[Kozo Sato]Complex Analysis for Practical Engineering(pdf){Zzzzz}

Maximizing reader insights into the fundamentals of complex analysis, and providing complete instructions on how to construct and use mathematical tools to solve engineering problems in potential theory, this book covers complex analysis in the context of potential flow problems. The basic concepts and methodologies covered are easily extended to other problems of potential theory.

Featuring case studies and problems that aid readers understanding of the key topics and of their application to practical engineering problems, this book is suitable as a guide for engineering practitioners.

The complex analysis problems discussed in this book will prove useful in solving practical problems in a variety of engineering disciplines, including flow dynamics, electrostatics, heat conduction and gravity fields.

Publisher: Springer; 2015 edition (March 3, 2015)
Language: English
ISBN-10: 3319130625
ISBN-13: 978-3319130620

Editorial Reviews
From the Back Cover

Maximizing reader insights into the fundamentals of complex analysis, and providing complete instructions on how to construct and use mathematical tools to solve engineering problems in potential theory, this book covers complex analysis in the context of potential flow problems. The basic concepts and methodologies covered are easily extended to other problems of potential theory.

Featuring case studies and problems that aid readers understanding of the key topics and of their application to practical engineering problems, this book is suitable as a guide for engineering practitioners.

The complex analysis problems discussed in this book will prove useful in solving practical problems in a variety of engineering disciplines, including flow dynamics, electrostatics, heatconduction and gravity fields.
About the Author
Kozo Sato, Ph.D., is a professor of Graduate School of Engineering and Director of Frontier Research Centre for Energy and Resources at the University of Tokyo. His areas of expertise include mathematical modelling of fluid flow through heterogeneous media, reservoir characterization through tracer and pressure-transient analyses, and thermodynamics of underground fluid systems, with research interests in petroleum development and CCS (carbon dioxide capture and storage). Sato holds a BS degree from the University of Tokyo, and MS and Ph.D. degrees from Stanford University, all in petroleum engineering.