Open AccessTemperature Distribution on Sticky Non Compressible Fluid Flow using DHPM Technology
Author(s) -
Rashmi Mishra,
Manvinder Singh,
Sudesh Kumar Garg
Publication year - 2019
Publication title -
international journal of engineering and advanced technology
Language(s) - English
Resource type - Journals
ISSN - 2249-8958
DOI - 10.35940/ijeat.b3030.129219
Subject(s) - mechanics , compressible flow , compressibility , homotopy analysis method , distribution (mathematics) , homotopy , homotopy perturbation method , heat flux , flow (mathematics) , exact solutions in general relativity , perturbation (astronomy) , physics , materials science , mathematics , thermodynamics , mathematical analysis , heat transfer , quantum mechanics , pure mathematics
This paper deals with the analysis of temperature distribution on sticky non compressible fluid flow by utilizing DHPM (Differential Homotopy Perturbation Method) for stretched and uniform heat flux. This technique is developed for solving many distributed and temperature velocities. The exact solution for temperature distribution is compared by the final scattering medium final result to get the accurate results. This technique gives approximately 80% accuracy results compared to exact results.