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The shapes of stream channels
Hydraulic geometry The shapes of stream channels
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Continuity For cross-sectional flow area π΄ and mean flow velocity π’, π=π’π΄ For cross-sections that may be approximated by mean width π€ and depth π, πβπ’π€π
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How big should a stream channel be?
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Channel size Discharge varies in time and in space (downstream)
Stable channels must transport the water and sediment supplied without requiring changes in channel cross-sectional geometry.
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Regime theory Developed in early 20th century by British engineers designing irrigation canals in India and Pakistan Canals were designed to carry a particular discharge and maintain sufficient velocity to prevent siltation.
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Regime equations (empirical)
π’=0.794 π 1/6 π π 1/3 π
=0.49 π 1/3 π π β1/3 π΄=1.26 π 5/6 π π β1/3 π=2.66 π 1/2 π= π β1/6 π π 5/3 Where silt factor π π =1.59 π 1/2 , π is grain size in mm
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Downstream hydraulic geometry
How do π’, π, π€ vary as π varies downstream? π€=π π π π=π π π π’=π π π Since π=π€ππ’, π=πππ π π+π+π so πππ=1 and π+π+π=1
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At-a-station hydraulic geometry
How do π’, π, π€ vary at a single cross-section as π varies in time? (same math!) π€=π π π π=π π π π’=π π π Since π=π€ππ’, π=πππ π π+π+π so πππ=1 and π+π+π=1
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