Performance Evaluation of Sustainable Soil Stabilization Process Using Waste Materials

Muhammad Aamir,Amjad Farid,Muhammad Waseem,Syyed Adnan Raheel Shah,Aqsa Nisar,Zarnish Mahmood,Tanveer Ahmed Khan,Muhammad Ismaeel,Mudassir Abbas

doi:10.3390/pr7060378

Muhammad Aamir, Amjad Farid + Show 7 more

Open Access

https://doi.org/10.3390/pr7060378

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Journal: Processes	Publication Date: Jun 18, 2019
Citations: 25	License type: CC BY 4.0

Affiliation: University of Bayreuth, Bahauddin Zakariya University

Abstract

The process of soil stabilization is a fundamental requirement before road infrastructure development is possible. Different binding materials have been used worldwide as soil stabilizers. In this study, water treatment waste (i.e., alum sludge (AS)) was used as a soil stabilizer. Alum sludge can work not only as a low-cost soil stabilizer but also can solve the problem of waste management at a large scale. Utilization of alum waste can be a sustainable solution and environmentally friendly exercise. Thus, in consideration of the pozzolanic properties of alum, it was applied as a binder, similar to cement or lime, to stabilize the soil with the addition of 2%, 4%, 6%, 8%, and 10% of dry soil by weight. To analyze the resulting improvement in soil strength, the California Bearing Ratio (CBR) test was conducted in addition to three other tests (i.e., particle size analysis, Atterberg’s limits test, and modified proctor test). The soil bearing ratio was significantly improved from 6.53% to 16.86% at the optimum level of an 8% addition of alum sludge. Furthermore, the artificial neural networks (ANNs) technique was applied to study the correlations between the CBR and the physical properties of soil, which showed that, at 8% optimum alum sludge, maximum dry density, optimum moisture content, and plasticity index were also at maximum levels. This study will help in providing an eco-friendly soil stabilization process as well as a waste management solution.

Highlights

IntroductionThere has been a significant increase in the production of sewage sludge, which has increased from 180,000 m3 /day to 400,000 m3 /day in different parts of the world [1]
Water treatment is an essential process before the consumption of groundwater
The molds were prepared with different percentages to determine the soil stabilization along with the effect of optimum moisture content (OMC), maximum dry density (MDD), and plasticity index (PI)

Summary

Introduction

There has been a significant increase in the production of sewage sludge, which has increased from 180,000 m3 /day to 400,000 m3 /day in different parts of the world [1]. Such a large amount of sewage sludge is very difficult to dump by landfill, farm use, or even incineration. According to the Unified Soil Classification System (USCS), if an additive is effective enough to change the soil type from mild to low plastic, it can act as a suitable replacement for cement [3]. Replacing cement by incinerated sewage sludge ash was tested for soil improvement.

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Results

Conclusion