Enroll Course: https://www.coursera.org/learn/single-phase-pipe-hydraulics-pipe-sizing
If you’re an engineer or a student interested in pipe design and fluid dynamics, Coursera’s course, ‘Single-Phase Pipe Hydraulics & Pipe Sizing,’ under the ‘Design of Industrial Piping Systems’ specialization, is an exceptional learning resource. This course provides an in-depth analysis of predicting optimal pipe diameters to meet process requirements for single-phase fluid flow, covering both single-path and multi-path piping systems.
The course begins with fundamentals such as flow regimes, pressure drops, and flow classification, including practical problems and the use of the Reynolds number and Moody diagram for flow regime identification. It then explores the derivation and application of Bernoulli’s and steady-state energy equations, emphasizing real fluid behavior and head losses due to friction.
A significant portion of the course focuses on pressure drops caused by piping components like orifices, valves, bends, and tees. It offers detailed mathematical expressions to estimate pressure losses, along with standards for equipment such as venturi meters. The curriculum also extends to complex piping networks, introducing the Hardy-Cross Method for solving multi-branch systems and predicting flow rates and head losses.
An essential module covers transient analysis, including water and steam hammer phenomena, and strategies to mitigate these effects, ensuring piping system safety during startup, shutdown, or disturbances. The inclusion of gravity-driven flow and phase change considerations makes this course comprehensive for various real-world applications.
I highly recommend this course to engineers, piping designers, and students seeking a thorough understanding of single-phase piping systems and pressure drop analysis. The practical problems, mathematical rigor, and industry standards shared in this course make it a valuable asset for designing efficient and safe piping systems.
Enroll Course: https://www.coursera.org/learn/single-phase-pipe-hydraulics-pipe-sizing