Abstract:
The study was conducted to determine the hydraulic geometry of the Mohananda
river and the Karatoa-Atrai System. The analysis has been carried out to find the
variation of the cross-sectional area, section factor, thalweg position, mean bed
level and erosion/accretion of the above minor rivers over the study years. The
analysis was carried out mainly based on the available cross-sections data from
76-77 to 2000-01 for the Mohananda river and from 93-94 to 2001-02 for the
Karatoa-Atrai System. Twelve (12) available cross-sections of the Mohananda
river and Twentynine (29) available cross-sections of the Karatoa-Atrai has been
used in this study.
It may be seen from the analysis of the cross-sectional data that there is no
remarkable consistency in variation of cross-sections over the years. However,
the analysis has shown certain trend in the variation of the different hydrogeometric
parameters.
The study of cross-sectional area at different locations over the years has shown
that the variation of cross-sectional area is high of the Mohananda river as
compared to the Karatoa-Atrai system over the years.
Cross-sectional area at most of the sections of Mohananda river increases almost
steadily with increase of water level from low to high. On the other hand, most of
the sections of the Karatoa-Atrai system, the area at first increases slowly at low
water level, then, increases at a faster rate with increase of high water level.
The mean bed level of the Mohananda river is very dynamic as compared to
Karatoa-Atrai system. The variation of mean bed level over the study years of
Mohananda river is above 0.90 m (with maximum of3.26 m) from kIn 15.000 to
46.890 and approximately S; 0.50 m from km 50.844 to 71.325. On the other
hand the variation of the mean bed level of the Karatoa-Atrai system is less than
that of the Mohananda river which is less than 0.90 m for the whole length of the
river system. An abnormal scour hole is found at km 59.133 of the Mohananda
river. From the field visit it appears that at the upstream of this location the left
bank is composed of stiff clayey soil and there exists a large beel adjacent to the
left bank. At this location the soil is silty clay with loose consistency. So initially
there was a deep scour hole at this point. Once this scour level touched the
underlying aquifer layer there exist a continuous sand boiling and materials are
being picked up from the river bed easily which may be a reason for the
abnormal scour hole at this location. Huge seepage from the beel may also be a
reason for such abnormal scour hole. It reveals from the analysis that the river at
the extreme downstream reach seems to be more stable than the other reach of
the river.
From the analysis of the section factors it appears that the section factor varies
with time as well as with location. From the analysis of correlation between
water level and section factors over the years, it appears that there is a good
relationship between water level and section factor. For Mohananda river, most
of the equations of average graphs fit well giving the value ofR2 above 0.80.
On the other hand, for Karatoa-Atrai system, most of the equations of average
graphs fit well giving the value of R2 above 0.85. This indicates that the sections
of the Mohananda river as well as the Karatoa-Atrai System are in balance to
water conveyance.
The movement of the thalweg of Mohananda river in the vertical direction is
very dynamic over the study years. On the other hand, the movement of the
thalweg of the Karatoa-Atrai system is not significant as compared to
Mohananda.
The shifting of thalweg line from the left bank is not significant for the case of
Mohananda river. But for the Karatoa-Atrai system, at the upstream reach the
thalweg line is gradually shifting towards the left bank while at the downstream
reach it is gradually shifting towards the right bank over the years.