The course includes concepts and methodological tools for the analysis and design of hydraulic structures ofclosed pipelines and open channels. The following items are included:
• Introduction to real fluids, viscosity and shear stress. Flow Classification and Reynolds Number (Reynolds Device).
• Flow in closed pipelines: Steady laminar flow inside a pipe. Boundary layer theory. Turbulent flow. Friction factor and semi-empirical Darcy-Weisbach equation. Colebrook-White equation. Linear and local losses. Moody chart. Closed pipeline systems. Calculation of pump pressure head. Introduction to distribution networks.
• Flow in open channels: Total and Specific Energy in open channels. Critical, supercritical, subcritical flow. Velocity distribution in cross-sections of open channels. Manning equation. Equations St. Venant. Flow control points. Uniform and non-uniform flow in open channels. Hydraulic jump. Control structures. Spillways.
• Examples, Exercises, Applications
- Teacher: Αριστοτέλης Μαντόγλου
ECTS : 0
Language : el, en
Learning Outcomes : • Use of methods for solving project design problems • Use of logic and methods for managing infrastructure projects • Intuitive selection of parameters based on ""engineering perception"" • Understanding the selection of appropriate materials for each design problem • Evaluation of flow types, control and classification.