By Ashim Datta, Vineet Rakesh
Prepared round challenge fixing, this e-book lightly introduces the reader to computational simulation of biomedical shipping strategies, bridging primary idea with real-world purposes. utilizing this ebook the reader will achieve an entire starting place to the topic, beginning with challenge simplification, enforcing it in software program, via to examining the implications, validation, and optimization. Ten case stories, targeting rising components resembling thermal remedy and drug supply, with effortless to keep on with step by step directions, offer ready-to-use templates for additional functions. resolution technique utilizing the generally used software COMSOL Multiphysics is defined intimately; necessary biomedical estate info and correlations are integrated; and heritage thought info is given on the finish of the booklet for simple reference. a mix of brief and prolonged routines make this e-book a whole path package deal for undergraduate and starting graduate scholars in biomedical and biochemical engineering curricula, in addition to a self-study advisor.
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Additional info for An Introduction to Modeling of Transport Processes: Applications to Biomedical Systems
Situation, we will need the appropriate equation(s). These equations are applied over the entire computational domain, or selectively over its subdomains. If there is more than one physics in any subdomain, the number of equations to be applied must equal the number of physics in that subdomain. 2 involves three subdomains (gel, enamel and dentin) but each subdomain involves only the diffusion equation. We are ignoring any temperature differences in the entire computational domain. 6(a)) are all probably going to be at the same mouth temperature.
8. Case studies showing examples of governing equations as they are obtained by simplifying various biomedical situations, including their computer implementation, are shown in the table below. Derivations of the governing equations are provided in Chapter 7 and background information for the source terms is in Chapter 8. Examples of various physics provided in the case studies in this book Physical processes Examples in case studies Fluid flow Steady Transient V VI, X Heat transfer Transient Bioheat as source Source exponentially decaying I, II VIII, IX, X X Mass transfer Steady Transient Transient, with reaction Reaction only V III IV, VII, X VII, VIII Coupled physics Heat transfer with Joule heating Heat transfer with mass transfer Mass transfer with fluid flow Mass transfer with multiple reactions Fluid flow, heat transfer and mass transfer IX VIII, IX V, X VII X with other heating or cooling effects.
Definitions of the properties and some data are provided in Chapter 9. Sensitivity analysis to accommodate uncertainty in data is discussed in Chapter 5.