The main objective of this book is to understand and manipulate the physical, chemical, and biological processes that occur in microscale fluidic systems. It explains microfluidics and biofluidics and their application to innovative design and computational intelligence methods used for solving nonlinear problems of engineering. It also covers new evolving trends in engineering related to green technologies, biomedical devices, computer-aided design, smart manufacturing, artificial intelligence systems, and sustainability. The book adopts a balanced approach between academic research and industrial applications.
Features:
This book is aimed at researchers and graduate students in fluid dynamics, mechanical engineering, and bioengineering.
Show moreThe main objective of this book is to understand and manipulate the physical, chemical, and biological processes that occur in microscale fluidic systems. It explains microfluidics and biofluidics and their application to innovative design and computational intelligence methods used for solving nonlinear problems of engineering. It also covers new evolving trends in engineering related to green technologies, biomedical devices, computer-aided design, smart manufacturing, artificial intelligence systems, and sustainability. The book adopts a balanced approach between academic research and industrial applications.
Features:
This book is aimed at researchers and graduate students in fluid dynamics, mechanical engineering, and bioengineering.
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