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Approximate closed‐form solution of free convection flow past a vertical cone
AbstractThis paper presents a technique to find the closed‐form solution of the boundary‐value problem representing free convection flow past a vertical cone. Partial differential equations that govern the flow are converted into nonlinear ordinary differential equations with the aid of similarity transformations. First, a numerical solution is obtained with the help of the bvp4c package of MATLAB, and then utilizing the numerical solution, the closed‐form solution is obtained. The accuracy of the closed‐form solution is analyzed by the residual technique. Graphs of the residuals of the governing equations indicate that our approximate closed‐form solution closely matches the exact solution.
Approximate closed‐form solution of free convection flow past a vertical cone
AbstractThis paper presents a technique to find the closed‐form solution of the boundary‐value problem representing free convection flow past a vertical cone. Partial differential equations that govern the flow are converted into nonlinear ordinary differential equations with the aid of similarity transformations. First, a numerical solution is obtained with the help of the bvp4c package of MATLAB, and then utilizing the numerical solution, the closed‐form solution is obtained. The accuracy of the closed‐form solution is analyzed by the residual technique. Graphs of the residuals of the governing equations indicate that our approximate closed‐form solution closely matches the exact solution.
Approximate closed‐form solution of free convection flow past a vertical cone
Heat Trans
Khan, Sajid (author) / Zulifqar, Zeshan (author) / Ashraf, Muhammad (author) / Qadeer, Asma (author)
Heat Transfer ; 53 ; 3089-3103
2024-09-01
Article (Journal)
Electronic Resource
English
Approximate Closed-Form Solution for Non-linear Model of Geosynthetic-Reinforced Foundation Soils
British Library Online Contents | 1998
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