Abstract
A rotating spinning disk configuration is adopted. Laminar, compressible flow is initiated due to periodically oscillating disk. The fluid features include thermal conductivity, density and viscosity are depending only on temperature. The features of uniform injection and suction are also comprised in convective flow. The mathematical model is reframed through preferable new variables. Numerical results are attained by first executing the approach of finite differences on normalized system of partial differential mathematical expressions and then implemented Successive over Relaxation (SOR) procedure. Three-dimensional view of oscillatory flow phenomenon is demonstrated through graphs. Three-dimensional vision of heat transport rate and shear stresses is also established in graphical format. Oscillatory behavior of heat transport rate and shear stresses along time is noticed whereas the mean positions of wave solutions are enhanced linearly in upward directions with increased values of
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