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Reservoir Routing

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Reservoir Routing Reservoir Routing Similar to channel storage routing Outflow controlled by the principle spillway at a rate depending on the height of water above ... – PowerPoint PPT presentation

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Title: Reservoir Routing


1
Reservoir Routing
2
Reservoir Routing
  • Similar to channel storage routing
  • Outflow controlled by the principle spillway at a
    rate depending on the height of water above the
    inlet.
  • Outflow is at a maximum where it crosses the
    inflow hydrograph

3
Reservoir Routing
  • Storage is at a maximum when outflow is at a
    maximum.
  • Storage volume required in the reservoir is the
    area between the inflow and outflow hydrographs
    prior to the peak outflow.
  • If the initial water level is the spillway crest
    than the volumes under the inflow and outflow
    hydrographs are equal.

4
Graphical Routing Puls Method
  • Graphically solve the continuity equation using
    storage characteristic curves.
  • Stage-storage curve is developed from topographic
    information relative to the reservoir site.
  • Stage-discharge curve is based on the hydraulics
    of the reservoir outlet.
  • Routing interval should be 10 to 25 of the time
    to peak of the inflow hydrograph.

5
Primary Uses
  • Flood Peak Reduction
  • Detention Storage
  • Storm Water Management

6
Flood Peak Reduction
  • Based on
  • Inflow Hydrograph
  • Allowable downstream peak flow
  • Storage requirements
  • Outlet hydraulic characteristics

7
Design Procedure for Flood Peak Reduction
  • Determine inflow hydrograph for design event.
  • Determine allowable peak outflow from the
    reservoir. Based on
  • Downstream conditions
  • Governing regulations
  • Estimate the storage requirement by
  • Plot the allowable peak outflow on the falling
    limb of the inflow hydrograph
  • Approximate the outflow hydrograph up to the peak
    outflow as either a straight line or an estimated
    curved line.
  • Estimate the storage required as the volume of
    flow between the inflow and outflow hydrographs.

8
Design Procedure for Flood Peak Reduction
  • Estimate the maximum stage from the stage-storage
    relationship.
  • Determine the spillway hydraulic configuration
    required to produce the peak flow with the
    available storage.
  • Route the inflow through the reservoir based on
    this spillway.
  • Adjust the spillway characteristics and repeat
    previous step until a satisfactory design is
    achieved.

9
Detention Storage
  • Detention storage time is a measure of the
    average residence time of the water in a
    reservoir.
  • Useful as measure of opportunity time for
    sediment to settle out.
  • Actual and theoretical detention time may differ
    because of dead storage in the reservoir.
  • Desirable to minimize dead storage when designing
    sediment basins.

10
Theoretical Detention Time
  • In a rectangular basin with a constant flow rate

11
Detention time for variable flow
  • Plug flow concept (first in-first out)
  • Divide inflow hydrograph into equal volume plugs.
  • Route each plug through the reservoir and
    determine detention time for each.
  • Average the detention time for all of the plugs.

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13
Centroid Concept
  • Theoretical detention time is defined as the time
    difference between centroids of the inflow and
    outflow hydrographs.

14
Centroid Concept
  • Tm can be calculated from
  • Or approximated by

15
Storm Water Management
  • Used to reduce peak flows.
  • Regulations often require that peak discharge
    from a design storm after a land-use change not
    exceed the peak discharge prior to the land-use
    change.
  • Often requires detention storage be built in to
    the development plans.

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