H23B-1589
Rock Content Influence on Soil Hydraulic Properties

Tuesday, 15 December 2015
Poster Hall (Moscone South)
Kshitij Parajuli1, Morteza Sadeghi2 and Scott B Jones2, (1)Utah State University, Civil and Environmental Engineering, Logan, UT, United States, (2)Utah State University, Logan, UT, United States
Abstract:
Soil hydraulic properties including the soil water retention curve (SWRC) and hydraulic conductivity function are important characteristics of soil affecting a variety of soil properties and processes. The hydraulic properties are commonly measured for seived soils (i.e. particles < 2 mm), but many natural soils include rock fragments of varying size that alter bulk hydraulic properties. Relatively few studies have addressed this important problem using physically-based concepts. Motivated by this knowledge gap, we set out to describe soil hydraulic properties using binary mixtures (i.e. rock fragment inclusions in a soil matrix) based on individual properties of the rock and soil. As a first step of this study, special attention was devoted to the SWRC, where the impact of rock content on the SWRC was quantified using laboratory experiments for six different mixing ratios of soil matrix and rock. The SWRC for each mixture was obtained from water mass and water potential measurements. The resulting data for the studied mixtures yielded a family of SWRC indicating how the SWRC of the mixture is related to that of the individual media, i.e., soil and rock. A consistent model was also developed to describe the hydraulic properties of the mixture as a function of the individual properties of the rock and soil matrix.

Key words: Soil hydraulic properties, rock content, binary mixture, experimental data.