SOLUTION.-

Use ONLINE CHANNEL 05 to determine normal depth and velocity, and critical depth and velocity, in upstream and downstream channels.

The results of ONLINE CHANNEL 05 for the upstream channel are:

1. Critical depth = 3.364 m

2. Critical velocity = 5.571 m/s

3. Normal depth = 10.098 m

4. Normal velocity = 1.648 m/s

5. Normal Froude number = 0.179

The results of ONLINE CHANNEL 05 for the downstream channel are:

1. Critical depth = 3.364 m

2. Critical velocity = 5.571 m/s

3. Normal depth = 2.669 m

4. Normal velocity = 7.113 m/s

5. Normal Froude number = 1.425

Upstream channel:

S_c = n²V_c² / R_c^4/3

y_c= 3.364

A_c = (b + zy_c) y_c = 359.033

P_c = b + 2(1 + z²)^1/2 y_c = 115.044

R_c = A_c / P_c = 3.1208

S_c = n²V_c² / R_c^4/3 = (0.025)² (5.57)² / (3.1208)^4/3 = 0.00425

Use ONLINE CHANNEL 04: S_c = 0.00425.

Downstream channel:

S_c = n²V_c² / R_c^4/3

y_c= 3.364

A_c = (b + zy_c) y_c = 359.033

P_c = b + 2(1 + z²)^1/2 y_c = 115.044

R_c = A_c / P_c = 3.1208

S_c = n²V_c² / R_c^4/3 = (0.045)² (5.57)² / (3.1208)^4/3 = 0.0138

Use ONLINE CHANNEL 04: S_c = 0.0138.

Flow area:     A = (b + zy) y          (1)

Wetted perimeter:     P = b + 2(1 + z²)^1/2 y          (2)

Hydraulic radius:     R = A / P          (3)

Friction slope:     S_f = n²V² / R^4/3          (4)

Average (reach) friction slope:     S_{f ave} = 0.5 ( S_{f 1} + S_{f 2} )          (5)

Increment along the channel ΔL:

Upstream section 1

Downstream section 2

h_f = head loss

Bernoulli equation (total head):

H₁ + z₁ = H₂ + z₂ + h_f

Fig. 1  Definition sketch for calculation of channel length increment ΔL.

S_{f ave} = h_f / ΔL

H₁ + z₁ = H₂ + z₂ + S_{f ave} ΔL

z₁ - z₂ = H₂ - H₁ + S_{f ave} ΔL

z₁ - z₂ - S_{f ave} ΔL = H₂ - H₁

S_o = (z₁ - z₂) / ΔL

S_o ΔL - S_{f ave} ΔL = H₂ - H₁

(S_o - S_{f ave}) ΔL = H₂ - H₁

ΔL = (H₂ - H₁) / (S_o - S_{f ave})

ΔL = (ΔH)/ (S_o - S_{f ave})          (6)

The sign is the sign of the denominator: negative u/s in M₂ profile, and positive d/s in S₂ profile.