SlideShare a Scribd company logo

SEDIMENTATION CONTROL MODERN TECHNIQUES

HAMMAD BASHIR
HAMMAD BASHIR
1 of 12
Download to read offline
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 2013 USER1 11-C-809 Submitted To:- PROF,Muhammad Shafqat Mehboob [SEDIMENTATION CONTROL MODERN TECHNIQUES]
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 SEDIMENTATION CONTROL MODERN TECHNIQUES SEDIMENT CONTROL: Sediment and erosion control is a critical necessity to ensure protection of fish and other aquatic species when undertaking any maintenance activity. Sediment in a watercourse can disrupt many of the life processes of fish and other aquatic life. Sediment related impacts can include: • Injury or death. Sediment can clog or abrade fish gills causing suffocation or tissue damage. • Inability to feed. Since fish are visual feeders, sediment in water can impair their ability to forage for food. • Infill habitat. Sediment may settle in pools or riffle habitats. This may impact salmonid egg viability or may affect food and nutrient sources by covering benthos (bottom-dwelling organisms) upon which fish depend for food. • Increased wear on mechanical equipment or other machinery. Sediment can also cause plugging of irrigation intake screens.
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Modern Techniques to control sedimentation: Surface Erosion Controls: 1. Mulching or Mats: Spreading straw or hay mulch over exposed soils may be an effective temporary measure to control erosion. Mulch can help reduce the erosive energy of rainfall such that agricultural soil, manure or sediment is not transported to a watercourse. Since some mulch can suppress the regeneration or growth of desired plants, they should only be used when recommended by a professional in an overall plan. Where large areas of exposed soils are present on unstable slopes, coco-matting may be considered. This may also be a technique used when works are completed late in the season if seed not established.
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 2. Silt Fencing: Silt fencing may be an appropriate sediment control mechanism after drainage maintenance works are completed. It is generally recommended that ditch spoil is placed above the top of bank where its re-entry to a watercourse will not occur. If it is placed where its entry to a watercourse is possible then silt fending should be considered in addition to seeding. When installing a silt fence, the bottom of the filter material must be trenched into the ground, See Figure 3 for details. After a rain event inspect the silt fence. A build up of 30 cm or more should be removed from the edge of the fence.
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Temporary Instream Sediment Controls for Low Flows Outlet Blocking:  An easy method of sediment control is to block the ditch outlet using plywood or a ‘plug’ of clean material (e.g. gravel) at the outlet. Anything used to block an outlet must be removed once the work is completed, and should not be in place from November to June of any year. For removal of the temporary blockage, re-release of water into the channel should be done gradually, and only once sediment has settled out of the water and the water is clear.  Check dams are structures that provide a small barrier to water flow, behind which water is temporarily ponded allowing sediment to settle out.  Check dams can also be used to isolate small work areas and to prevent sediment laden water from being transported downstream. Check dams should only be used in ditches that have small amounts of ponded water very low flows. Figure Temporary Check Dam
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Isolation and Diversion Techniques for Instream Work When working in a ditch that has flowing water, the work area should be isolated and the water diverted around the work area. Isolation of water flow may be undertaken using several different methods. The method chosen should be appropriate for the amount of flowing water in the watercourse. Several accepted methods for water flow isolation are described below. • Irrigation gates or other instream structures. • Blocking an instream culvert. • Constructing a coffer dams In all cases a temporary diversion channel must be constructed that routes the flow around the work site.  Cofferdams: Cofferdams are used to isolate a section of watercourse from flowing water. Materials for cofferdams should be selected based on ease of maintenance and complete removal following construction activities. The dam may be made of:  Rock  Sand bags  Wood  Sheet metal  Gravel or earthen plug If water is flowing in the ditch, cofferdams may be used in combination with other methods such as clean water bypasses and/or pumps. Wood or sheet metal dams must be anchored into the banks of the ditch to prevent seepage and erosion around the edges of the dam, see Figure During construction, inspect the dam. Extra material (for example, more sandbags) should be kept on site to raise the dam if water behind the dam threatens to spill over into the work area. Immediately repair any gaps, holes or scour around the dam to prevent failure. Upon completion of maintenance works, the structure should be removed gradually to prevent sediments from moving downstream or erosion from occurring.
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Isolation Techniques for Instream Works
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809  Channel Diversions: Channel diversions are used where it is possible to redirect the water flow temporarily around the section of the ditch where work is being conducted. A stream diversion is a temporary bypass through a pipe or a flume may be used if there is enough grade for gravity flow. An excavated channel is also an option, although it is more labor intensive and can generate large amounts of sediment. See Figure for examples of channel diversions. FIGURE Stream Diversion Techniques
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809  Pumped Diversion: The pumped diversion is suitable for intermittent and low flow streams that can be pumped. Pump capacity must be sufficient to handle the flow in the ditch. Temporary dams are constructed upstream and downstream of the work area. Advantages of a pumped diversion include: • Downstream sediment transport can almost be eliminated. • De-watering of the work area is possible. • Pipes can be moved about to allow construction operations. • Increased flows can be managed by adding more pumping capacity. Some Disadvantages of a pumped diversion include: • Flow volume is limited by pump capacity. • Requires 24-hour monitoring of pumps . • Sudden rain could overtop dams. • Minor in-stream disturbance to install and remove dams. • Erosion at pipe outlet. Figure Typical Pumped Stream Diversions
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Pumping Over Temporary Clay Dam
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809  Bypass Flumes: A bypass flume can be constructed out of a heavy pipe that is large enough to handle the water flow in the watercourse. See Figure for an example of a bypass flume. Advantages of excavated channels and flumes are: • Isolates work from water flow and allow dewatering • Can handle larger flows than pumps Disadvantages of excavated channels and flumes are: • Channels must be protected from erosion • Flow diversion and then re-direction with small dams causes instream disturbance and sediment. In stream silt fences should be used if sedimentation is occurring. See Figure. Figure Temporary Silt Fence
DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 SEDIMENTS REMOVAL BY DEVICES: The process is set up by devices allowing continuous and controlled transfer of sediment within the reservoir in a relatively small scale but permanent mode. Key element is an automatically working vessel with a suction dredging system installed that can be diesel or preferably electric driven. To allow for an exact positioning the vessel is directed by tractor cables. Sediments are loosened by a suction head, pumped towards the reservoir’s outlet and dumped in front of the outflow elements. The vessel gradually strikes the reservoir floor until the complete surplus sediment is removed. Sediment transfer vessel “SediMover” (automatic, electrically driven) The newly dumped sediments are eroded by the hydraulic discharge and therefore carried out of the reservoir, passing turbines or outlet valves. Both types of outflow elements are able to handle water flow with some degree of sediment load. The sediment transfer rate can be adapted to the outflow rate and parameters to guarantee a compatible process speed. For an environmentally sound project implementation the time span should be set to months or years, depending on local conditions. A commercially competitive project performance is still assured by a high degree of automation. Continuous sediment transfer (ConSed-Method)

Recommended

Reservoir sedimentation causes sedimentation
Reservoir sedimentation causes sedimentationReservoir sedimentation causes sedimentation
Reservoir sedimentation causes sedimentationPramoda Raj
 
GROUNDWATER PROVINCES IN INDIA
GROUNDWATER PROVINCES IN INDIAGROUNDWATER PROVINCES IN INDIA
GROUNDWATER PROVINCES IN INDIAharikrishnankch
 
3.bedforms under unidirectional flow
3.bedforms under unidirectional flow3.bedforms under unidirectional flow
3.bedforms under unidirectional flowManish Chaturvedi
 
Drainage basins
Drainage basinsDrainage basins
Drainage basinsShuvo Roy
 
Delta formation
Delta formationDelta formation
Delta formationaquinaspolitics
 
Reservoir sedimentation causes and mitigation
Reservoir sedimentation causes and mitigationReservoir sedimentation causes and mitigation
Reservoir sedimentation causes and mitigationPramoda Raj
 
Aquifer test and estimation
Aquifer test and estimationAquifer test and estimation
Aquifer test and estimationPutika Ashfar Khoiri
 
Subsurface geophysical methods
Subsurface geophysical methodsSubsurface geophysical methods
Subsurface geophysical methodsMohit Kumar
 

Recommended

Reservoir sedimentation causes sedimentation
Reservoir sedimentation causes sedimentationReservoir sedimentation causes sedimentation
Reservoir sedimentation causes sedimentationPramoda Raj
 
GROUNDWATER PROVINCES IN INDIA
GROUNDWATER PROVINCES IN INDIAGROUNDWATER PROVINCES IN INDIA
GROUNDWATER PROVINCES IN INDIAharikrishnankch
 
3.bedforms under unidirectional flow
3.bedforms under unidirectional flow3.bedforms under unidirectional flow
3.bedforms under unidirectional flowManish Chaturvedi
 
Drainage basins
Drainage basinsDrainage basins
Drainage basinsShuvo Roy
 
Delta formation
Delta formationDelta formation
Delta formationaquinaspolitics
 
Reservoir sedimentation causes and mitigation
Reservoir sedimentation causes and mitigationReservoir sedimentation causes and mitigation
Reservoir sedimentation causes and mitigationPramoda Raj
 
Aquifer test and estimation
Aquifer test and estimationAquifer test and estimation
Aquifer test and estimationPutika Ashfar Khoiri
 
Subsurface geophysical methods
Subsurface geophysical methodsSubsurface geophysical methods
Subsurface geophysical methodsMohit Kumar
 
RESERVOIR SEDIMENTATION
RESERVOIR SEDIMENTATIONRESERVOIR SEDIMENTATION
RESERVOIR SEDIMENTATIONLaxmanBhoyewar
 
Meandering Rivers
Meandering RiversMeandering Rivers
Meandering RiversUmer Khayam
 
Principles of groundwater flow
Principles of groundwater flowPrinciples of groundwater flow
Principles of groundwater flowPutika Ashfar Khoiri
 
Artificial ground water recharge ppt
Artificial ground water recharge pptArtificial ground water recharge ppt
Artificial ground water recharge pptLaukush Kumar
 
Ground water exploration
Ground water explorationGround water exploration
Ground water explorationHemanthKumar1131
 
Aquifer types
Aquifer typesAquifer types
Aquifer typesProf. A.Balasubramanian
 
Meander.ppt
Meander.pptMeander.ppt
Meander.pptCyprian Ozigbo
 
Vertical distribution of groundwater
Vertical distribution of groundwaterVertical distribution of groundwater
Vertical distribution of groundwaterProf. A.Balasubramanian
 
Aquifer Parameter Estimation
Aquifer Parameter EstimationAquifer Parameter Estimation
Aquifer Parameter EstimationC. P. Kumar
 
Well hydraulics
Well hydraulicsWell hydraulics
Well hydraulicsSaad Raja
 
Delta
DeltaDelta
DeltaM.T.H Group
 
Aquifer
AquiferAquifer
AquiferShah Naseer
 
Groundwater Investigation Techniques-Geophysical Methods
Groundwater Investigation Techniques-Geophysical MethodsGroundwater Investigation Techniques-Geophysical Methods
Groundwater Investigation Techniques-Geophysical MethodsGowri Prabhu
 
DARCY’S LAW
DARCY’S LAWDARCY’S LAW
DARCY’S LAWPramoda Raj
 
Sea water intrusion
Sea water intrusion Sea water intrusion
Sea water intrusion Prashant Katti
 
groundwater
groundwatergroundwater
groundwaterGladys Joy Bautista
 
Hydrograph
HydrographHydrograph
HydrographShah Naseer
 
1 dams
1 dams1 dams
1 damsRaghav Gadgil
 
Groundwater Modeling and GIS
Groundwater Modeling and GISGroundwater Modeling and GIS
Groundwater Modeling and GISProf. A.Balasubramanian
 
Groundwater aquifers
Groundwater aquifersGroundwater aquifers
Groundwater aquifersGeology Department | Faculty of Natural Science
 
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...Sukesh Nayak
 
Aqua-Barrier Water Inflated Dams Literature
Aqua-Barrier Water Inflated Dams LiteratureAqua-Barrier Water Inflated Dams Literature
Aqua-Barrier Water Inflated Dams LiteratureDarren Miller
 

More Related Content

What's hot

RESERVOIR SEDIMENTATION
RESERVOIR SEDIMENTATIONRESERVOIR SEDIMENTATION
RESERVOIR SEDIMENTATIONLaxmanBhoyewar
 
Meandering Rivers
Meandering RiversMeandering Rivers
Meandering RiversUmer Khayam
 
Artificial ground water recharge ppt
Artificial ground water recharge pptArtificial ground water recharge ppt
Artificial ground water recharge pptLaukush Kumar
 
Aquifer Parameter Estimation
Aquifer Parameter EstimationAquifer Parameter Estimation
Aquifer Parameter EstimationC. P. Kumar
 
Well hydraulics
Well hydraulicsWell hydraulics
Well hydraulicsSaad Raja
 
Groundwater Investigation Techniques-Geophysical Methods
Groundwater Investigation Techniques-Geophysical MethodsGroundwater Investigation Techniques-Geophysical Methods
Groundwater Investigation Techniques-Geophysical MethodsGowri Prabhu
 

What's hot (20)

RESERVOIR SEDIMENTATION
RESERVOIR SEDIMENTATIONRESERVOIR SEDIMENTATION
RESERVOIR SEDIMENTATION
 
Meandering Rivers
Meandering RiversMeandering Rivers
Meandering Rivers
 
Principles of groundwater flow
Principles of groundwater flowPrinciples of groundwater flow
Principles of groundwater flow
 
Artificial ground water recharge ppt
Artificial ground water recharge pptArtificial ground water recharge ppt
Artificial ground water recharge ppt
 
Ground water exploration
Ground water explorationGround water exploration
Ground water exploration
 
Aquifer types
Aquifer typesAquifer types
Aquifer types
 
Meander.ppt
Meander.pptMeander.ppt
Meander.ppt
 
Vertical distribution of groundwater
Vertical distribution of groundwaterVertical distribution of groundwater
Vertical distribution of groundwater
 
Aquifer Parameter Estimation
Aquifer Parameter EstimationAquifer Parameter Estimation
Aquifer Parameter Estimation
 
Well hydraulics
Well hydraulicsWell hydraulics
Well hydraulics
 
Delta
DeltaDelta
Delta
 
Aquifer
AquiferAquifer
Aquifer
 
Groundwater Investigation Techniques-Geophysical Methods
Groundwater Investigation Techniques-Geophysical MethodsGroundwater Investigation Techniques-Geophysical Methods
Groundwater Investigation Techniques-Geophysical Methods
 
DARCY’S LAW
DARCY’S LAWDARCY’S LAW
DARCY’S LAW
 
Sea water intrusion
Sea water intrusion Sea water intrusion
Sea water intrusion
 
groundwater
groundwatergroundwater
groundwater
 
Hydrograph
HydrographHydrograph
Hydrograph
 
1 dams
1 dams1 dams
1 dams
 
Groundwater Modeling and GIS
Groundwater Modeling and GISGroundwater Modeling and GIS
Groundwater Modeling and GIS
 
Groundwater aquifers
Groundwater aquifersGroundwater aquifers
Groundwater aquifers
 

Similar to SEDIMENTATION CONTROL MODERN TECHNIQUES

ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...Sukesh Nayak
 
Aqua-Barrier Water Inflated Dams Literature
Aqua-Barrier Water Inflated Dams LiteratureAqua-Barrier Water Inflated Dams Literature
Aqua-Barrier Water Inflated Dams LiteratureDarren Miller
 
dewateringtechniques 2.pptx
dewateringtechniques 2.pptxdewateringtechniques 2.pptx
dewateringtechniques 2.pptxCarolTumaneng
 
Building Services :Drainage, Rain Water Disposal and Harvesting
Building Services :Drainage, Rain Water Disposal and HarvestingBuilding Services :Drainage, Rain Water Disposal and Harvesting
Building Services :Drainage, Rain Water Disposal and HarvestingSumit Ranjan
 
Advances in Hydraulic Structures, Rubber Dam-A way forward
Advances in Hydraulic Structures, Rubber Dam-A way forwardAdvances in Hydraulic Structures, Rubber Dam-A way forward
Advances in Hydraulic Structures, Rubber Dam-A way forwardIEI GSC
 
Raod side ditches
Raod side ditchesRaod side ditches
Raod side ditchesamanullahk
 
Dewatering techniques
Dewatering techniquesDewatering techniques
Dewatering techniquesjamali husain
 
underwater-construction-55849d4caf8cd.pptx
underwater-construction-55849d4caf8cd.pptxunderwater-construction-55849d4caf8cd.pptx
underwater-construction-55849d4caf8cd.pptxJayachandran68
 
Lec-Groundwater_control-Dr AJK - Copy.ppt
Lec-Groundwater_control-Dr AJK - Copy.pptLec-Groundwater_control-Dr AJK - Copy.ppt
Lec-Groundwater_control-Dr AJK - Copy.ppthassanakhar
 
Efficient Use of Rain Water by Altering Channel System
Efficient Use of Rain Water by Altering Channel SystemEfficient Use of Rain Water by Altering Channel System
Efficient Use of Rain Water by Altering Channel Systemtheijes
 
A04320105
A04320105A04320105
A04320105theijes
 
Rooftop Rainwater Harvesting -Natural resource management
Rooftop Rainwater Harvesting -Natural resource managementRooftop Rainwater Harvesting -Natural resource management
Rooftop Rainwater Harvesting -Natural resource managementRevadhBalraj
 
Intake works at diversion
Intake works at diversion Intake works at diversion
Intake works at diversion RAJ BAIRWA
 
L14 - ONSITE SANITATION.pptx
L14 - ONSITE SANITATION.pptxL14 - ONSITE SANITATION.pptx
L14 - ONSITE SANITATION.pptxPRACHI DESSAI
 
Highway drainage system
Highway drainage systemHighway drainage system
Highway drainage systemmadhvitilgam
 

Similar to SEDIMENTATION CONTROL MODERN TECHNIQUES (20)

ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
ENVIRONMENTAL POLLUTION CONTROL METHOD ADOPTED BY NTPC LTD. IN ASH DYKE (STAR...
 
Aqua-Barrier Water Inflated Dams Literature
Aqua-Barrier Water Inflated Dams LiteratureAqua-Barrier Water Inflated Dams Literature
Aqua-Barrier Water Inflated Dams Literature
 
dewateringtechniques 2.pptx
dewateringtechniques 2.pptxdewateringtechniques 2.pptx
dewateringtechniques 2.pptx
 
Building Services :Drainage, Rain Water Disposal and Harvesting
Building Services :Drainage, Rain Water Disposal and HarvestingBuilding Services :Drainage, Rain Water Disposal and Harvesting
Building Services :Drainage, Rain Water Disposal and Harvesting
 
Advances in Hydraulic Structures, Rubber Dam-A way forward
Advances in Hydraulic Structures, Rubber Dam-A way forwardAdvances in Hydraulic Structures, Rubber Dam-A way forward
Advances in Hydraulic Structures, Rubber Dam-A way forward
 
Raod side ditches
Raod side ditchesRaod side ditches
Raod side ditches
 
Dewatering techniques
Dewatering techniquesDewatering techniques
Dewatering techniques
 
Group 5 1
Group 5 1Group 5 1
Group 5 1
 
underwater-construction-55849d4caf8cd.pptx
underwater-construction-55849d4caf8cd.pptxunderwater-construction-55849d4caf8cd.pptx
underwater-construction-55849d4caf8cd.pptx
 
Mine dewatering technology data sheet
Mine dewatering technology data sheetMine dewatering technology data sheet
Mine dewatering technology data sheet
 
Lec-Groundwater_control-Dr AJK - Copy.ppt
Lec-Groundwater_control-Dr AJK - Copy.pptLec-Groundwater_control-Dr AJK - Copy.ppt
Lec-Groundwater_control-Dr AJK - Copy.ppt
 
A04320105
A04320105A04320105
A04320105
 
Efficient Use of Rain Water by Altering Channel System
Efficient Use of Rain Water by Altering Channel SystemEfficient Use of Rain Water by Altering Channel System
Efficient Use of Rain Water by Altering Channel System
 
A04320105
A04320105A04320105
A04320105
 
Rooftop Rainwater Harvesting -Natural resource management
Rooftop Rainwater Harvesting -Natural resource managementRooftop Rainwater Harvesting -Natural resource management
Rooftop Rainwater Harvesting -Natural resource management
 
Intake works at diversion
Intake works at diversion Intake works at diversion
Intake works at diversion
 
L14 - ONSITE SANITATION.pptx
L14 - ONSITE SANITATION.pptxL14 - ONSITE SANITATION.pptx
L14 - ONSITE SANITATION.pptx
 
Highway drainage system
Highway drainage systemHighway drainage system
Highway drainage system
 
BMPs Presentation
BMPs PresentationBMPs Presentation
BMPs Presentation
 
Pumping Stations
Pumping StationsPumping Stations
Pumping Stations
 

SEDIMENTATION CONTROL MODERN TECHNIQUES

  • 1. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 2013 USER1 11-C-809 Submitted To:- PROF,Muhammad Shafqat Mehboob [SEDIMENTATION CONTROL MODERN TECHNIQUES]
  • 2. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 SEDIMENTATION CONTROL MODERN TECHNIQUES SEDIMENT CONTROL: Sediment and erosion control is a critical necessity to ensure protection of fish and other aquatic species when undertaking any maintenance activity. Sediment in a watercourse can disrupt many of the life processes of fish and other aquatic life. Sediment related impacts can include: • Injury or death. Sediment can clog or abrade fish gills causing suffocation or tissue damage. • Inability to feed. Since fish are visual feeders, sediment in water can impair their ability to forage for food. • Infill habitat. Sediment may settle in pools or riffle habitats. This may impact salmonid egg viability or may affect food and nutrient sources by covering benthos (bottom-dwelling organisms) upon which fish depend for food. • Increased wear on mechanical equipment or other machinery. Sediment can also cause plugging of irrigation intake screens.
  • 3. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Modern Techniques to control sedimentation: Surface Erosion Controls: 1. Mulching or Mats: Spreading straw or hay mulch over exposed soils may be an effective temporary measure to control erosion. Mulch can help reduce the erosive energy of rainfall such that agricultural soil, manure or sediment is not transported to a watercourse. Since some mulch can suppress the regeneration or growth of desired plants, they should only be used when recommended by a professional in an overall plan. Where large areas of exposed soils are present on unstable slopes, coco-matting may be considered. This may also be a technique used when works are completed late in the season if seed not established.
  • 4. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 2. Silt Fencing: Silt fencing may be an appropriate sediment control mechanism after drainage maintenance works are completed. It is generally recommended that ditch spoil is placed above the top of bank where its re-entry to a watercourse will not occur. If it is placed where its entry to a watercourse is possible then silt fending should be considered in addition to seeding. When installing a silt fence, the bottom of the filter material must be trenched into the ground, See Figure 3 for details. After a rain event inspect the silt fence. A build up of 30 cm or more should be removed from the edge of the fence.
  • 5. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Temporary Instream Sediment Controls for Low Flows Outlet Blocking:  An easy method of sediment control is to block the ditch outlet using plywood or a ‘plug’ of clean material (e.g. gravel) at the outlet. Anything used to block an outlet must be removed once the work is completed, and should not be in place from November to June of any year. For removal of the temporary blockage, re-release of water into the channel should be done gradually, and only once sediment has settled out of the water and the water is clear.  Check dams are structures that provide a small barrier to water flow, behind which water is temporarily ponded allowing sediment to settle out.  Check dams can also be used to isolate small work areas and to prevent sediment laden water from being transported downstream. Check dams should only be used in ditches that have small amounts of ponded water very low flows. Figure Temporary Check Dam
  • 6. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Isolation and Diversion Techniques for Instream Work When working in a ditch that has flowing water, the work area should be isolated and the water diverted around the work area. Isolation of water flow may be undertaken using several different methods. The method chosen should be appropriate for the amount of flowing water in the watercourse. Several accepted methods for water flow isolation are described below. • Irrigation gates or other instream structures. • Blocking an instream culvert. • Constructing a coffer dams In all cases a temporary diversion channel must be constructed that routes the flow around the work site.  Cofferdams: Cofferdams are used to isolate a section of watercourse from flowing water. Materials for cofferdams should be selected based on ease of maintenance and complete removal following construction activities. The dam may be made of:  Rock  Sand bags  Wood  Sheet metal  Gravel or earthen plug If water is flowing in the ditch, cofferdams may be used in combination with other methods such as clean water bypasses and/or pumps. Wood or sheet metal dams must be anchored into the banks of the ditch to prevent seepage and erosion around the edges of the dam, see Figure During construction, inspect the dam. Extra material (for example, more sandbags) should be kept on site to raise the dam if water behind the dam threatens to spill over into the work area. Immediately repair any gaps, holes or scour around the dam to prevent failure. Upon completion of maintenance works, the structure should be removed gradually to prevent sediments from moving downstream or erosion from occurring.
  • 7. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Isolation Techniques for Instream Works
  • 8. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809  Channel Diversions: Channel diversions are used where it is possible to redirect the water flow temporarily around the section of the ditch where work is being conducted. A stream diversion is a temporary bypass through a pipe or a flume may be used if there is enough grade for gravity flow. An excavated channel is also an option, although it is more labor intensive and can generate large amounts of sediment. See Figure for examples of channel diversions. FIGURE Stream Diversion Techniques
  • 9. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809  Pumped Diversion: The pumped diversion is suitable for intermittent and low flow streams that can be pumped. Pump capacity must be sufficient to handle the flow in the ditch. Temporary dams are constructed upstream and downstream of the work area. Advantages of a pumped diversion include: • Downstream sediment transport can almost be eliminated. • De-watering of the work area is possible. • Pipes can be moved about to allow construction operations. • Increased flows can be managed by adding more pumping capacity. Some Disadvantages of a pumped diversion include: • Flow volume is limited by pump capacity. • Requires 24-hour monitoring of pumps . • Sudden rain could overtop dams. • Minor in-stream disturbance to install and remove dams. • Erosion at pipe outlet. Figure Typical Pumped Stream Diversions
  • 10. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 Pumping Over Temporary Clay Dam
  • 11. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809  Bypass Flumes: A bypass flume can be constructed out of a heavy pipe that is large enough to handle the water flow in the watercourse. See Figure for an example of a bypass flume. Advantages of excavated channels and flumes are: • Isolates work from water flow and allow dewatering • Can handle larger flows than pumps Disadvantages of excavated channels and flumes are: • Channels must be protected from erosion • Flow diversion and then re-direction with small dams causes instream disturbance and sediment. In stream silt fences should be used if sedimentation is occurring. See Figure. Figure Temporary Silt Fence
  • 12. DAMS SEDIMENT CONTROL SYSTEMS www.hammadjatt.weebly.com Engr.Hammad Bashir HAMMAD BASHIR 11-C-809 SEDIMENTS REMOVAL BY DEVICES: The process is set up by devices allowing continuous and controlled transfer of sediment within the reservoir in a relatively small scale but permanent mode. Key element is an automatically working vessel with a suction dredging system installed that can be diesel or preferably electric driven. To allow for an exact positioning the vessel is directed by tractor cables. Sediments are loosened by a suction head, pumped towards the reservoir’s outlet and dumped in front of the outflow elements. The vessel gradually strikes the reservoir floor until the complete surplus sediment is removed. Sediment transfer vessel “SediMover” (automatic, electrically driven) The newly dumped sediments are eroded by the hydraulic discharge and therefore carried out of the reservoir, passing turbines or outlet valves. Both types of outflow elements are able to handle water flow with some degree of sediment load. The sediment transfer rate can be adapted to the outflow rate and parameters to guarantee a compatible process speed. For an environmentally sound project implementation the time span should be set to months or years, depending on local conditions. A commercially competitive project performance is still assured by a high degree of automation. Continuous sediment transfer (ConSed-Method)