عنوان المقالة:الحمل الحراري في فجوه متوازيه الاضلاع تحتوي اسطوانه ساخنه Computational analysis of natural convection in a parallelogrammic cavity with a hot concentric circular cylinder moving at different vertical locations
الحمل الحراري في فجوه متوازيه الاضلاع تحتوي اسطوانه ساخنه
الملخص الانجليزي
A finite volume numerical simulation of natural convection in a parallelogrammic air-filled cavity having a
heated concentric circular cylinder is performed. The left and right sidewalls of the cavity are maintained
at a uniform cold temperature, while both upper and lower walls of it are considered thermally insulated.
A wide range of significant parameters such as Rayleigh number, inclination angle and cylinder vertical locations
are considered in the present study. Comparison with previously published works is made and found to
be an excellent agreement. The results show that the strength of the flow circulation and the thickness of
thermal boundary layer around the hot circular cylinder are increased dramatically when the Rayleigh number
increases. Also, to increase the flow circulation inside the parallelogrammic cavity, it is recommended to
make the inner cylinder moves downward until it reaches to [δ = −0.2] and the parallelogrammic cavity
sidewalls inclined to [Φ =15°]. Moreover, it is found that for various values of the inclination angle, the average
Nusselt numbers at inner cylinder surface and at both cavity sidewalls, decrease when the cylinder
moves upward, while they increase when the cylinder moves downward
الاستاذ الدكتور احمد كاظم حسين | Prof.Dr. Ahmed Kadhim Hussein | 5942