Master Viscous Flow In Pipes: A Complete Guide
Published 2/2026
Created by DR AI
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Beginner | Genre: eLearning | Language: English | Duration: 6 Lectures ( 1h 53m ) | Size: 1.1 GB
What you'll learn
✓ Analyze fully developed laminar pipe flow, derive the parabolic velocity profile, and apply Poiseuille's law to calculate pressure drops and flowrates
✓ Explore the complex nature of turbulent flow, including velocity fluctuations, Reynolds stress, viscous sublayer, and the logarithmic velocity profile near wall
✓ Determine friction factors using the Moody chart and Colebrook formula, and evaluate head losses in straight pipes, elbows, valves, and fittings using loss coef
✓ Apply the energy equation to analyze single and multiple pipe systems, including series, parallel, and three-reservoir configurations, for pressure drop, Q & D.
✓ Understand how orifice meters, nozzle meters, Venturi meters, rotameters, and positive displacement meters work to measure flowrate and total volume in pipeline
Requirements
● Students should understand fundamental fluid properties including density, specific weight, viscosity, and the no-slip condition
● A working knowledge of pressure, hydrostatics, the Bernoulli equation, and the general energy equation is essential for following the derivations and applications in this course.
● Should be familiar with the concept of Reynolds number and its role in distinguishing between laminar and turbulent flow regimes before diving into pipe flow analysis.
● Comfort with algebra, dimensionless analysis concepts, and the ability to interpret graphical data from charts like the Moody chart is necessary for solving pipe flow problems.
Description
This comprehensive course provides an in-depth, step-by-step understanding of viscous flow in pipes, a fundamental topic in fluid mechanics for engineers, designers, and technical professionals.
We begin with the general characteristics of pipe flow, exploring laminar versus turbulent regimes, the Reynolds number, entrance regions, and fully developed flow. You'll then master fully developed laminar flow, deriving the parabolic velocity profile and applying Poiseuille's law to calculate pressure drops and flowrates with confidence.
Next, we cover the complex world of turbulent flow-understanding velocity fluctuations, Reynolds stress, the viscous sublayer, logarithmic velocity profiles, and key parameters affecting flow behavior. You'll learn dimensional analysis techniques to determine friction factors using the Moody chart and Colebrook formula for accurate loss prediction.
The course covers both major losses in straight pipes and minor losses in components like elbows, valves, expansions, contractions, and fittings-essential knowledge for system design and troubleshooting. You'll solve real-world problems involving single pipes (Type I, II, and III) and multiple pipe systems including series, parallel, and three-reservoir configurations using systematic iterative methods.
Finally, we explore flow measurement devices-orifice meters, nozzle meters, Venturi meters, rotameters, turbine meters, and volume flowmeters like nutating disk and bellows meters-explaining how each device works, its advantages, and practical applications.
Perfect for engineering students and practicing professionals seeking practical, real-world pipe flow analysis skills for immediate application.
Who this course is for
■ Ideal for mechanical, civil, chemical, and aerospace engineering students taking a fluid mechanics course who need to master pipe flow analysis for exams and design projects.
■ Perfect for professionals working in water resources, oil and gas, HVAC, or process industries who want to refresh their knowledge of pipe system design and pressure drop calculations.
■ Suitable for those needing a deeper understanding of viscous flow theory, including laminar derivations, turbulent flow structure, and advanced topics like the Reynolds stress concept.
■ Designed for technical staff involved in piping system layout, pump selection, and flow measurement who want to understand the engineering principles behind their daily work.
■ Great for motivated individuals with a background in physics or mathematics who want to understand how fluid behavior impacts real-world systems like home plumbing and irrigation.
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