AN EMPIRICAL MODEL FOR PREDICTING HYDRAULIC CONDUCTIVITY OF MINE TAILINGS

Authors

  • Mary Ann Q. Adajar
  • Mark Albert H. Zarco

Keywords:

Mine Tailings, Geotechnical Characteristics, Hydraulic Conductivity

Abstract

To evaluate the applicability of mine tailings as embankment materials, its geotechnical
characteristics have to be established. Standard ASTM procedures are performed to determine the physical
properties and hydraulic conductivity of mine tailings from three (3) different mining sites in the Philippines.
Falling head permeability tests are performed on reconstituted samples compacted at varying void ratio and
fine content. The hydraulic conductivity, k of tailings falls within the range of 10-3to 10-6cm/sec. Data obtained
from these tests are used to develop an empirical model for predicting the hydraulic conductivity of mine
tailings under fully saturated conditions as a function of void ratio and fine contents. The formulated model is
a useful tool to estimate the hydraulic conductivity of non-plastic fine tailings, a parameter needed in seepage
analysis, when these waste materials are used as embankment materials in the construction of tailing dams.

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Published

2015-12-11

How to Cite

Mary Ann Q. Adajar, & Mark Albert H. Zarco. (2015). AN EMPIRICAL MODEL FOR PREDICTING HYDRAULIC CONDUCTIVITY OF MINE TAILINGS. GEOMATE Journal, 7(14), 1054–1061. Retrieved from https://geomatejournal.com/geomate/article/view/2977