Title of article
An integro-partial differential equation for modeling biofluids flow in fractured biomaterials
Author/Authors
Zadeh، نويسنده , , Kouroush Sadegh، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
8
From page
72
To page
79
Abstract
A novel mathematical model in the framework of a nonlinear integro-partial differential equation governing biofluids flow in fractured biomaterials is proposed, solved, verified, and evaluated. A semi-analytical solution is derived for the equation, verified by a mass-lumped Galerkin finite element method (FEM), and calibrated with two in vitro experimental datasets. The solution process uses separation of variables and results in explicit expression involving complete and incomplete beta functions. The proposed semi-analytical model shows reasonable agreements with the finite element simulator as well as with two in vitro experimental time series and can be successfully used to simulate biofluids (e.g. water, blood, oil, etc.) flow in natural and synthetic porous biomaterials.
Keywords
Finite element method (FEM) , Incomplete beta function , Integro-partial differential equation , Scaling , Porous media
Journal title
Journal of Theoretical Biology
Serial Year
2011
Journal title
Journal of Theoretical Biology
Record number
1540542
Link To Document