Fluid Flow SystemsIntroduction
Cs. Hos, [email protected],Cs. Bazsó, [email protected]
3rd September 2012
What is this course about?
A brief review to fluid mechanics and turbomachines (approx. 2 weeks)
Continuity, Bernoulli and energy equation
Frictional losses in pipes
Pump performance curves
Parallel and series connections
What is this course about?
A brief review to fluid mechanics and turbomachines (approx. 2 weeks)
Continuity, Bernoulli and energy equation
Frictional losses in pipes
Pump performance curves
Parallel and series connections
What is this course about?
A brief review to fluid mechanics and turbomachines (approx. 2 weeks)
Continuity, Bernoulli and energy equation
Frictional losses in pipes
Pump performance curves
Parallel and series connections
What is this course about?
A brief review to fluid mechanics and turbomachines (approx. 2 weeks)
Continuity, Bernoulli and energy equation
Frictional losses in pipes
Pump performance curves
Parallel and series connections
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Steady-state computation of hydraulic systems (approx. 3 weeks)
Pump selection for a given system
The change of operation during the day
Reservoir sizing
Homework 1.
What is this course about?
Compressible flow (approx. 1 week)
Natural gas system
Pipeline sizing, system analysis
What is this course about?
Compressible flow (approx. 1 week)
Natural gas system
Pipeline sizing, system analysis
What is this course about?
Open-channel flows (approx. 2 weeks)
Wastewater and stormwater systems
Special features of such flows
System analysis
What is this course about?
Open-channel flows (approx. 2 weeks)
Wastewater and stormwater systems
Special features of such flows
System analysis
What is this course about?
Open-channel flows (approx. 2 weeks)
Wastewater and stormwater systems
Special features of such flows
System analysis
What is this course about?
Periodic flow in pipe systems (approx. 2 weeks)
Impedance technique
Resonance frequencies of pipeline systems
What is this course about?
Periodic flow in pipe systems (approx. 2 weeks)
Impedance technique
Resonance frequencies of pipeline systems