Drain Flow Rate Calculator

Calculate the volumetric flow rate through a circular drain pipe using Manning's equation for open-channel flow, or through a drain orifice using the orifice flow equation.

Internal diameter of the circular pipe
Rise over run (e.g. 0.01 = 1%)
Depth of flow ÷ diameter (1.0 = full pipe)

Formulas Used

Manning's Equation (full or partial pipe):

Q = (1/n) × A × R2/3 × S1/2

  • Q = Flow rate (m³/s)
  • n = Manning's roughness coefficient
  • A = Cross-sectional flow area (m²)
  • R = Hydraulic radius = A / P (m), where P = wetted perimeter
  • S = Pipe slope (m/m)

For a full circular pipe: A = π D² / 4, R = D / 4

For a partial circular pipe at fill ratio y/D = r:

θ = 2 × arccos(1 − 2r)  [radians]
A = (D²/8)(θ − sin θ)
P = D × θ / 2
R = A / P

Orifice Flow Equation:

Q = Cd × A × √(2 × g × h)

  • Cd = Discharge coefficient (dimensionless)
  • A = Orifice area (m²)
  • g = 9.81 m/s²
  • h = Water head above drain (m)

Assumptions & References

  • References: Chaudhry, M.H. – Open-Channel Hydraulics; Munson et al. – Fundamentals of Fluid Mechanics; AS/NZS 3500.3 (drainage).

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