaluate which model performs best, numerical results are compared with experimental data. Local velocity measurements are carried out on a swirling flow in a circular tube. The measurement method is hot-wire anemometry combined with visualization techniques. The numerical analysis is carried out using the k-e model and the Algebraic Stress Model. In the experiment a symmetrical swirl was observed, Comparing the experimental data with the numerical results shows that the Algebraic Stress Model represents the experimental data quite well, whereas the k-e model fails.
U2 - 10.1080/00986449308936202
DO - 10.1080/00986449308936202
M3 - Article
SN - 0098-6445
VL - 125
SP - 187
EP - 196
JO - Chemical Engineering Communications
JF - Chemical Engineering Communications
IS - 1
ER -