Difference between revisions of "Mechanical removal of fine sediments (dredging)"
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− | + | [[file:icon_sediment.png|right|150px|link=[[Sediments]]]] | |
=Introduction= | =Introduction= | ||
− | Changes in land-use has strongly modified the sediment yield to rivers and led to high to extreme sediment suspended load in some rivers. The exceed of fine sediment might deposit in the river, and particularly in the bed interstices, depending on the velocity and discharge in the river at the time of sediment arrival. Similarly, in some rivers, regulation has strongly reduced the flow while sediment yield has not been altered, leading to an exceed of fine sediments in the river and deposition on the bed. Therefore, fish habitat might be strongly altered and affected by an increase in water turbidity and clogging of substrate | + | Changes in land-use has strongly modified the sediment yield to rivers and led to high to extreme sediment suspended load in some rivers. The exceed of fine sediment might deposit in the river, and particularly in the bed interstices, depending on the velocity and discharge in the river at the time of sediment arrival. Similarly, in some rivers, regulation has strongly reduced the flow while sediment yield has not been altered, leading to an exceed of fine sediments in the river and deposition on the bed. Therefore, fish [[Habitat|habitat]] might be strongly altered and affected by an increase in water turbidity and clogging of substrate. |
+ | |||
=[[Methods, tools, and devices]]= | =[[Methods, tools, and devices]]= | ||
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==During operation== | ==During operation== | ||
Fine sediment removal induces disturbing of sediments that will be mostly pumped and released out of the stream. However, some of the remobilized sediments might be transported further downstream and induce an increase of water turbidity and possibly re-deposition at another location. Water clarity, as well as measurement of suspended sediment concentration is recommended to evaluate the possible effects of the removal. | Fine sediment removal induces disturbing of sediments that will be mostly pumped and released out of the stream. However, some of the remobilized sediments might be transported further downstream and induce an increase of water turbidity and possibly re-deposition at another location. Water clarity, as well as measurement of suspended sediment concentration is recommended to evaluate the possible effects of the removal. | ||
+ | |||
+ | =Relevant MTDs and test cases= | ||
+ | {{Suitable MTDs for Mechanical removal of fine sediments (dredging)}} | ||
=Classification table= | =Classification table= | ||
{{Mechanical removal of fine sediments (dredging)}} | {{Mechanical removal of fine sediments (dredging)}} | ||
− | [[category:Sediment measures]][[category: | + | =Relevant literature= |
+ | *Gray D. P. 2013 Fine sediment removal from streams: environmental effects, protocols and a proposed rule, Environment Canterbury Technical Report No. R13/95. | ||
+ | |||
+ | [[category:Sediment measures]][[category:Solutions]] |
Latest revision as of 10:03, 26 October 2020
Contents
Introduction
Changes in land-use has strongly modified the sediment yield to rivers and led to high to extreme sediment suspended load in some rivers. The exceed of fine sediment might deposit in the river, and particularly in the bed interstices, depending on the velocity and discharge in the river at the time of sediment arrival. Similarly, in some rivers, regulation has strongly reduced the flow while sediment yield has not been altered, leading to an exceed of fine sediments in the river and deposition on the bed. Therefore, fish habitat might be strongly altered and affected by an increase in water turbidity and clogging of substrate.
Methods, tools, and devices
During planning
Fine sediments suction induced by removal might affect spawning and larval habitats of species living in the area where removal is planned. Therefore, a control of fish species living in the area, and possibly a fish population survey, should be realized prior to any removal (Gray 2013). Site preparation for removal might also generate resuspension of sediments in the removal area and induce transport of significant sediment loads downstream the site accompanied with peaks of turbidity. Access to the river bank and adapted movements around the removal site are simple measures to integrate to the overall planning of fine sediments dredging.
During implementation
The equipment for sediment removal is a pump. The capacity of the pump is determined by the amount of water to pump, the sediment quantities to be removed and the location of water and sediment releases.
During operation
Fine sediment removal induces disturbing of sediments that will be mostly pumped and released out of the stream. However, some of the remobilized sediments might be transported further downstream and induce an increase of water turbidity and possibly re-deposition at another location. Water clarity, as well as measurement of suspended sediment concentration is recommended to evaluate the possible effects of the removal.
Relevant MTDs and test cases
Relevant MTDs | |
---|---|
Bedload monitoring system | |
LiDAR | |
Sediment simulation in intakes with Multiblock option (SSIIM) | |
Relevant test cases | Applied in test case? |
Schiffmühle test case | Yes |
Classification table
Classification | Selection |
---|---|
Fish species for the measure | All |
Does the measure require loss of power production | - |
- | |
Structural (requires no additional flow release) | |
Recurrence of maintenance | Irregular at events |
Which life-stage of fish is measure aimed at | Spawning / Recruitment |
Juveniles | |
Adult fish | |
Movements of migration of fish | |
Which physical parameter is addressed | - |
- | |
- | |
Substrate and hyporheic zone | |
- | |
- | |
- | |
- | |
Hydropower type the measure is suitable for | Plant in dam |
Plant with bypass section | |
Dam height (m) the measure is suitable for | All |
Section in the regulated system measure is designed for | - |
Upstream of hydropower plant | |
Bypass section | |
Downstream outlet | |
River type implemented | Steep gradient (up to 0.4 %) |
Fairly steep with rocks, boulders (from 0.4 to 0.05 %) | |
Slow flowing, lowland, sandy (less than 0.05 %) | |
Level of certainty in effect | Very certain |
Technology readiness level | TRL 9: actual system proven in operational environment |
Cost of solution | See cost table |
Relevant literature
- Gray D. P. 2013 Fine sediment removal from streams: environmental effects, protocols and a proposed rule, Environment Canterbury Technical Report No. R13/95.