The head loss due to friction in the pipe is 0.522 m, using either Manning's equation or the Hazen-Williams equation.
Manning's equation:
hf = n²L/(R²/3S²) * Q²
where:
hf is the head loss due to friction (m)
n is Manning's roughness coefficient (dimensionless)
L is the pipe length (m)
R is the hydraulic radius (m)
S is the slope of the energy grade line (m/m)
Q is the flow rate (m³/s)
Hazen-Williams equation:
hf = 10.67L/
where:
C is the Hazen-Williams coefficient (dimensionless)
d is the pipe diameter (m)
Given:
Diameter, D = 1 m
Length, L = 300 m
Manning's roughness coefficient, n = 0.013
Hazen-Williams coefficient, C = 100
Solve for:
Head loss due to friction, hf
Manning's equation:
hf = n²L/(R²/3S²) * Q²
hf = 0.013² * 300 / (1² / 3 * 1) * 1²
hf = 0.522 m
Hazen-Williams equation:
hf = 10.67L/
hf = 10.67 * 300 /
hf = 0.522 m