Numerical investigation of velocity slip and temperature jump effects on unsteady flow over a stretching permeable surface

E. Hosseini, G. B. Loghmani, M. Heydari, M. M. Rashidi
  • The European Physical Journal Plus, February 2017, Springer Science + Business Media
  • DOI: 10.1140/epjp/i2017-11361-8

Numerical investigation for the boundary layer flow and heat transfer of unsteady flow

What is it about?

The boundary layer flow and heat transfer of unsteady flow over a porous accelerating stretching surface in the presence of the velocity slip and temperature jump effects

Why is it important?

Absence of the exact solution to the problem

Perspectives

ehsan hosseini

– The technique is easy to implement and yields very accurate results in comparison with other mentioned methods. – The proposed method does not require truncating or transforming the semi-infinite domain of the problem to a finite domain. – This method reduces the solution of the problem to solution of a system of algebraic equations. – Unlike the Runge-Kutta methods, where provide the solution of the problem at a discrete set of points, the RBCM provides the continuous solution of the problem.

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http://dx.doi.org/10.1140/epjp/i2017-11361-8

The following have contributed to this page: Professor Mohammad Mehdi Rashidi, ehsan hosseini, and Mohammad Heydari