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Fluid Flow Systems
Sample case
An 8 km long, horizontal DN200 pipeline delivers 3.600 l/min of water over an open surface pool. The pipe friction factor is 0.018. What pressure is needed from the pump at the beginning of the pipeline to maintain steady-state operation? Assuming a linear decrease in velocity over time, what closing time is acceptable for the gate valve at the discharge of the pump to prevent the pressure from falling below atmospheric pressure? How many times is it higher than the time constant of the pipe? The pressure wave travels with 1200 m/s. What is the time constant? Are we using steel or PE piping?
Tartalomjegyzék
- Fluid Flow Systems
- Copyright Page
- Nomeclature
- 1. Introduction to Fluid Mechanics
- 1.1. Basic principles of fluid mechanics
- 1.1.1. Continuity equation
- 1.1.2. Bernoulli equation, energy law for fluids
- 1.1.3. Ideal gas law
- 1.1.4. Energy law for compressible fluids
- 1.1.5. Flow in pipelines
- 1.1.6. Flow losses
- 1.1.7. Friction factor of straight pipes
- 1.1.8. Performance curve of pipeline systems
- 1.1.9. Pump characteristic curve
- 1.1.1. Continuity equation
- 1.2. Sample questions for the Introduction
- 1.1. Basic principles of fluid mechanics
- 2. Historical introduction to water networks
- 3. Steady-state flow modeling in pressurized networks
- 4. Open-channel flows
- 5. Stationary flow of compressible fluids in pipelines
- 6. Modelling of thermal systems
- 7. Transient cases
- Bibliography
Kiadó: Akadémiai Kiadó
Online megjelenés éve: 2024
ISBN: 978 963 664 044 6
This university textbook is the joint work of the colleagues of the Department of Hydrodynamic Systems, Faculty of Mechanical Engineering at the Budapest University of Technology and Economics. Its main aim is to help students deepen their knowledge of the subject Fluid Flow Systems. It also provides a brief historical overview and a basic introduction to fluid mechanics. It discusses each chapter in varying degrees of detail based on the course material. At the end of each chapter, check questions guide students in their learning.
Hivatkozás: https://mersz.hu/till-csizmadia-weber-fluid-flow-systems//
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