Land treatment of wastewater 411W = Lh + 50 (humid)
W = Lh - 50 (arid)
The amount of percolating water, W, resulting from the applied wastewater,
Lh, has a significant effect on the allowable nitrogen loading, L'n.
From Equation 8.4, the annual N balance is:
L'n = U + D + 0.1 W Cn
for humid L'n = 336 + .2 L'n + (0.1)(Lh + 50) 10
for arid L'n = 336 + .2 L'n + (0.1)(Lh - 50) 10The relationship between the nitrogen loading and the hydraulic loading is :
L'n = 0.1 C'n Lh (SI units). Where, L'n = wastewater nitrogen loading, kg/(ha-yr);
C'n = applied nitrogen concentration, mg/L; Lh = wastewater hydraulic loading,
cm/yr.
L'n = 0.1 x 25 Lh = 2.5 Lh
or Lh = 0.4 L'n
For humid climate,
L'n = 336 + .2 L'n + 0.1(0.4L'n + 50)x10
= 965 kg/(ha-yr)
Lh = 965 x 0.4 = 386 cm/yr
For arid climate,
L'n = 336 + .2L'n + 0.1(0.4L'n - 50)x10
= 715 kg/(ha-yr)
Lh = 715 x 0.4 = 286 cm/yrSummary of solutions
Humid Arid- Wastewater N loading, (L'n), kg/(ha-yr) 965 715
- Wastewater hydraulic loading, (Lh), cm/yr 386 286
- Percolating water, (W), cm/yr 436 236
- De-nitrification, (D), kg/(ha-yr) 193 143
- Percolate N loading (P'n), kg/(ha-yr) 436 236
(P'n = 0.1 Cn W = L'n - U - D)