ASDSO Dam Safety Toolbox

Structural: Difference between revisions

From ASDSO Dam Safety Toolbox
Jump to: navigation, search
No edit summary
No edit summary
Line 10: Line 10:
}}
}}


Structural [[engineering]] is important in many facets of dam safety. There are a variety of forces against which a dam should be designed to adequately resist including but not limited to: self-weight, static water pressures, wave pressures, sediment buildup pressures, uplift water pressures, wind pressures, thermal loads, ice pressures, and earthquake forces. First and foremost, structural engineers must design the dam to be globally stable (particularly for concrete and masonry type dams; for [[Embankment Dams|embankment dams]], [[Slope Stability | slope stability]] is a separate issue). In addition to the global [[stability]] of a dam, structural engineers must also design the many appurtenant structures associated with dams to be structural sound. These structures include [[spillways]], intake towers, outlet conduits, gates, and more. Materials used in the [[construction]] of dams include "earth, rock, tailings from mining or milling, concrete, masonry, steel, timber, miscellaneous materials (such as plastic or rubber) and any combination of these materials." <ref name="ASDSO">ASDSO, 2022</ref> Any design utilizing any of these, or combination of these, materials must be designed to be structurally stable and to meet applicable design criteria.
Structural [[engineering]] is important in many facets of dam safety. There are a variety of forces against which a dam should be designed to adequately resist including but not limited to: self-weight, static water pressures, wave pressures, sediment buildup pressures, uplift water pressures, wind pressures, thermal loads, ice pressures, and earthquake forces. First and foremost, structural engineers must design the dam to be globally stable (particularly for concrete and masonry type dams; for [[Embankment Dams | embankment dams]], [[Slope Stability | slope stability]] is a separate issue). In addition to the global [[stability]] of a dam, structural engineers must also design the many appurtenant structures associated with dams to be structural sound. These structures include [[spillways]], intake towers, outlet conduits, gates, and more. Materials used in the [[construction]] of dams include "earth, rock, tailings from mining or milling, concrete, masonry, steel, timber, miscellaneous materials (such as plastic or rubber) and any combination of these materials." <ref name="ASDSO">ASDSO, 2022</ref> Any design utilizing any of these, or combination of these, materials must be designed to be structurally stable and to meet applicable design criteria.


==Structural Design Criteria==
==Structural Design Criteria==

Revision as of 23:06, 14 November 2022


Spillway pier isometric drawing (USACE).

Structural engineering is important in many facets of dam safety. There are a variety of forces against which a dam should be designed to adequately resist including but not limited to: self-weight, static water pressures, wave pressures, sediment buildup pressures, uplift water pressures, wind pressures, thermal loads, ice pressures, and earthquake forces. First and foremost, structural engineers must design the dam to be globally stable (particularly for concrete and masonry type dams; for embankment dams, slope stability is a separate issue). In addition to the global stability of a dam, structural engineers must also design the many appurtenant structures associated with dams to be structural sound. These structures include spillways, intake towers, outlet conduits, gates, and more. Materials used in the construction of dams include "earth, rock, tailings from mining or milling, concrete, masonry, steel, timber, miscellaneous materials (such as plastic or rubber) and any combination of these materials." [1] Any design utilizing any of these, or combination of these, materials must be designed to be structurally stable and to meet applicable design criteria.

Structural Design Criteria


Citations:

  1. ASDSO, 2022


Revision ID: 4151
Revision Date: 11/14/2022