Study of bio-grout treated slope models under simulated rainfall

Research output: Contribution to journalArticle

1 Citation (Scopus)

Abstract

Previous data reported that soil erosion in Malaysia was directly related to rainfall trends. This phenomenon could affect the overhead transmission towers which are at risk of collapsing due to slope failure. For soil stabilization, chemical grouting such as cement, lime and acrylamides were generally applied to enhance the physical properties of the soil. However, some of the chemical additives used in the grouting suspension may be toxic and hazardous to both humans and the environment. Thus, it is important to look for alternative grouting substances that are safe and sustainable. Recently, a new soil improvement technique based on carbonate precipitation by microbial activities from vegetable waste has been developed as bio-grout. This study was aimed to investigate the effectiveness of bio-grout from the vegetable waste in reducing soil loss due to rainfall impact. Soil samples were collected from an eroded slope nearby a transmission line in Perak and molded into 45° slope models in a custom-made box. A simple rainfall simulation was performed on the untreated and treated soil samples mixed with bio-grout for 30 days. The results showed that the soil loss of treated samples has been significantly reduced from 34.6 g to 13.5 g. Scanning electron microscopy showed aggregated particles occupying the empty spaces of the treated soils. Evidence of bio-mediated microbial activity was indicated by the presence of microorganisms in the bio-grout liquid. The bio-grout from vegetable waste proved to be an effective and eco-friendly new grouting material for soil erosion control.

Original languageEnglish
Pages (from-to)154-159
Number of pages6
JournalInternational Journal of GEOMATE
Volume14
Issue number43
DOIs
Publication statusPublished - 01 Jan 2018

Fingerprint

grout
rainfall simulation
Rain
grouting
Soils
rainfall
vegetables
microbial activity
soil erosion
Grouting
soil
soil sampling
soil stabilization
rain
Vegetables
erosion control
acrylamides
cement
soil physical properties
Malaysia

All Science Journal Classification (ASJC) codes

  • Environmental Engineering
  • Building and Construction
  • Geotechnical Engineering and Engineering Geology
  • Soil Science

Cite this

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title = "Study of bio-grout treated slope models under simulated rainfall",
abstract = "Previous data reported that soil erosion in Malaysia was directly related to rainfall trends. This phenomenon could affect the overhead transmission towers which are at risk of collapsing due to slope failure. For soil stabilization, chemical grouting such as cement, lime and acrylamides were generally applied to enhance the physical properties of the soil. However, some of the chemical additives used in the grouting suspension may be toxic and hazardous to both humans and the environment. Thus, it is important to look for alternative grouting substances that are safe and sustainable. Recently, a new soil improvement technique based on carbonate precipitation by microbial activities from vegetable waste has been developed as bio-grout. This study was aimed to investigate the effectiveness of bio-grout from the vegetable waste in reducing soil loss due to rainfall impact. Soil samples were collected from an eroded slope nearby a transmission line in Perak and molded into 45° slope models in a custom-made box. A simple rainfall simulation was performed on the untreated and treated soil samples mixed with bio-grout for 30 days. The results showed that the soil loss of treated samples has been significantly reduced from 34.6 g to 13.5 g. Scanning electron microscopy showed aggregated particles occupying the empty spaces of the treated soils. Evidence of bio-mediated microbial activity was indicated by the presence of microorganisms in the bio-grout liquid. The bio-grout from vegetable waste proved to be an effective and eco-friendly new grouting material for soil erosion control.",
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Study of bio-grout treated slope models under simulated rainfall. / Che Omar, Rohayu; Taha, Hairin; Roslan, Rasyikin; Baharuddin, Intan Nor Zuliana.

In: International Journal of GEOMATE, Vol. 14, No. 43, 01.01.2018, p. 154-159.

Research output: Contribution to journalArticle

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