Difference between revisions of "Removal of weirs"

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[[file:icon_habitat.png|right|150px|link=[[Habitat]]]]
 
=Introduction=
 
=Introduction=
[[file:weirs_nea.png|500px|thumb|Figure 1: Nea river in mid-Norway where several weirs were built as a compensation measure some decades ago, with the function of creating larger water-covered areas, first of all for aesthetical purposes. Removal of weirs imply that these weirs are removed]]
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[[file:weirs_nea.png|250px|thumb|Figure 1: Nea river in mid-Norway where several weirs were built as a compensation measure some decades ago, with the function of creating larger water-covered areas, first of all for aesthetical purposes. Removal of weirs imply that these weirs are removed]]
[[file:weir_removal_ex.png|500px|thumb|Figure 2: Water depths (in meters) to the left and water velocities (in m/s) to the right in a section of Mandal river in southern Norway after lowering a weir]]
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[[file:weir_removal_ex.png|250px|thumb|Figure 2: Water depths (in meters) to the left and water velocities (in m/s) to the right in a section of Mandal river in southern Norway after lowering a weir]]
  
 
Weirs were considered an important measure to mitigate the impacts from hydropower regulations some decades ago. The purpose of these were, to create larger water-covered areas, to stabilize the river bed or other reasons. It might also be that they were considered improving the conditions for fish. We would underline that removal of weirs in this context refers to removal of installations within the river used to mitigate impacts from regulations, and not a small dam used as the inlet structure of a hydropower plant.  
 
Weirs were considered an important measure to mitigate the impacts from hydropower regulations some decades ago. The purpose of these were, to create larger water-covered areas, to stabilize the river bed or other reasons. It might also be that they were considered improving the conditions for fish. We would underline that removal of weirs in this context refers to removal of installations within the river used to mitigate impacts from regulations, and not a small dam used as the inlet structure of a hydropower plant.  
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The procedure to assess the impact of weirs on the fish species of concern would be to follow the prescriptions given in the Environmental Design handbook (Forseth and Harby, 2013) where the bottlenecks of the population are identified. In the case that areas with weirs limit the fish population, removal of weirs should be considered.  
 
The procedure to assess the impact of weirs on the fish species of concern would be to follow the prescriptions given in the Environmental Design handbook (Forseth and Harby, 2013) where the bottlenecks of the population are identified. In the case that areas with weirs limit the fish population, removal of weirs should be considered.  
  
Hydraulic tools are useful in analysing the hydraulic conditions in a river with weirs, and the effect on the hydraulics if the weir is removed. A high number of hydro-dynamic tools are available for such analysis with different functionality and data needs, ranging from more simplistic 1-dimensional (1D) hydraulic tools, to highly advanced 3-dimensional (3D) tools solving a range of partial differential equations (Navier-Stokes) in all directions. The all require detailed description of the bottom topography of the areas the gravel might be placed, and a flow regime the river will undergo. As average flow velocities (in depth and across the river) will not be sufficiently detailed to identify the best locations, 2D- or 3D models will be required. Examples of such models are River2D, HEC-RAS 2D, Flo2D/3D, Mike21c, OpenFoam and Telemac 2D and 3D (see Chapter 9.1 for references).  
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Hydraulic tools are useful in analysing the hydraulic conditions in a river with weirs, and the effect on the hydraulics if the weir is removed. A high number of hydro-dynamic tools are available for such analysis with different functionality and data needs, ranging from more simplistic 1-dimensional (1D) hydraulic tools, to highly advanced 3-dimensional (3D) tools solving a range of partial differential equations (Navier-Stokes) in all directions. The all require detailed description of the bottom topography of the areas the gravel might be placed, and a flow regime the river will undergo. As average flow velocities (in depth and across the river) will not be sufficiently detailed to identify the best locations, 2D- or 3D models will be required. Examples of such models are [[River2D]], [[HEC-RAS]] 2D, Flo2D/3D, Mike21c, [[OpenFOAM]] and [[TELEMAC]] 2D and 3D.
  
 
==During implementation==
 
==During implementation==
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Habitat measures in regulated rivers must often be maintained unless the natural functions related to flow and sediments are restored, such as flood events and connectivity of the sediments. The frequency of the maintenance will be very site-specific.  
 
Habitat measures in regulated rivers must often be maintained unless the natural functions related to flow and sediments are restored, such as flood events and connectivity of the sediments. The frequency of the maintenance will be very site-specific.  
  
=Useful MTDs=
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=Relevant MTDs and test cases=
 
{{Suitable MTDs for Removal of weirs}}
 
{{Suitable MTDs for Removal of weirs}}
  
 
=Classification table=
 
=Classification table=
 
{{Removal of weirs}}
 
{{Removal of weirs}}
[[category:measures]][[category:habitat measures]]
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=Relevant Literature=
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*Pulg, U., Barlaup, B.T., Skoglund, H., Velle, G., Gabrielsen, S.E., Stranzl, S.F., Espedal, E.O., Lehmann, G.B., Wiers, T., Skår, B., Normann, E., Fjeldstad, H-P. 2017. Tiltakshåndbok for bedre fysisk vannmiljø: God praksis ved miljøforbedrende tiltak i elver og bekker. Uni Research AS.
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*Forseth, T., and Harby, A. 2014. Handbook for Environmental Design in Regulated Salmon Rivers. NINA Special Report 53. Trondheim: Norwegian Institute for Nature Research.
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[[category:Solutions]][[category:habitat measures]]

Latest revision as of 10:04, 26 October 2020

Icon habitat.png

Introduction

Figure 1: Nea river in mid-Norway where several weirs were built as a compensation measure some decades ago, with the function of creating larger water-covered areas, first of all for aesthetical purposes. Removal of weirs imply that these weirs are removed
Figure 2: Water depths (in meters) to the left and water velocities (in m/s) to the right in a section of Mandal river in southern Norway after lowering a weir

Weirs were considered an important measure to mitigate the impacts from hydropower regulations some decades ago. The purpose of these were, to create larger water-covered areas, to stabilize the river bed or other reasons. It might also be that they were considered improving the conditions for fish. We would underline that removal of weirs in this context refers to removal of installations within the river used to mitigate impacts from regulations, and not a small dam used as the inlet structure of a hydropower plant.

The perceptions on use of weirs as measures to reduce impacts have now changed, as they represent a shift in types of habitats in the favour other species than naturally present, with the consequence that weirs are removed. Weirs can also be a barrier for migration and hence contribute to a fragmentation of the river, and also act as a trap of sediments, as these area as usually slow-flowing areas.

The removal of a weir is not a goal in its own unless a careful design of the areas after the removal is made. The area must hence undergo restoration to meet the habitat qualities of the fish species of concern (Pulg et al. 2017).

The actual removal of the weir would be to simply use heavy machinery in the river and tear down the physical construction. Removal of weirs is just the first start of the measure, and must be followed up by improvement of substrate, creation of a river-in-river, etc.


Methods, tools, and devices

During planning

The procedure to assess the impact of weirs on the fish species of concern would be to follow the prescriptions given in the Environmental Design handbook (Forseth and Harby, 2013) where the bottlenecks of the population are identified. In the case that areas with weirs limit the fish population, removal of weirs should be considered.

Hydraulic tools are useful in analysing the hydraulic conditions in a river with weirs, and the effect on the hydraulics if the weir is removed. A high number of hydro-dynamic tools are available for such analysis with different functionality and data needs, ranging from more simplistic 1-dimensional (1D) hydraulic tools, to highly advanced 3-dimensional (3D) tools solving a range of partial differential equations (Navier-Stokes) in all directions. The all require detailed description of the bottom topography of the areas the gravel might be placed, and a flow regime the river will undergo. As average flow velocities (in depth and across the river) will not be sufficiently detailed to identify the best locations, 2D- or 3D models will be required. Examples of such models are River2D, HEC-RAS 2D, Flo2D/3D, Mike21c, OpenFOAM and TELEMAC 2D and 3D.

During implementation

The removal of the weirs would be to simply use heavy machinery in the river and tear down the physical construction. The removal of the weir should be followed up by new measures, which could be to develop a 'river-in-the-river', re-placement of substrate, etc. An evaluation of the hydraulic effect of the removal of the weirs can be done by measuring the area where the weirs have been removed, and then configuring and applying a hydraulic model. An evaluation of the biological effect could be done with standard biological methods, such as for instance electro-fishing which will give the densities of juvenile fish.

During operation

Habitat measures in regulated rivers must often be maintained unless the natural functions related to flow and sediments are restored, such as flood events and connectivity of the sediments. The frequency of the maintenance will be very site-specific.

Relevant MTDs and test cases

Relevant MTDs
Acoustic Doppler current profiler (ADCP)
Acoustic telemetry
BASEMENT
Bedload monitoring system
CASiMiR
FLOW-3D
HEC-RAS
LiDAR
OpenFOAM
Radio frequency identification with passive integrated transponder (PIT tagging)
Radio telemetry
River2D
Sediment simulation in intakes with Multiblock option (SSIIM)
Shelter measurements
Structure from motion (SfM)
TELEMAC
Visible implant elastomer
Relevant test cases Applied in test case?
N/A -

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 Less often than yearly
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
-
-
Water velocity
Water depth
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 -
-
Bypass section
Downstream outlet
River type implemented Steep gradient (up to 0.4 %)
Fairly steep with rocks, boulders (from 0.4 to 0.05 %)
-
Level of certainty in effect Moderately certain
Technology readiness level TRL 9: actual system proven in operational environment
Cost of solution See cost table

Relevant Literature

  • Pulg, U., Barlaup, B.T., Skoglund, H., Velle, G., Gabrielsen, S.E., Stranzl, S.F., Espedal, E.O., Lehmann, G.B., Wiers, T., Skår, B., Normann, E., Fjeldstad, H-P. 2017. Tiltakshåndbok for bedre fysisk vannmiljø: God praksis ved miljøforbedrende tiltak i elver og bekker. Uni Research AS.
  • Forseth, T., and Harby, A. 2014. Handbook for Environmental Design in Regulated Salmon Rivers. NINA Special Report 53. Trondheim: Norwegian Institute for Nature Research.