23
July 2014

Geofilters - Granular and Geotextile Seminar

Status: Advanced registration is now closed. A limited number of registrations will be accepted at the door.
Date: Wednesday, July 23, 2014
Time: 8:00 AM-8:30 AM: Registration and Continental Breakfast
8:30 AM-4:30 PM: Geofilters - Granular and Geotextile
Location: Best Western Plus Chateau Granville Hotel 1100 Granville St. Vancouver, BC
Presenter: Dr. Jonathan Fannin, P.Eng., FEIC, University of British Columbia
Credit: 7 Formal Professional Development Hours (PDH)
Cost: Early Bird Price Engineers and Geoscientists BC Member: $399.00 + GST = $418.95 until July 9, 2014

Engineers and Geoscientists BC Member and EIT/GIT Regular Price: $499.00 + GST = $523.95

Non-Member Price: $499.00 + GST = $523.95

Student Member Price: $249.50 + GST = $261.98
Please Note: *A minimum number of registrations are needed by July 09, 2014 to proceed with this seminar. Please register early to avoid cancellation.
**All prices are subject to applicable taxes.
Contact: Ailene Lim | Professional Development Coordinator
Direct: 604.412.4899
Toll Free: 1.888.430.8035 ext.4899
Fax: 604.639.8180
Email: [email protected]
Geofilters - Granular and Geotextile Seminar. Learning objectives for this short course are: to develop an understanding of the fundamental concepts that govern the design of filters in geotechnical applications; to identify the nature and limitations of empiricism in design practice, both for granular and geotextile filters, so as to inform decisions on the specification of filters in engineering practice; and, to illustrate, with reference to the state-of-practice in embankment dam engineering, the sensible application of empirical rules and their verification by means of laboratory tests described in the technical literature.

Filters that are used in geotechnical engineering to control seepage must satisfy certain fundamental requirements.  The pore size distribution must be sufficiently small enough to restrict particles of the adjacent soil from entering into it and washing through it.  The permeability must be sufficiently high enough to ensure an unimpeded flow of water through it.  In the case of an embankment dam, a filter placed downstream from the core is required to control and seal any leaks that develop as a consequence of internal erosion.  The filter itself should not be susceptible to seepage-induced internal instability under the flow regime that can develop adjacent to such localised deficiencies.

The origins of design “rules” are reviewed for granular filters, commencing with the original classic work Terzaghi, in order to gain a full appreciation for empiricism in design.  The subsequent development and refinement of these rules is then traced, from laboratory investigations and companion field experience, so as to gain a confident understanding of current design practice.  The methodology of the US Natural Resources and Conservation Service, National Engineering Handbook Chapter 26 “Gradation design of sand and gravel filters” is then reviewed in detail, and applied to a case study in dam engineering where concern for seepage through a 50 year-old embankment dam led to its decommissioning in 2004.  Thereafter, the 2013-draft ICOLD Bulletin 164 on “internal erosion of existing dams, levees and dikes, and their foundations” is examined, with consideration of the implications for current design practice.

The origins of design “rules” for geotextile filters are then reviewed, again with a view to appreciating the empirical nature of design practice for both woven and non-woven geotextiles.  The companion refinement of these rules is traced over time, again from a consideration of laboratory investigations and companion field experience.  In closing, the state-of-practice for geotextile filters is compared and contrasted with that for granular filters.

Audience:
  • Consultants engaged in the design, construction and performance-monitoring of dikes, levees and embankment dams;
  • Industry professionals with responsibility for the inspection and maintenance of such infrastructure;
  • Government Regulators reviewing the design and performance-monitoring reports of consultants and industry professionals.

Instructor:
Dr. Jonathan Fannin, P.Eng., FEC, Professor of Civil Engineering, University of British Columbia

Jonathan has been involved with teaching, consulting and university-industry research on both geotextile and granular filters for more than 20 years, in North America, South America and Europe.  He is a recipient of the International Geosynthetics Society Award for contributions of research to engineering practice.  He held a UK Royal Academy of Engineering Visiting Fellowship at Imperial College London, where he continues to collaborate on fundamental investigations of the micro-mechanics of granular filters.  His professional activities have included Vice-President of the North America Geosynthetics Society, and Chair of the Canadian Geotechnical Society, Geosynthetics Division.  He has twice received a UBC Killam Prize for teaching excellence, and more recently received the APEGBC President’s Teaching Award.


View the full listing of events sponsored and organized by other groups.
Contact Professional Development
Email: [email protected]
Phone: 604.430.8035
Toll-free: 1.888.430.8035
View our career listings or place an employment ad.
Presentations for Post-Secondary Students
Andrea Michaud
Email: [email protected]
Phone: 604.412.4860
 
Presentations for High School Students
Chelsea Smith
Email: [email protected]
Phone: 604.412.4892
See the various opportunities to volunteer with Engineers and Geoscientists BC and in your community.