Abstract
Cassava peels are produced as a waste from cassava, which are disposed into landfills. These become an environmental problem; therefore the use of cassava peel ash (CPA) as a soil stabilizer must be encouraged. This study investigates the effects of CPA and quarry dust (QD) on the engineering properties of Akwadum soil behavior, using compaction test, Atterberg limit, and California bearing ratio (CBR). These properties were compared with those of unstabilized soil (original) and soil stabilized with CPA and QD. The natural soil was obtained from a borrowed pit at Akwadum near Koforidua at an average depth of 0.8 m which is meant for road works. This soil sample was stabilized with CPA and QD at 5%, 10% and 20% respectively. The compaction, California bearing ratio and Atterberg limit test were performed on the stabilized soils to thoroughly evaluate them. The results indicate that increasing the percentage of CPA to the natural soil decreases the maximum dry density at increasing optimum water content. The addition of QD at higher percentage increases the maximum dry density at decreasing optimum water content. The results reveal that both QD and CPA improve the engineering properties of the soil with QD providing better results.
Highlights
It has always been a problem to undertake construction on soft soils such as silt; this has been a major concern in geotechnical engineering
This study investigates the effects of cassava peel ash (CPA) and quarry dust (QD) on the engineering properties of Akwadum soil behavior, using compaction test, Atterberg limit, and California bearing ratio (CBR)
The optimum moisture content (OMC) and maximum dry density (MDD) of the natural soil, quarry dust mixed with natural soil and CPA mixed with natural soil were all determined
Summary
It has always been a problem to undertake construction on soft soils such as silt; this has been a major concern in geotechnical engineering. Though the construction on soft soils has been on the increase as a result of economic reasons, its utilization in the developing regions is relatively low. The rapid development and population growth have made it inevitable to have infrastructures in soft soil lands. This has resulted in the need to find solution by improving or increasing the strength of these soft soils [2]. The methods for stabilizing soft soils include chemical and physical. The effective stabilization of these soils will help increase the strength and decrease the excessive settlement that occurs when subjected to loads [2]
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