By using our site, you agree to our collection of information through the use of cookies. To learn more, view our Privacy Policy. Log In Sign Up. Download Free PDF. Applied fluid mechanics Azmahani Abdul Aziz. Download PDF. A short summary of this paper. Applied fluid mechanics. Topics include fluid statics, fluid dynamics, pressure, friction, loss, spinning processes, and power transmission, hydraulic, pneumatic, and electro-pneumatic circuits. This course also includes industrial applications of fluids in clean rooms, vacuum systems, thin-film deposition, sputtering, ion implantation, liquid-phase epitaxy, and doping and glass production.
T,A 2 Communicate information effectively, credibly, and accurately by analyzing, interpreting, and producing basic graphics and other standard technical documents necessary for the installation, maintenance, repair, and manufacture of components.
T,A 4 Design, use, calibrate, and maintain test instrumentation systems. T,A 5 Use a variety of techniques to identify and analyze systemic problems with photonic equipment and systems, and produce troubleshooting techniques to address these problems.
T,A 6 Design, assemble, and commission photonic systems to fulfill job requirements established specifications. T,A 7 Develop procedures to verify that photonic equipment and systems function at acceptable levels. T,A 8 Use computers, electronics, and mechanical systems to suppor the photonic environment. T,A 9 Implement and conduct quality control and quality assurance procedures. T,A 10 Implement and conduct safety audits and safety assurance procedures. T,A 12 Select for purchase equipment, components, and systems that fulfill the job requirements and functional specifications.
T,A 13 Apply knowledge to develop and implement appropriate safety procedures and standard shop practices to the workplace, to ensure safety of self and others. T,A 14 Perform tasks in accordance with relevant law, polocies, procedures, standards, regulations, and ethical principles.
T,A 2 Respond to written, spoken or visual messages in a manner that ensures effective communication. T,A 3 Execute mathematical operations accurately. T,A 4 Apply a systematic approach to solve problems. T,A 5 Use a variety of thinking skills to anticipate and solve problems.
T,A 6 Locate, select, organize and document information using appropriate technology and information systems. T,A 5 Subtitle Use a variety of thinking skills to anticipate and solve problems. T,A 7 Analyze, evaluate and apply relevant information from a variety of sources. Complete coverage of fl uid mechanics for engineering applications This comprehensive volume leads you from essential fluid mechanics concepts through to practical engineering applications.
After an overview of tensor analysis, the book discusses the kinematics of flow motion and the conservation laws of fluid mechanics and thermodynamics. Detailed information on inviscid and viscous flows is followed by four chapters dealing with viscous flow.
Treatment of viscous flow starts with the laminar flow, explains in detail the laminar turbulent transition, and prepares you to fully understand the basics of turbulent flow, its modeling, and applications to several engineering cases. All conservation laws, their derivatives, and related equations in the book are written in coordinate invariant forms. This allows you to follow step-by-step mathematical manipulations and arrive at the index notation and the component decomposition. Challenging problems and projects at the end of each chapter focus on real-world engineering applications.
This book serves as both a fundamentals text for graduate students and a professional guide for working engineers. This handbook provides a summary of theoretical, experimental, and statistical data on fluid flows.
The text makes extensive use of tables and graphics so that engineers students, and researchers can rapidly locate accurate and up-to-date data. The emphasis is on applied fluid dynamics, in particular practical problems such as fluid dynamic drag, pipe and duct flow, and nozzles and diffusers, which have direct practical applications.
This is the most comprehensive introductory graduate or advanced undergraduate text in fluid mechanics available. It builds from the fundamentals, often in a very general way, to widespread applications to technology and geophysics. In most areas, an understanding of this book can be followed up by specialized monographs and the research literature.
The material added to this new edition will provide insights gathered over 45 years of studying fluid mechanics. Many of these insights, such as universal dimensionless similarity scaling for the laminar boundary layer equations, are available nowhere else.
Likewise for the generalized vector field derivatives. Other material, such as the generalized stream function treatment, shows how stream functions may be used in three-dimensional flows.
An approach to fluid mechanics is made from a historical point of view focusing on the Navier-Stokes Equations and a fluid-mechanical description of blood flow. Finally, the techniques most used to visualize cardiac flows and validate numerical models are detailed, paying special attention to Magnetic Resonance Imaging MRI in case of an in vivo validation and Particle Image Velocimetry PIV for an in vitro validation.
This book is an update and extension of the classic textbook by Ludwig Prandtl, Essentials of Fluid Mechanics. It is based on the 10th German edition with additional material included. Chapters on wing aerodynamics, heat transfer, and layered flows have been revised and extended, and there are new chapters on fluid mechanical instabilities and biomedical fluid mechanics.
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