3-D Effects on Estimation of Gradients, Seepage Flows and Evaluation of Internal Erosion Potential Failure Modes

This webinar will present the results of 2D and 3D numerical evaluations of seepage conditions around a developing piping defect. An updated model similar to the first 3D numerical model performed at the University of Florida beginning in about 1980 (Townsend, 1981) will be presented to illustrate the importance of 3D influences on estimated seepage gradients, seepage flows and the evaluation of potential internal erosion potential failure modes. The updated numerical models were developed using the computer code SVFlux. One of the benefits of this program is an automatic remeshing routine that provides for more accurate estimation of seepage gradients in areas of seepage concentration such as at a discharge defect (influence on initiation processes), or as a pipe continues (progresses) in an upstream direction toward the reservoir or water source. A simplified method of estimating 3D influences on gradients and flow quantities will be presented that will allow practitioners to evaluate a number of different shapes and sizes of dam and levees.

Key takeaways from participating in this webinar include:

Importance of 3-D effects on assessment of seepage safety
Better understanding of internal erosion and related potential failure modes.
Increased understanding of some of the history of seepage research
Software for 2-D and 3D seepage evaluations
Use of judgment in assessing seepage issues and risk assessment

Speaker and Presenter Information

Keith A. Ferguson, P.E. is a senior dam safety and geotechnical engineer with over 38 years of experience in the assessment, design and construction of embankment, rockfill, and roller compacted concrete dams. He has served as the chair of the editorial committee of the ASDSO Dam Safety Journal and recently completed a seven year term as a director and 2 year term as President of USSD. Mr. Ferguson has previously been an instructor for a number of ASDSO training programs including Rehabilitation of Dams, and Stability Evaluation of Embankment and Concrete Dams, along with an advanced technical seminars on Seepage for Earth Dams. He holds both BS and MS degrees from the University of Colorado at Boulder with emphasis in geotechnical engineering, and is a registered professional engineer in 18 states.

Relevant Government Agencies

Army, Dept of Agriculture, Dept of Energy, Dept of Homeland Security, Dept of the Interior, Other Federal Agencies, State Government, County Government, City Government, Municipal Government, FEMA, Federal Government, State & Local Government