Transport Phenomena in Biomedical Engineering: Artifical organ Design and Development, and Tissue Engineering
Nonfiction, Science & Nature, Technology, Engineering, Chemical & Biochemical, Civil, Science, Chemistry, General Chemistry
| Author: | Kal Renganathan Sharma | ISBN: | 9780071663984 |
| Publisher: | McGraw-Hill Education | Publication: | July 21, 2010 |
| Imprint: | McGraw-Hill Education | Language: | English |
| Author: | Kal Renganathan Sharma |
| ISBN: | 9780071663984 |
| Publisher: | McGraw-Hill Education |
| Publication: | July 21, 2010 |
| Imprint: | McGraw-Hill Education |
| Language: | English |
A Cutting-Edge Guide to Applying Transport Phenomena Principles to Bioengineering Systems
Transport Phenomena in Biomedical Engineering: Artificial Order Design and Development and Tissue Engineering explains how to apply the equations of continuity, momentum, energy, and mass to human anatomical systems. This authoritative resource presents solutions along with term-by-term medical significance. Worked exercises illustrate the equations derived, and detailed case studies highlight real-world examples of artificial organ design and human tissue engineering.
Coverage includes:
- Fundamentals of fluid mechanics and principles of molecular diffusion
- Osmotic pressure, solvent permeability, and solute transport
- Rheology of blood and transport
- Gas transport
- Pharmacokinetics
- Tissue design
- Bioartificial organ design and immunoisolation
- Bioheat transport
- 541 end-of-chapter exercises and review questions
- 106 illustrations
- 1,469 equations derived from first principles
A Cutting-Edge Guide to Applying Transport Phenomena Principles to Bioengineering Systems
Transport Phenomena in Biomedical Engineering: Artificial Order Design and Development and Tissue Engineering explains how to apply the equations of continuity, momentum, energy, and mass to human anatomical systems. This authoritative resource presents solutions along with term-by-term medical significance. Worked exercises illustrate the equations derived, and detailed case studies highlight real-world examples of artificial organ design and human tissue engineering.
Coverage includes:
- Fundamentals of fluid mechanics and principles of molecular diffusion
- Osmotic pressure, solvent permeability, and solute transport
- Rheology of blood and transport
- Gas transport
- Pharmacokinetics
- Tissue design
- Bioartificial organ design and immunoisolation
- Bioheat transport
- 541 end-of-chapter exercises and review questions
- 106 illustrations
- 1,469 equations derived from first principles
