Managing sedimentation in spate irrigation · PDF fileSediment management in traditional...
Transcript of Managing sedimentation in spate irrigation · PDF fileSediment management in traditional...
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Managing sedimentation in
spate irrigation schemes
Philip Lawrence
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Sediment transport in wadis
• Wadi bed materials can range from
boulders and cobbles to silts
• Total load sediment concentrations
exceeding 10 percent by weight occur in
some wadis.
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Typical range of sediment sizes
transported in wadis
silt and clay
suspended
sand
bed load
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Sediment management in
traditional systems
• Intakes are washed away by large floods
• Traditional canals are steep
• Usually all the flow in a canal is diverted fields at
a single point,
• When command starts to be lost intakes can
easily be moved further upstream
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Sediment problems in
modernised systems
• Much larger discharges diverted from flood flows
• Sometimes limited sediment transporting capacity in
canals = canal sedimentation
• Manual operation of sluice gates in spate flows difficult
or impossible.
• Farmers may also be extremely reluctant to open sluice
gates or operate flushed settling basins = no sediment
exclusion = large de-silting requirements
• Rising command levels = weir crests and the sill levels
of water control structures need to be raised in
expensive rehabilitation projects
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A Sediment management
strategy
• Limit the diversion of coarser sediments
• Transport fine sediments through canals to the fields
• Make provision for the inevitable rise in command levels
• Accept the need for canal de-silting and plan for it
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Limit diversion of coarse sediments
• Locate intakes at outside of bends
• Limit diversion when wadi flows high –throttling structures or close gates
• Sediment excluding intakes
• Secondary sediment control
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Bed load sweep at a channel
bend
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Examples of “sediment
excluding” intakes
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Sediment excluding intakes –
application of physical and
numerical models
• Physical models of practical scale overestimate sediment excluding performance - only represent coarsest sediment fractions
• Numerical modelling overcome problems in simulating a wide range of sediment grain sizes. Models and software available – suitable for predicting performance of basic intakes, sediment extractors, settling basins and canals. BUT need some data!
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3 D numerical Model to predict
sediment exclusion
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Sediment exclusion
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Secondary sediment control
• Extractors abstract water continuously
from the bed of a canal, can provide
control over the size range of the extracted
sediment but not usually used in spate
schemes
• Settling basins (gravel traps) – trap coarse
sediments at the head of the Main canal
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Wadi Mawr settling basins
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Settling basins in spate
schemes • Advantage of a gravel trap is that some
sedimentation can occur without limiting flows, important where the available head is limited. If an excavator is used then de-silting is mostly focussed at the basin. Disadvantages include :
• Availability of flows for flushing
• Operation of flushing gates in rapidly varying spate flows
• Large variation in sizes of sediment trapped with operating discharge-silts trapped at through.
• Mechanical excavation can be difficult
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Minimising trapping fine sediments
• Basins should be relatively narrow, with sediment storage obtained by increasing the length, rather than the width or depth of the basin.
• If it is considered necessary substantial reductions in the trap efficiency for fine sediments can be made if the tail water level in the basin is lowered for very low basin discharges. One possibility is to provide a notched weir at the basin exit, so that tail water levels are substantially lowered when the basin discharge is very low.
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Hybrid extractor/flushed basin
for large schemes
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Transport fine sediments
through canals to the
fields
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Transport fine sediments
through canals to the fields
• Design steep canals
• Minimise flow division – ideally maintain
full canal discharge from intake to field
outlet, (except for flow division to reduce
flows to those that farmers can handle)
• Avoid water control structures that slow
down/pond canal flows (except at the
diversion to field outlet )
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Spate canal design methods
• no scouring – no silting” criteria – not for spate
• “Regime” design methods - Simons and Albertson include equations for canals with sand beds and cohesive banks carrying “heavy” sediment loads – have been used in spate systems
• Rational methods provide the most logical method of designing canals to achieve a specified sediment transporting capacity. Chang, 1985 method provides predictions of slopes and bed widths that are similar to that observed in many spate systems.
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Use surveys to aid design of canals
in modernised schemes
• Canal designs in modernised schemes are
best based on the slopes and cross
sections of (stable) existing canals. Design
of enlarged, extended or new canals can
then be derived using the Chang equation,
with a judicious choice of input parameters
to provide a good match with the slopes
and cross sections observed in existing
canals.
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Predicting future command
levels
• Rise rates 5 mm to more than 50 mm year
• Existing schemes from historical rates of rise of field and command levels, and the extent of upstream movement of traditional diversion structures.
• In new schemes, where there are no existing spate systems in the vicinity, use available sediment yield information.
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Typical regional sediment yield
data
yield = 3209 Area-0.21
R2 = 0.36
10
100
1000
10000
1 10 100 1000 10000 100000 1000000
Catchment Area km2
Yie
ld t
/km
2/y
Ethiopia
Eritrea
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Summary of sediment
management options
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Basic intake without a weir
• Limit flows entering canal with flow
throttling structure
• If provided close gates during periods of
very high wadi flows
• Design steep canals
• Consider arrangements for and
sustainability of canal de-silting
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Basic (small ?) intake with a low
weir
• Provide simple sediment sluice
• Align canal intake to minimise diversion angle
• Limit flows entering canal, close gates during periods of very high wadi flows
• Consider if mechanically excavated gravel trap is appropriate.
• Make provision for rising command levels
• Consider arrangements for and sustainability of canal de-silting
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“ Higher cost” intakes
• Incorporate sediment sluice, consider curved channel sediment excluder if bed sediments are coarse
• Align canal intake to minimise diversion angle
• Limit flows entering canal, close gates during periods of very high wadi flows
• Consider if mechanically excavated gravel trap is appropriate, or whether flushed settling basin might be feasible.
• Where high investments costs might be justified by reduced de-silting, consider hybrid extractor /settling basin system located in the canal head reach
• Make provision for rising command levels
• Consider arrangements for and sustainability of canal de-silting