Expert-level hydraulics covering open channel flow, pipe systems, hydraulic structures, pumps and turbines, flood routing, and stormwater management.
Manning equation: V = 1 over n times R2/3 times S1/2, for uniform flow. Froude number: Fr = V over sqrt of g times y, subcritical Fr less than 1. Critical depth: minimum specific energy at given discharge. Hydraulic jump: rapid transition from supercritical to subcritical, energy loss. GVF: gradually varied flow profiles, twelve standard types.
Darcy-Weisbach: hf = f times L over D times V squared over 2g. Moody chart: friction factor from Reynolds number and relative roughness. Hardy Cross: iterative method for pipe network flow distribution. Water hammer: pressure surge from rapid valve closure, wave speed analysis. EPANET: software for water distribution system modeling.
Weirs: sharp-crested and broad-crested, discharge measurement and control. Gates: sluice, tainter, flap gates for flow regulation. Spillways: ogee, chute, side channel, morning glory types. Culverts: inlet and outlet control, nomograph design method.
Pump curve: head vs discharge relationship for centrifugal pump. System curve: friction losses plus static head vs discharge. Operating point: intersection of pump and system curves. Specific speed: dimensionless parameter characterizing pump type. Cavitation: occurs when local pressure drops below vapor pressure.
| Pitfall | Fix |
|---|---|
| Wrong Manning n value | Use appropriate value for channel material and condition |
| Ignoring velocity head | Include velocity head in energy calculations |
| Pump operating far from best efficiency | Select pump with BEP near design point |
| Culvert inlet vs outlet control | Check both and use more restrictive condition |