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{| align="right" style="width:10%;" cellpadding="7"  
| [[Image:HJ1.jpg|350px|x350px|link=Accounting for Energy Dissipation]]  
| [[Image:Energy_Dissipation_Basin.jpg|350px|x350px|link=Accounting for Energy Dissipation]]  
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|style="text-align:center; font-size:90%;"| See examples of common types of [[Accounting for Energy Dissipation|energy dissipators]]  
|style="text-align:center; font-size:90%;"| See examples of common types of [[Accounting for Energy Dissipation|energy dissipators]]
(Image Source: [https://commons.wikimedia.org/wiki/File:Bassin-de-dissipation_Soulages.jpg Luppanox])
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==Types of Energy Dissipation==
==Types of Energy Dissipation==
Common [[Types of Dams|types of dams]] include the following:
Common types of energy dissipation include the following:
*[[Headwalls/endwalls]]
*[[Headwalls/endwalls]]
*[[Impact Basins]]
*[[Impact Basins]]
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==Examples==
==Examples==
{{Website Icon}} [[Accounting for Energy Dissipation|See examples and learn more about common types of energy dissipators]]  
{{Website Icon}} [[Accounting for Energy Dissipation | See examples and learn more about common types of energy dissipators]]  
==Best Practices Resources==
 
{{Document Icon}} [[Design Standards No. 14: Appurtenant Structures for Dams (Ch. 4: General Outlet Works Design Considerations)|Design Standards No. 14: Appurtenant Structures for Dams (Ch. 4: General Outlet Works Design Considerations) (Bureau of Reclamation, 2022)]]  
<noautolinks>==Best Practices Resources==</noautolinks>
{{Document Icon}} [[Design of Small Dams|Design of Small Dams (Bureau of Reclamation, 1987)]]  
{{Document Icon}} [[Design Standards No. 14: Appurtenant Structures for Dams (Ch. 4: General Outlet Works Design Considerations) | Design Standards No. 14: Appurtenant Structures for Dams (Ch. 4: General Outlet Works Design Considerations), USBR]]
{{Document Icon}} [[Hydraulic Design of Stilling Basins and Energy Dissipators (EM 25)|Hydraulic Design of Stilling Basins and Energy Dissipators (EM 25) (Bureau of Reclamation, 1984)]]
{{Document Icon}} [[Technical Manual: Outlet Works Energy Dissipators (FEMA P-679)|Technical Manual: Outlet Works Energy Dissipators, FEMA]]
{{Document Icon}} [[Technical Manual: Outlet Works Energy Dissipators (FEMA P-679)|Technical Manual: Outlet Works Energy Dissipators (Federal Emergency Management Agency, 2010)]]
{{Document Icon}} [[Design of Small Dams | Design of Small Dams, USBR]]  
{{Document Icon}} [[Hydraulic Design of Reservoir Outlet Works (EM 1110-2-1602)|Hydraulic Design of Reservoir Outlet Works (EM 1110-2-1602) (U.S. Army Corps of Engineers, 1980)]]  
{{Document Icon}} [[Hydraulic Design of Stilling Basins and Energy Dissipators (EM 25) | Hydraulic Design of Stilling Basins and Energy Dissipators (EM 25), USBR]]  
{{Document Icon}} [[Hydraulic Design of Reservoir Outlet Works (EM 1110-2-1602)|Hydraulic Design of Reservoir Outlet Works (EM 1110-2-1602), USACE]]
==Trainings==
==Trainings==
{{Website Icon}} [[On-Demand Webinar: Inlet and Outlet Hydraulics for Spillways and Outlet Structures]]
{{Website Icon}} [[On-Demand Webinar: Inlet and Outlet Hydraulics for Spillways and Outlet Structures]]

Latest revision as of 19:12, 28 July 2023


See examples of common types of energy dissipators

(Image Source: Luppanox)

“Terminal structures located immediately downstream of the conveyance feature include stilling basins, energy dissipaters, and flip buckets. These structures are intended to dissipate or manage the kinetic energy of the flow, so it can be returned to the river or stream without significant scour or erosion that could damage or fail the dam and appurtenant structures”.[1]

The high energy and velocity of flow coming down a spillway can be destructive if not adequately contained and dissipated. Flow from a spillway with high velocity can cause erosion at the toe of the dam, and if left unchecked, can destabilize the dam embankment or base of the concrete monolith. High velocity flows can also damage downstream natural channels causing excessive sediment transport and negatively affecting the waterways and tailwater conditions downstream of the dam. High velocity flows can also cause cavitation damage of the spillway or stilling basin components, degrading concrete and steel, and causing structural instabilities.

“The design of the energy dissipator probably includes more options than any other phase of spillway design. The selection of the type and design details of the dissipator is largely dependent upon the pertinent characteristics of the site, the magnitude of energy to be dissipated, and to a lesser extent upon the duration and frequency of spillway use. Good judgement is imperative to assure that all requirements of the particular project are met. Regardless of the type of dissipator selected, any spillway energy dissipator must operate safely at high discharge for extended periods of time without having to be shut down for emergency repairs. An emergency shutdown of the spillway facility during a large flood could cause overtopping of the dam and/or create unacceptable upstream flooding”.[2]

Types of Energy Dissipation

Common types of energy dissipation include the following:

Examples

See examples and learn more about common types of energy dissipators

Best Practices Resources

Design Standards No. 14: Appurtenant Structures for Dams (Ch. 4: General Outlet Works Design Considerations), USBR

Technical Manual: Outlet Works Energy Dissipators, FEMA

Design of Small Dams, USBR

Hydraulic Design of Stilling Basins and Energy Dissipators (EM 25), USBR

Hydraulic Design of Reservoir Outlet Works (EM 1110-2-1602), USACE

Trainings

On-Demand Webinar: Inlet and Outlet Hydraulics for Spillways and Outlet Structures

On-Demand Webinar: Terminal Structures and Energy Dissipation at Outlet Works and Spillways


Citations:


Revision ID: 7470
Revision Date: 07/28/2023