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GSI to host webinar on solid waste landfill failures

Events | April 22, 2019 | By:

The Geosynthetic Institute (GSI) will sponsor a webinar, Behavior and Analysis of Twenty Solid Waste Landfill Failures,” on May 8, from 11:30 a.m. to 1 p.m. EDT. Geosynthetic Materials Association (GMA) member companies and their employees receive discounted rates on all GSI webinar and short course registrations.

In comparison to the number of worldwide solid waste landfills that exist, the incidence of failure is quite small. Nevertheless, when they do fail the mass of waste involved can be enormous.  Six of the twenty failures described in this webinar involved over 1,000,000 m3 of waste and three involved deaths. The analysis of each failure using the computer program ReSSA 3.0 identified the most sensitive unknown variable, while individual reports identified the “triggering mechanism” which brought the already low FS-value into an incipient failure state.  Some of the salient findings are as follows:

  1. 7 of 11 unlined cases were rotational failures
  2. 8 of 9 lined cases were translational failures
  3. Service lifetimes were from 1 week to decades
  4. Duration of failures was from 1 min. to a few hours
  5. Average height of waste mass was 26 m
  6. Height-to-length of failed waste was approximately 0.42
  7. Average density of waste was 12.1 kN/m3
  8. Average waste shear strength was 26° and 13 kPa
  9. Geomembrane shear strength varied from 5.1 to 16.2° (none were textured)
  10. Waste and/or liner shear strength was generally the greatest uncertainty
  11. Liquids were involved in all 20 cases; i.e., in the waste, liner system or foundation soil and was invariably the “trigger” causing failure

This webinar should convince all involved and interested in landfill technology of the serious implications of failure and of the necessity for proper design, filling, cover and maintenance practices.

Participants will become familiar with the methods and idiosyncrasies of solid waste landfill failures.  Different trajectories of failures (rotational or translational) will be identified and described where they occurred. The computer analyses will clearly show the importance of having accurate shear strengths; both of the solid waste and liner system.  Additionally, the negative implications of liquid in the waste, liner, or foundation will be highlighted. This webinar will hopefully lead to mitigating such failures in the future.

This webinar will be beneficial to public and private owners/operators of landfills, heap leach mining operations, combustion coal residuals and related solid waste facilities; consultants and designers in the private sector; regulators and agency personnel at the federal, state and local levels; geosynthetic manufacturers; geotechnical and geosynthetic testing organization personnel; contractors and installers of liner and cover systems; academic and research groups; and others desiring technically related information on this important aspect of our constructed infrastructure.

This webinar will be beneficial to public and private owners of dams, canals, reservoirs, tunnels and pipelines insofar as our hydraulic infrastructure is concerned; federal, state and regional hydraulic, geotechnical, and geoenvironmental engineers; engineers from municipal districts and townships; private and municipal land developers; general civil consulting engineers; testing laboratories servicing these organizations; manufacturers of geosynthetic materials; contractors and installers of geosynthetic materials; academic and research groups; and others desiring technically related information on this important aspect of our hydraulic infrastructure.

The webinar’s instructor, Dr. Robert M. Koerner, is professor emeritus of civil engineering at Drexel University, and founder and director emeritus of the Geosynthetic Institute.

Webinars cost $200.00 for GSI and GMA members, and $250.00 for nonmembers. Successful completion of a multiple-choice test after the webinar carries 1.5 professional development hours (PDH).

For more information or to register, click here.

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