The first book providing analytical and contemporary computational answers to significant biofluids problems, including prediction of tissue characteristics, non-Newtonian flows in blood vessels, obstructed and bifurcated arteries and veins, arbitrary stent shapes, and porous media A library must have Darcy flow simulation for large-scale organ analysis.

This book presents novel approaches to biological engineering and biofluid modeling. All modeling assumptions are outlined, the solutions are clearly developed, and the aforementioned subjects are dealt with rigor. That’s not all, though. To support our primary goal of providing physicians with the necessary anatomical and clinical information, equal emphasis is placed on algorithmic details, software design interfaces, and important supporting physics-based concepts.

Significantly, this book offers a self-contained explanation of all necessary biological ideas along with the prerequisite knowledge of fluid physics, elementary differential equations, and contemporary numerical analysis. Medical professionals, researchers, biomedical engineers, and students interested in quantitative fluid flow modeling, as well as engineering students keen to learn about developments in a quickly expanding and evolving field of biology, will find the presenting style appealing. Because of this, the book is a “must-read” that is appropriate for advanced undergraduate students, and after receiving supervised study, motivated readers ought to be able to start doing relevant research.