HY8:Outlet Control Computations: Difference between revisions

Outlet control means that the amount of water the culvert barrel can carry is limited by the barrel and/or tailwater conditions downstream. As a result, the flow in the barrel is subcritical, and the energy equation may be used to find the upstream headwater depth. Several flow profiles are possible and are shown below and on page 32 of HDS-5. The following correlations apply to HY-8: Type A in HDS-5 is Type 4 in HY-8, Type B in HDS-5 is Type 3 in HY-8; Type C in HDS-5 is Type 6 in HY-8, Type D in HDS-5 is Type 7 in HY-8, and Type E in HDS-5 is Type 2 in HY-8. Descriptions of these flow types may be found in HY-8 by selecting the “Flow Types” button from the Culvert Summary Table.

File:HY8image38.gif

The logic for determining flow type due to outlet control is shown below:

This flowchart uses the following terms:

HJ = Check for Hydraulic Jumps Full flow = Check if the culvert is flowing full TWH = twOutletDepth = IH = OH = RISE = Inlet Depth = D1 = Critical = Normal = FFf =

The following describes the flow types defined in the above flow chart:

An example flow type is 3-M1f. This flow type has three parts: The "3" represents whether it's inlet or outlet control and whether the inlet or outlet is submerged.

1 1 1 1 5 5 5 5 5 2 3 3 3 4 6 6 7 7 7

Flow Type	Flow Control	Submerged Inlet	Submerged Outlet	Length Full	Loss Calc	Outlet Depth
1	Inlet	No	No	NONE	S2n	Normal
Inlet	No	No	NONE	S1t	Tailwater
Inlet	No	Yes	Part	S1f	Full
Inlet	No	No	NONE	JS1t	Jump to Tailwater
Inlet	No	Yes	Most	JS1f	Jump to Full
Inlet	Yes	No	NONE	S2n	Normal
Inlet	Yes	No	NONE	S1t	Tailwater
Inlet	Yes	Yes	Part	S1f	Full
Inlet	Yes	No	NONE	JS1t	Jump to Tailwater
Inlet	Yes	Yes	Part	JS1f	Jump to Full
Outlet	No	No	NONE	M2c	Critical
Outlet	No	No	NONE	M1t	Tailwater
Outlet	No	No	NONE	M2t	Tailwater
Outlet	No	Yes	Part	M1f	Full
Outlet	Yes	Yes	All	FFf	Full
Outlet	Yes	No	Most	FFt	Tailwater
Outlet	Yes	No	Most	FFc	Critical
Outlet	Yes	No	Part	M1t	Tailwater
Outlet	Yes	No	Part	M2t	Tailwater
Outlet	Yes	No	Part	M2c	Critical

v • e HY-8
Introduction:	Getting Started   •   Layout   •   Vena Contracta   •   Building a Project   •   Locate Project   •   Culvert Crossing Data   •   Run Analysis   •   Report Generation
Crossing and Culvert Data:	Crossings   •   Discharge Data   •   Roadway Data   •   Tailwater Data   •   Irregular Channel   •   Culvert Data   •   Site Data   •   Culvert Invert Data   •   Embankment Toe Data
Analysis	Project Units   •   Roadway Overtopping   •   Inlet Control Computations   •   Outlet Control Computations   •   Tables and Plots
Energy Dissipation	Scour Hole Geometry   •   Increased Resistance   •   Tumbling Flow   •   USBR Type IX Baffled Apron   •   Drop Structures   •   Stilling Basins   •   Streambed Level Structures
Methods	Aquatic Organism Passage   •   Low Flow Hydraulics
Troubleshooting	Differences from DOS HY-8   •   Limitations   •   HY-8 User Manual