This valuable new book provides a broad understanding of the main computational techniques used for processing reclamation of fluid and solid mechanics. The aim of these computational techniques is to reduce and eliminate the risk of mechanical systems in hydraulic machines. Using many computational methods for mechanical engineering problems, the book presents not only a platform for solving problems but also provides a wealth of information to address various technical aspects of troubleshooting of mechanical system failure.Suitable for classroom use, the book lends itself to courses focusing on experimental approaches in fluid mechanics. The informal, student-oriented style is retained and has the flavor of an interactive lecture by the authors. The focus of the book is on practical and realistic fluids engineering experiences. A number of photographs and figures are included, especially to illustrate new design applications and new instruments.At the end of each chapter, there are comprehensive problems that cover a broad range of concepts, often from several different chapters. These comprehensive problems grow and recur throughout the book as new concepts arise. Also included is a special Engineering Equation Solver (EES), which is keyed to many fluids engineering experiences throughout the book.

Chapter 1 Controlling the Stability of Fluid Jet in the Electrospinning of Fibers: Mathematical Modeling -- chapter 2 Updates to Control Fluid Jet in Electrospinning Process Using Taguchi's Experimental Design -- chapter 3 Mechanical and Physical Properties of Electrospun Nanofibers: An Engineering Insight -- chapter 4 Numerical Modeling for Homogeneous and Stratified Flows: From Theory to Practice -- chapter 5 Non-Revenue Water: Some Practical Hints / Kaveh Hariri Asli -- chapter 6 Three-Dimensional Heat Transfer and Water Flow Modeling / Kaveh Hariri Asli -- chapter 7 Non-Linear Modeling for Non-Revenue Water / Kaveh Hariri Asli -- chapter 8 Unaccounted-for Water of a Water System: Some Computational Aspects -- chapter 9 Water Distribution Network Analysis: From Theory to Practice / Kaveh Hariri Asli -- chapter 10 Application of Reneker's Mathematical Model to Optimize Electrospinning Process -- chapter 11 Mixed-Mode Delamination in Layered Isotropic and Laminated Composite Beam Structures -- chapter 12 Crack Parameter Identification in Elastic Plate Structures Based on Remote Strain Fields and Solution of Inverse Problems -- chapter 13 Fracture Energy of Steel Fiber-Reinforced High-Strength Concrete Beams -- chapter 14 Structural Characterization and Mechanical Behavior of Carbon Nanotube-Reinforced Aluminum Matrix Composite--A Review.

OCLC-licensed vendor bibliographic record.