Publication Type : Journal Article
Publisher : WILEY
Source : International Journal of Chemical Engineering
Url : https://onlinelibrary.wiley.com/doi/full/10.1155/2024/5321249
Campus : Bengaluru
School : School of Engineering
Year : 2024
Abstract : This study mathematically examines chemical and biomaterial models by employing the finite element method. Unshaped biomaterials’ complex structures have been numerically analyzed using Gaussian quadrature rules. It has been analyzed for commercial benefits of chemical engineering and biomaterials as well as biorefinery fields. For the computational work, the ellipsoid has been taken as a model, and it has been transformed by subdividing it into six tetrahedral elements with one curved face. Each curved tetrahedral element is considered a quadratic and cubic tetrahedral element and transformed into standard tetrahedral elements with straight faces. Each standard tetrahedral element is further decomposed into four hexahedral elements. Numerical tests are presented that verify the derived transformations and the quadrature rules. Convergence studies are performed for the integration of rational, weakly singular, and trigonometric test functions over an ellipsoid by using Gaussian quadrature rules and compared with the generalized Gaussian quadrature rules. The new transformations are derived to compute numerical integration over curved tetrahedral elements for all tests, and it has been observed that the integral outcomes converge to accurate values with lower computation duration.
Cite this Research Publication : Mamatha, T. M., Venkatesh, B., Senthil Kumar, P., Mullai Venthan, S., Nisha, M. S., & Rangasamy, G. (2024). Numerical Integration of Some Arbitrary Functions over an Ellipsoid by Discretizing into Hexahedral Elements for Biomaterial Studies. International Journal of Chemical Engineering, 2024(1), 5321249.