Rock Riffle Design Course
description
Transcript of Rock Riffle Design Course
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Rock Riffle Design Course
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Goals of Streambank Restoration
• Work With Nature
• Reduce Sediment
• Protect Cropland
• Protect infra-structure
• Improve Water Quality
• Improve Aquatic Habitat
• Make it Affordable
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Lanes Balance
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200+ years of Human Activity on the Landscape
• Cleared the Timber
• Plowed the Prairie
• Drained the Wetlands
• Straightened the Streams
• Leveed the Floodplains
• Built Cities with Large Areas of Concrete, Asphalt and Rooftops
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Results of Human Activity on Stream dynamics
• Increased Runoff• Increased Stream
Slope• Reduced Floodplain
Width
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Design Philosophy
• Work WITH the Natural Processes.• Know Where Nature is Taking the Stream.• Determine the Cause of The Problem• Treat Only the Cause• Let Nature Finish Healing The Banks• Keep the Cost Down
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Channel Evolution Model (CEM)
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Stream Stabilization Techniques
• 4 Major Practices Used in Illinois ===========================
• Rock Riffle Grade Control Structures (stage II or III)
• Stone Toe Protection (stage III or IV)• Bendway Weirs (stage IV)• Stream Barbs (stage IV)
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Rock Riffle Grade Control Structures (stage II/ III streams)
• Stabilize the Bed• Creates Riffle/Pool Sequence• Dissipates Energy• Aerates Water• Permit Fish Passage• Aesthetically Attractive
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Determine Stability
• Review I & E Data
• CEM Stage?
• Entrenchment Ratio?
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STREAMBANK INVENTORY AND EVALUATION FORM
County ______________________T.________ R________Sec. ___________Stream Name ______________________________________UTM Coord. _______________________, ______________________________Landowner ____________________________
Drainage Area _______________sq. mi. Bankfull dimensions from Regional Curve: Width _______ft. Depth _______ft.
Valley slope from Topographic Map ______________ ft/mi. _______________ft/ft
Estimated 2 yr. Discharge from “Water Resources 87-4207” _______________ cfsEstimated sinuosity ___________ (stream length / valley length)
Field Data
Field determined Bankfull Width _________ft. Maximum Depth_____________ft. Mean Depth ________________ft.Width / Depth Ratio ___________(bankfull width / mean bankfull depth)
Estimated D 90 particle size ___________in.Estimated D 50 particle size ___________in.Manning’s “n” _____________Channel slope ______________Velocity ----- Manning’s equation ______________ v=(1.49/n) (R2/3) (S1/2) V= Q/A _______________________ Required to move D 90 ____________
Entrenchment ratio ___________ (width @ 2 x max. bankfull depth / width @ bankfulldepth)
Channel Evolution Stage (1 thru 5) __________ Stream Type (Rosgen) ____________
Radius of Curvature (Rc) _____________ Rc / Bankfull width ______________
NOTES:_________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________
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West Branch Hurricane
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Distance
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XY (Scatter) 1Slope = 0.0035 ft/f t
Slope = 0.0016 ft/f t
Existing Valley Slope
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X-Sec. Hurricane Creek (McCray)
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87.988.2
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Distance (ft)
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XY (Scatter) 1
Bankfull --Elev. 91.4 Q = 392 cfsVelocity - 5.11fps Area = 76.7 sq. ft.Manning's "n" = 0.035 S= 0.004 ft/ftHyd. Rad. = 2.62Max. Depth = 3.5 ft.Mean Depth = 2.7 ft.Width = 28 ft.W/D Ratio =10.3
2 times Max. Depth =7.0 ftElevation = 94.9Flood Width = 36 ft.Entrenchment Ratio = 1.28
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STREAMBANK STABILIZATION GUIDELINES FOR PRACTICE SELECTION
YES ROCK RIFFLE GRADE CONTROL
NO
------------------- YES STOP ---TREAT SEEPS AND/OR SPRINGS
NO
YES STONE TOE PROTECTION
NO
YES BENDWAY WEIRS OR STREAM BARBS
NO
YES BENDWAY WEIRS & STONE TOE PROTECTION OR STREAM BARBS
NO
--- CALL FOR ASSISTANCE
AVERAGE SURVEYED GRADIENT > VALLEY SLOPE FROM TOPOG ORBED IN RIFFLE LOCATION IS SILT OR CLAY ORWIDTH/DEPTH RATIO < 10 & ENTRENCHMENT RATIO <1.4
SEEPS OR SPRINGS PRESENT AT PROJECT SITE
BANKFULL WIDTH @ SITE < 130% WIDTH AT RIFFLE
UNVEGETATED POINT BAR < 30% WIDTH AT RIFFLE
RADIUS/WIDTH RATIO > 1.8
RADIUS/WIDTH RATIO > 4.0
UNVEGETATED POINT BAR < 50% BANKFUL DEPTH
UNVEGETATED POINT BAR MATERIAL < 1 INCH DIA.
RADIUS/WIDTH RATIO < 4
UNVEGETATED POINT BAR < 50% BANKFULL DEPTH
UNVEGETATED POINT BAR MATERIAL < 1 INCH DIA.
STREAM BARBS ORTRADITIONAL BANK TREATMENT
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McCray Stream Site
• Valley slope = 0.0028
• Surveyed slope ave. 0.0024 (slightly lower)
• Bed in Riffle ---Clay (exposed in riffle bed)
• Width/Depth ratio = 10.3 (just over 10)
• Entrenchment Ratio = 1.28 (just under 1.4)
• 2 elements suggest Grade Control
• 2 elements outside suggested range (barely)
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Channel Geometry Considerations
• Sine Wave Flow
• Anticipated Scour Depth
• Radius Curvature/Bankfull Width Ratio (should be more than 1.8)
• Existing Riffle Location
• Existing Riffle Spacing
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Scour Depth
• Assume Scour Depth will equal Max. Bankfull Flow Depth
• Assumes bed material allows full Sine Wave Flow to develop over time
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West Branch Hurrican Creek
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Distance (ft)
Ele
v. (
ft)
Series1Gradeline --slope =0.0024ft/ft
0
Bankfull Hydraulic Gradeline3.5 ft. above channel gradeline
Lowest Anticipated Scour3.5 ft. below channel gradeline
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Radius of Curvature
• Ave radius = 2.3 times bankfull width (Leopold)
• Range generally from 1.6 to 4.5 times bankfull width (natural streams)
• 2.3 is the optimum for hydraulic efficiency
• 1.8 is the suggested minimum under guidelines
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Locating Riffles
• 5 to 7 Bankfull widths (28 ft)
• Expect Spacing--140 to 196 ft.
• Located at Cross-over Points
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Read The Channel
• Knickzones and Headcuts
• May be hundreds of feet long
• Little or no bedload in crossover pts.
• Will not be bedload material (sand wave)
• Increasing bank height downstream?
•
• Stable Points? (Bedrock, Culvert, etc)
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Gather Survey Data
• Bed Profile
• Water Surface Profile
• Typical X-Section @ Riffles (detailed)
• Low Bank Profile
• Stream Cross-over Points (Stations) or surveyed planform
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Plot profile
• Channel Grade (riffle to riffle)
• Riffle Spacing
• Compare low bank vs. channel grade
• Pool Depths
• Stable Points
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West Branch Hurricane Creek
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Distance (ft)
Ele
v. (
ft)
XY (Scatter) 1Gradeline --slope =0.0024ft/ft
0.6 ft. difference
Bankfull Hydraulic Gradeline3.5 ft. above channel gradeline
Lowest Anticipated Scour
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West Branch Hurricane Creek
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Distance (ft)
Ele
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XY (Scatter) 1Gradeline --slope =0.0024ft/ft
0.6 ft. difference
Bankfull Hydraulic Gradeline3.5 ft. above channel gradeline
Lowest Anticipated Scour
Riffles
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Existing Riffles?
• Stations: 0+00, 4+25, 5+90, 8+25, 10+20
• 11+50, 13+20, 13+75, 14+75 15+50,16+40, 20+20
• 12 riffles in 2020 ft. --Ave. Spacing 168 ft.
• Max. Spacing --425 ft.
• Min. Spacing-- 55 ft.
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Series1
Low Bank
Profile
Grade Line
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X-Sec. Hurricane Creek (McCray)
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Distance (ft)
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Series1
Bankfull --Elev. 91.4 Q = 392 cfsVelocity - 5.11fps Area = 76.7 sq. ft.Manning's "n" = 0.035 S= 0.004 ft/ftHyd. Rad. = 2.62Max. Depth = 3.5 ft.Mean Depth = 2.7 ft.Width = 28 ft.
2 times Max. Depth =7.0 ftElevation = 94.9Flood Width = 36 ft.Entrenchment Ratio = 1.28
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Bank Heights
HUB # Bank Height10 6.668 8.157 8.594 8.263 9.22 9.9
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Plot Cross-Section(s)
• Bankfull depths
• Riffle Crest Elev.
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Cross Sec. @ Riffle #1--McCray
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Riffle #1 Elev. 89.0Height = 1.5 ft.
Bankfull--Pre-Riffle--elev. 91.6
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Determine New Gradeline
• Slope (will be greater than existing slope)
• Stable Upstream(flood out headcut/knickzone)
• Stable Downstream(Culvert/Stable Grade, etc)
• Blend into existing channel bed (generally 1.0 ft. height or less @ last riffle)
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West Branch Hurrican Creek
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Distance (ft)
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Series1
Gradeline --slope =0.0024ft/ft
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Bankfull Hydraulic Gradeline3.5 ft. above channel gradeline
Lowest Anticipated Scour3.5 ft. below channel gradeline
Proposed Gradeline0..0028
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Locate Riffles and Crest Elev.
• Geometrically Correct
• Uniform Gradeline
• 6 Bankfull Width spacing?
• Backwater to Toe of Upstream Riffle
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West Branch Hurricane--Chuck McCray
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Distance (ft)
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XY (Scatter) 1
HUB 10
HUB 4
R-1 Elev. 89.0
R-2 Elev. 88.4
R-3 Elev. 87.7
R-4 elev. 86.8
R-5 Elev. 86.2
R-6 Elev. 85.4
R- 7 Elev. 84.5
Slope = 0.0028 ft/ft
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Planned Riffles
1 3+70 (ave. 233 ft.)2 5+80 210 ft.3 8+20 240 ft.4 11+30 310 ft.5 13+60 230 ft.6 16+30 270 ft.7 20+00 370 ft.
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Riffle Spacing
• Existing Riffles range from 55 ft. to 425 ft.
• (2 to 15 bankfull widths)
• Ave. 168 ft. (6 bankfull widths)
• Planned Riffles range from 210 ft. to 370 ft.
• (7.5 to 13 bankfull widths)
• Ave. 233 ft. (8.3 bankfull widths)
• Too Wide?
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Riffle Spacing (cont.)
• Concern is natural flow pattern and siltation problems if spacing is too wide.
• Experience has not shown spacing to be as critical as once thought (especially with silt and sand bed streams)
• Attempt to locate riffles near existing riffles at cross-over points and put backwater on tail of upstream riffle.
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Check for increased Flooding(when necessary)
• Bankfull Specific Energy Line
• Critical Flow Depth
• Critical Specific Energy Line
• Allowable Riffle Height = Bankfull Specific Energy - Critical Specific Energy
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Max. Riffle Ht. CalculationSpecific Energy Line
• Energy Line = Bkf Depth + Velocity squared divided by 2 times gravity
• Energy Line = 2.7 + (5.1sq./ 2 x 32.2)
• Energy Line = 2.7 + (26.01/64.4)
• Energy Line = 2.7 + .40 = 3.1 ft.
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Max. Riffle Ht. CalculationCritical Flow Depth
• Critical Depth = (Q sq. divided by gravity times width sq.) raised to the 1/3 power
• Critical Depth = (350 sq./32.2 x 28 sq.) raised to 1/3 power
• Critical Depth = (122,500/32.2 x 784) 1/3
• Critical Depth = (122,500/28142) 1/3
• Critical Depth = (4.35) 1/3power = 1.63 ft.
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Max. Riffle Ht. CalculationCritical Energy Line
• Critical Energy Line = 1.5 times Critical Flow Depth
• Critical Energy Line = 1.5 x 1.63
• Critical energy Line = 2.45 ft.
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Max. Riffle Ht. Calculation
• Max. Riffle Ht. Allowable without raising water surface profile or creating backwater effect = Energy Line - Critical Energy Line
• Max. Riffle Ht = 3.1 - 2.45
• Max. Riffle Ht. = 0.65 ft.
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Max. Riffle Ht. Calculation Summary
• Specific Energy Line = 3.1 ft.
• Critical Flow Depth = 1.63 ft.
• Critical Specific Energy Line = 2.45
• Max. Allowable Riffle Ht. W/O effecting water surface elev. = Specific Energy Line - Critical Specific Energy Line or
• 3.1 ft. - 2.45 ft. = 0.65 ft. max. ht.
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Critical Velocity Estimate
• Velocity at Critical Flow(Vc) = (gravity x critical flow depth) raised to the 0.5 power
• Vc =32.2 x 1.63 (raised to 0.5 power)
• Vc = 52.5 (raised to 0.5 power)
• Vc = 7.24 ft/sec.
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X-Sec. Hurricane Creek (McCray)
88.2
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87.988.2
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Distance (ft)
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XY (Scatter) 1
Bankfull --Elev. 91.4 Q = 392 cfsVelocity - 5.11fps Area = 76.7 sq. ft.Manning's "n" = 0.035 S= 0.004 ft/ftHyd. Rad. = 2.62Max. Depth = 3.5 ft.Mean Depth = 2.7 ft.Width = 28 ft.W/D Ratio =10.3
2 times Max. Depth =7.0 ftElevation = 94.9Flood Width = 36 ft.Entrenchment Ratio = 1.28
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What if I Raise Flood Surface Profile?
• Will I increase Out of Bank Flooding?
• Will I effect instream pipe outlets, tile, etc.
• Is the increase in flood surface profile acceptable to all effected parties?
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Cross Sec. @ Riffle #1--McCray
86
87
88
89
90
91
92
93
94
95
96
97
0 10 20 30 40 50 60 70
Distance
Ele
vati
on
Riffle #1 Elev. 89.0
Bankfull--Pre-Riffle--
Bankfull After Riffle Construction
Elev. Difference = Riffle ht. (1.5 ft)
![Page 69: Rock Riffle Design Course](https://reader035.fdocuments.us/reader035/viewer/2022062305/56815a03550346895dc75013/html5/thumbnails/69.jpg)
Cross- Sec.Riffle #5--McCray
84
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86
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89
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91
92
93
94
0 20 40 60 80 100 120
Distance
Ele
vati
on
Bankfull Elev.--Pre-Riffle =
Riffle Elev. 86.2
Bankfull Elev. 89.45
Q = 369 CFS
Elev. Difference = ht. Of riffle (1.2) minus
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Compute Quantities and Cost
• Determine Stone Size from CriticalVelocity Calculations (double size for safety)
• Quantity Chart
• Average County Cost per Ton of Stone
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Cost of RipRap
• Statewide Average is about $25 per ton installed• Check with local quarries/truckers for delivered
price of A-5 or A-6 stone---Add $3 to $5 per ton for installation
• “quarry run” or “shot-rock” CAN be acceptable--Check with designer for O.K. before using and plan on being at site during delivery.
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ROCK RIFFLE
CONSTRUCTION
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Construction Layout
• Riffles must be located at stream crossover points where flow goes from one side to the other. (riffles)
• Riffles should be located slightly upstream of existing riffle so backslope can “blend” into existing riffle--also places maximum water depth closer to apex of bend and dissipates energy in pool.
![Page 79: Rock Riffle Design Course](https://reader035.fdocuments.us/reader035/viewer/2022062305/56815a03550346895dc75013/html5/thumbnails/79.jpg)
Sequencing
• Build from Upstream to Downstream
• Riffles will not “seal” and pond water until voids are filled with sediment.
• Can speed up “pooling” by placing a few inches of fine silt/clay on front face of riffle.
![Page 80: Rock Riffle Design Course](https://reader035.fdocuments.us/reader035/viewer/2022062305/56815a03550346895dc75013/html5/thumbnails/80.jpg)
Bed Key
• 4 ft. minimum width
• 3 ft. minimum depth/or to bedrock
• Extends across channel bottom and 3-4 ft. into outer bank.
• Doesn’t need to be larger material
• Do not over excavate! Easy to “lose” stone in bed key
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Bank Key
• 4 ft. minimum width• 5 ft. minimum depth• Construct with a 1.5 on 1 slope into bank so
that as “vertical banks”stabilize the ”key” is not exposed
• No need to “fill” key trench out to original bank.
• Top Elev. approx.1 ft. below top bank
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Riffle Crest
• Build Crest to elevation before starting on backslope
• Use largest material in gradation
• Place crest stones individually with “thumb” if possible
• Build Crest with slight “V” shape using control elevation as low point in “v”.
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Backslope
• Build with 20:1 backslope
• Place next largest stone available from gradation immediately downstream of Crest stones.
• Flare the backslope up the channel sides slightly (1.5 ft?)
• Leave backslope “rough” to aerate flow and provide resting places for fish passage.
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Blending into Exit Channel
• H-4 dimension is depth to place material below existing channel bed at exit.
• Most streambeds are “soft” enough that material can be “pressed” into channel bed without excavating
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Alignment
• Align Crest so that desired exit is at 90 degrees to Crest.
• If channel has a sharp bend near tail of riffle use Stone Toe Protection downstream to protect against increased velocity near riffle exit. (Riffle backslope has a 5% grade)
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Follow-up and Maintenance
• Check each structure after first major storm (near bankfull flow)
• Some movement and of smaller stone and sorting of material is expected.
• If any crest stone moves it should be repaired immediately