General Hydraulics
Code
10362
Academic unit
Faculdade de Ciências e Tecnologia
Department
Departamento de Ciências e Engenharia do Ambiente
Credits
6.0
Teacher in charge
Pedro Manuel da Hora Santos Coelho
Weekly hours
5
Total hours
80
Teaching language
Português
Objectives
To give students knowledge in the areas of dimensional analysis, hydrostatics, pressure flows, characteristics and selection of pumps and turbines, flows through orifices and weirs and free-surface flows. At the end of the curricular unit students should have the following abilities:
• Expertise in the computation of hydrostatic forces acting on different surfaces.
• Expertise in the fundamental concepts of hydro-kinematics and hydrodynamics (pressures, mean velocities,
forces, stresses and energy balances).
• Expertise in the hydraulic computation of steady flows in conduits under pressure.
• Comprehension of the basic concepts of unsteady flows under pressure (water hammer and mass oscillation).
• Comprehension and choice over functioning of pumps and turbines.
• Expertise in the determination of orifices and weirs flow capacity.
• Expertise in the computation of free-surface profiles in steady flows on fixed bed open channels.
Prerequisites
Lab sessions attendance (minimum 2/3) and accomplishment of six lab experiments with correspondent lab reports.
Subject matter
1. Properties of fluids.
2. Hydrostatic: hydrostatic pressure and impulsion.
3. Hydro-kinematics: flow lines and flow rate.
4. Hydrodynamics: mass, energy and momentum conservation laws.
5. Resistance laws for flows: laminar and turbulent flows.
6. Steady flows in pressure.
7. Unsteady flows in pressure: water hammer; mass oscillation.
8. Turbines and pumps: choice and functioning diagrams of turbines and pumps.
9. Flow through orifices and over weirs.
10. Open channel flows: specific energy; types of flow; total momentum; free surface profiles; hydraulic jump.
Bibliography
1. Chow, V.T. (1959). “Open Channel Hydraulics”, McGraw-Hill
2. Evett, J.B., Liu, C. (1988). "2500 solved problems in Fluid Mechaniscs and Hydraulics", McGraw-Hill.
3. Lencastre, A. (1983). “Hidráulica Geral”, Hidroprojecto, Lisboa.
4. Manzanares A. (1980). “Hidráulica Geral”, TÉCNICA A.E.I.S.T., Lisboa.
5. Quintela, A. (1981). “Hidráulica”, Fundação Calouste Gulbenkian, Lisboa. ulbenkian, Lisboa, 1981.
Teaching method
Lectures: oral presentation, whenever suitable supported with photographs and examples of real situations representing practical implementation of discussed topics.
Lab sessions: resolution of problems on applied hydraulics; practices in the Hydraulics Laboratory, with presentation and manipulation of scale physical models, illustrative of fundamental hydraulic laws.
Evaluation method
Grades from 0 (minimum) to 20 (maximum).Lab experiment reports (4): 20 % of final grade and mandatory.
Two tests: weight of 40% each of final grade.