CIVIL & ARCHITECTURE DOMAIN
Published December 18, 2020 | Version v1
Journal article Open

Analysis of Biopolymer Remediated Contaminated Soil

Authors/Creators

  • 1. M.tech. Student, Department of Civil Engineering, Marian Engineering College, Trivandrum, Kerala, India.
  • 2. Assistant Professor, Department of Civil Engineering, Marian Engineering College, Trivandrum, Kerala, India.

Description

Soil contamination is emerging as a major threat to environment as well as human health. The major causes of contamination are due to the rapid growth in industrial development, intensive agriculture and anthropogenic activities releasing heavy metals, chemicals, salts and other disease causing agents. The heavy metals decreases the quality of soil by leaching into it and thereby causing groundwater contamination. Therefore, remediation of such soils is necessary. Various methods are employed to remove the contaminants from soil. The paper focuses on using biopolymers as remedial agent in cadmium contaminated soil. Biopolymers are the polymeric molecules that are harmless and eco-friendly which occurs in nature. In the present study, starch based and cellulose based biopolymers were used to remediate clayey soil which is artificially contaminated using cadmium chloride at different concentrations. The effectiveness of treatment and a comparative study upon addition of both biopolymers will be evaluated by means of atterberg limits, column leaching test, strength characteristics and micro structural analysis.

Files

Analysis of Biopolymer Remediated -Formatted Paper.pdf

Files (121.6 kB)

Additional details

References

  • Xia, W. Y., Feng, Y. S., Jin, F., Zhang, L. M., & Du, Y. J. (2017). Stabilization and solidification of a heavy metal contaminated site soil using a hydroxyapatite based binder. Construction and Building Materials, 156, 199-207.
  • Chen, R., Ramey, D., Weiland, E., Lee, I., & Zhang, L. (2016). Experimental investigation on biopolymer strengthening of mine tailings. Journal of Geotechnical and Geoenvironmental Engineering, 142(12), 06016017.
  • Hataf, N., Ghadir, P., & Ranjbar, N. (2018). Investigation of soil stabilization using chitosan biopolymer. Journal of Cleaner Production, 170, 1493-1500.
  • Chen, C., Wu, L., Perdjon, M., Huang, X., & Peng, Y. (2019). The drying effect on xanthan gum biopolymer treated sandy soil shear strength. Construction and Building Materials, 197, 271-279.
  • Chang, I., & Cho, G. C. (2012). Strengthening of Korean residual soil with β-1, 3/1, 6-glucan biopolymer. Construction and Building Materials, 30, 30-35.
  • Latifi, N., Horpibulsuk, S., Meehan, C. L., Abd Majid, M. Z., Tahir, M. M., & Mohamad, E. T. (2017). Improvement of problematic soils with biopolymer—an environmentally friendly soil stabilizer. Journal of Materials in Civil Engineering, 29(2), 04016204.