For comparison the hydrostatic force on the gate is
P�(3 0.826)^2 g/2�23.15 kN m^1.
(ii)First trial
Referring to Fig. 6.9 assume gate opening a�1.0 m
y 2 �0.605�1.0�0.605 m
V 2 �3.547/0.605�5.86 m s^1 ;Fr 2 �V 2 /(gy 2 )1/2�2.40
conjugate depth to y 2
y^13 ��
y
2
2
�( �1 � �1
�
8 F r
22 )� ( �1 � �1
�
8
�
2 .4
2
)�1.77 m.
Asy 3 �2.1�y^13 (�1.77) submerged flow conditions exist at the gate.
Assuming no energy less between sections 1 and 2 from the energy
equation:
y 1 �V^21 /(2g)�y�V^22 /(2g)
3 �3.547^2 /(19.6� 32 )�y�5.86^2 /19.6 y�1.32 m.
From the momentum equation between sections 2 and 3:
y^2 /2�qV 2 /g�y^23 /2�qV 3 /g
1.32^2 /2�3.547�5.86/9.81�2.1^2 /2�3.547^2 /9.81�2.1
2.99�2.816
Second trial
Assume gate opening a�0.92 m
y 2 �0.605�0.92�0.557 m; V 2 �6.37 m s; Fr 2 �2.73;y^13 �1.89 m (�2.1).
The same procedure as in the first trial results in y�1.0 m and
y^2 /2�qV 2 /g�2.803 2.816.
Therefore the gate opening is a�0.925 m.
ComputingCdfromqfor this gate opening:
Cd�� �0.5.
3.547
��
0.925(19.6�3)1/2
q
�
a �2
g y
1
0.605
�
2
286 GATES AND VALVES
