Canal fall- necessity and location- types of falls- Cross regulator and
distributory head regulator- their functions, Silt control devices, Canal
escapes- types of escapes.
Types- selection of the suitable site for the diversion headwork components
of diversion headwork- Causes of failure of structure on pervious foundation- Khosla’s theory- Design of concrete sloping
glacis weir.
Types- selection of the suitable site for the diversion headwork components
of diversion headwork- Causes of failure of structure on pervious foundation- Khosla’s theory- Design of concrete sloping
glacis weir.
Topics:
1. Types of Gravity Dam
2. Forces Acting on a Gravity Dam
3. Causes of failure of Gravity Dam
4. Elementary Profile of Gravity Dam
5. Practical Profile of Gravity Dam
6. Limiting height of Gravity Dam
7. Drainage and Inspection Galleries
Any hydraulic structure which supplies water to the off taking canal known as headwork. Storage head work is that stores water when it is available and supplies when needed.
Canal irrigation- (topics covered)
Types of Impounding structures: Gravity dam – Diversion Head works - Canal drop –
Cross drainage works – Canarl egulations – Canal outlets – Cana ll ining - Kennady s
and Lacey s Regim et heory
Topics:
1. Types of Gravity Dam
2. Forces Acting on a Gravity Dam
3. Causes of failure of Gravity Dam
4. Elementary Profile of Gravity Dam
5. Practical Profile of Gravity Dam
6. Limiting height of Gravity Dam
7. Drainage and Inspection Galleries
Any hydraulic structure which supplies water to the off taking canal known as headwork. Storage head work is that stores water when it is available and supplies when needed.
Canal irrigation- (topics covered)
Types of Impounding structures: Gravity dam – Diversion Head works - Canal drop –
Cross drainage works – Canarl egulations – Canal outlets – Cana ll ining - Kennady s
and Lacey s Regim et heory
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Canal regulation works. m4pptx
1. MODULE- 4
Canal regulation
works
Prepared by
Bibhabasu Mohanty
Dept. of Civil Engineering
SALITER, Ahmedabad
2. Content…
Canal fall- necessity and location- types of
falls- Cross regulator and distributory head
regulator- their functions, Silt control devices,
Canal escapes- types of escapes.
3. Introduction
canal obtains its share of water from the
pool behind a barrage through a structure
called the canal head regulator
also a regulation structure for controlling
the amount of water passing into the canal
In this lesson, attention focussed on
structures that regulate the discharge and
maintain the water levels within a canal
network
4.
5. These structures may be described as follows:
1. Drops and falls, to lower the water level of the
canal
2. Cross regulators, to head up water in the parent
channel to divert some of it through an off take
channel, like a distributary.
3. Distributary head regulator, to control the
amount of water flowing in to off take channel.
4. Escapes, to allow release of excess water from
the canal system.
6. Canal drops and falls
canal has a designed longitudinal slope
but has to pass through an undulating
terrain.
When a canal crosses an area that has a
larger natural surface slope, a canal drop,
also called fall in India, has to be provided
suitably at certain intervals.
7.
8. location of fall judiciously worked out
such that there should be a balance
between the quantities of excavation and
filling.
height of the fall has to be decided, since it
is possible to provide larger falls at longer
intervals or smaller falls at shorter
intervals.
9. Necessity of canal falls
When slope of ground suddenly changes to
steeper slope, permissible bed slope cannot
be maintained.
Slope of ground is more or less uniform and
slope is greater than permissible bed slope of
canal.
In cross drainage work, when difference
between level of canal and that of drainage is
small or when F.S.L of canal is above bed
level.
10. Types of canal fall
1. Ogee fall
an ogee curve (combination of convex
and concave curve) provided for carrying
canal water from higher level to lower
level.
Fall is recommended when natural
ground surface suddenly changes to a
steeper slope along the alignment of the
canal.
11. Fall consists of a concrete vertical wall and
concrete bed.
Over the concrete bed the rubble masonry
is provided in the shape of ogee curve.
Upstream and downstream of the fall is
protected by stone pitching.
12.
13. 2. Rapid fall
When slope of the natural ground surface
is even and long.
Consists of long glacis with longitudinal
slope.
Curtain walls are provided on the
upstream and downstream side of the
sloping glacis.
14.
15. 3. Trapezoidal notch fall
Body wall is constructed across the canal.
Body wall consists of several trapezoidal
notches between side piers and
intermediate piers.
Notches are kept at the upstream bed level
of canal.
Body wall is constructed with masonry or
concrete.
16.
17. 4. Vertical drop fall
Consists of vertical drop wall constructed
with masonry work.
Water flows over the crest of wall.
Concrete floor provided on downstream
side to control scouring effect.
Curtain wall provided on upstream and
downstream side.
This type falls provided at Sardar canal,
UP. Hence known as sardar fall.
18.
19. Canal regulators
include the cross regulator and the
distributary head regulator structures for
controlling the flow through a parent
canal and its off-taking distributary .
help to maintain the water level in the
canal on the upstream of the regulator.
20.
21. angle at which a distributary canal off-takes
from the parent canal has to be decided
carefully.
The best angle is when the distributary takes off
smoothly.
Another alternative is to provide both channels
(off-taking and parent) at an angle to the original
direction of the parent canal.
When it becomes necessary for the parent canal
to follow a straight alignment, the edge of the
canal rather than the centre line should be
considered in deciding the angle of off-take.
22.
23. To prevent excessive entry of silt
deposition at the mouth of the off-take, the
entry angle should be kept to between 600
and 800.
For the hydraulic designs of cross
regulators, one may refer to the Bureau of
Indian Standard code IS: 7114-1973
“Criteria for hydraulic design of cross
regulators for canals”.
24. The distributary should preferably be
designed to draw sediment proportional
to its flow, for maintaining non-siltation of
either the parent canal or itself.
three types of structures have been
suggested as discussed below along with
the relevant Bureau of Indian standard
codes.
25. Silt vanes
are thin, vertical, curved parallel walled
structures constructed of plain or
reinforced concrete on the floor of the
parent canal, just upstream of the off-
taking canal.
height of the vanes may be about one-
fourth to one-third of the depth of flow in
the parent canal.
26. thickness of the vanes should be as small
as possible and the spacing of the vanes
may be kept about 1.5 times the vane
height.
To minimize silting tendency, the pitched
floor on which the vanes are built should
be about 0.15 m above the normal bed of
the parent channel.
27.
28. Groyne walls or curved wings
project out in to the parent canal from the
downstream abutment of the off-taking
canal.
it divides the discharge of the parent canal
in proportion of the discharge
requirement of the off-taking canal with
respect to the flow in the downstream
parent canal.
29. The groyne wall extends upstream in to
the parent canal to cover ¾ to full width of
the off-take.
proportional distribution of flow in to the
off-taking canal is expected to divert
proportional amount of sediment.
The height of the groyne wall should be at
least 0.3m above the full supply level of
the parent canal.
30.
31. Skimming platforms
A skimming platform is an RCC slab
resting on low height piers on the bed of
the parent canal, and in front of the off-
taking canal.
creates a kind of low tunnel at the bed of
the parent canal, which allows the
sediment moving along its bed to pass
through downstream.
32. floor of the off-taking canal being above
the level of the platform thus only takes
suspended sediment load coming along
with the main flow in the parent canal.
suitable where the parent channel is deep
(about 2m or more) and the off-take is
comparatively small.
33. The tunnels should be at-least 0.6m deep.
The upstream and downstream edges of
the platform should be inclined at about
300 to the parent canal cross section.
34.
35. Canal escapes
structures meant to release excess water
from a canal, which could be main canal,
branch canal, distributary, minors etc.
usually an irrigation system suffers from
deficit supply in later years of its life
situations that might suddenly lead to
accumulation of excess water in a certain
reach of a canal network may occur due to
the following reasons:
36. 1.Wrong operation of head works in trying
to regulate flow in a long channel
resulting in release of excess water than
the total demand in the canal system
downstream.
2. Excessive rainfall in the command area
leading to reduced demand and
consequent closure of downstream gates.
3. Sudden closure of control gates due to a
canal bank breach.
37. The excess water in a canal results in the
water level rising above the full supply
level which, if allowed to overtop the
canal banks, may cause erosion and
subsequent breaches.
Hence, canal escapes help in releasing the
excess water from a canal at times of
emergency.
38. Escapes as also built at the tail end of
minors at the far ends of a canal network.
These are required to maintain the
required full supply level at the tail end of
the canal branch.
39. Weir or surface escapes
are constructed in the form of weirs,
without any gate or shutter and spills over
when the water level of the canal goes
above its crest level.
40.
41. Sluice or surplus escapes
gated escapes with a very low crest height.
these sluices can empty the canal much
below its full supply level and at a very
fast rate.
In some cases, these escapes act as
scouring sluices to facilitate removal of
sediment.
42.
43. The locations for providing escapes are
often determined on the availability of
suitable drains, depressions or rivers with
their bed level at or below the canal bed
level.
Escapes may be necessary upstream of
points where canals takeoff from a main
canal branch.
44. Escape upstream of major aqueducts is
usually provided.
Canal escapes may be provided at
intervals of 15 to 20km for main canal and
at 10 to 15km intervals for other canals.