On the BEM solution of convection-diffusion type equations involving variable convective coefficients

2024-06-01
In this study, numerical solutions of the unsteady convection-diffusion type equations of variable convective coefficients are investigated by two effective techniques alternative to direct boundary element method (BEM). That is, the domain boundary element and the dual reciprocity BEMs with the fundamental solution of convection-diffusion equation are used in space to transform the governing differential equations into equivalent integral equations while a backward finite difference scheme is utilized in time discretization. The fruitfulness of these combined techniques are shown by the implementation of the techniques for some widely investigated fluid dynamics problems. In fact, the lid-driven cavity flow is solved, and precise results are attained as benchmarks for assessing the accuracy of the aforementioned methods. Further, the application of the methods is extended for the natural convection flow which is governed mainly by the convection-diffusion type equations accompanied by the velocity components as variable convective coefficients. The obtained numerical results reveal that the domain BEM which uses the fundamental solution of convection-diffusion equation captures the characteristics and physical advancement of the fluid flow quite well at various combined values of the problem physical parameters.
Fluid Dynamics Research
Citation Formats
H. Fendoğlu, C. Bozkaya, and M. Tezer, “On the BEM solution of convection-diffusion type equations involving variable convective coefficients,” Fluid Dynamics Research, vol. 56, no. 3, pp. 0–0, 2024, Accessed: 00, 2024. [Online]. Available: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85197343634&origin=inward.