Radiative melting heat transfer through a micropolar nanoliquid by using Koo and Kleinstreuer model

In this research paper, we examined a two-dimensional micropolar nanofluid flow in the light of a melting surface with warm nonlinear radiation and slip condition. Comparability transformations are utilized to deal with the problem equations for non-dimensionality. RKF 45-method is applied for the simulation of the demonstrated equations, and the biothermal framework is investigated for all the implanted parameters whose impacts are appeared through various graphs. Thus, fascinating outcomes exist in this paper because of the impacts of various constraints on various profiles.

Automated summary

In this research paper, a two-dimensional micropolar nanofluid flow on a melting surface with warm nonlinear radiation and slip condition was examined. Comparability transformations were used to handle the non-dimensionality of the problem equations. RKF 45-method was applied for simulation, and the impacts of all embedded parameters on the biothermal framework were studied through various graphs. The paper presents interesting results due to the effects of different constraints on various profiles.