Optimization Of Sorbent System From Paper Mill Waste Short Fibers For Bioremediation Of Heavy Hydrocarbons In Soil

Authors

  • S. Grigiškis JSC „Biocentras (LT)
  • E. Baškys JSC „Biocentras (LT)
  • D. Levišauskas Kaunas University of Technology (LT)
  • M. Kavaliauskė JSC „Biocentras (LT)
  • O. Dižavičienė JSC „Biocentras (LT)
  • J. Aikaitė-Stanaitienė JSC „Biocentras (LT)

DOI:

https://doi.org/10.17770/etr2011vol1.894

Keywords:

biosurfactant, heavy oil hydrocarbons, oil bioremediation, optimization, sorbent system

Abstract

The aim was to develop a new improved Sorbent system (S-S) from organic sorbent material, nutrients, biosurfactant and microbial cell producing it for bioremediation of heavy oil hydrocarbons in various soil types. New sorbent material (S-M) was developed from paper mill short waste fibers because it requires very low energy to manufacture and the production costs of this S-M is extremely low compared to similar products in the market. S-M has good sorption characteristics for various oil products, is fully biodegradable, can be applied at sensitive environmental areas. S-M can be combined with microorganisms producing biosurfactant. The goal of investigations was to optimize S-S composition to minimize the leakage of heavy hydrocarbons to deeper soil layers or ground water. The optimal composition of S-S for all types of soil was determined: S-M 86.3-89.3%, microorganisms producing biosurfactant ≥ 107 CFU/g, biosurfactant solution – 3%, nutrients (nitrogen and phosphorous) 0.5 and 0.2%. Recommended optimal S-S moisture is 7%.

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References

Setti, L., Mazzieri, S., Pifferi, P. G. 1999. Enhanced degradation of heavy oil in an aqueous system by a Pseudomonas sp. in the presence of natural and synthetic sorbents. Bioresource Technology, 67(2), 191-199.

Suni, S., Kosunen, A. L., Romantschuk M. Microbially Treated Peat-Cellulose Fabric as a Biodegradable Oil-Collection Cloth. Journal of Environmental Science and Health, Part A: Toxic/Hazardous Substances and Environmental Engineering, 1532-4117, Volume 41, Issue 6, 2006, Pages 999 – 1007.

Gertler, C., Gerdts, G., Timmis, K.N., Golyshin, P.N. Microbial consortia in mesocosm bioremediation trial using oil sorbents, slow-release fertilizer and bioaugmentation. FEMS microbiology ecology, Vol. 69, No. 2, Aug 2009, pp. 288-300.

Gertler, C., Gerdts, G., Timmis, K.N., Yakimov, M.M., Golyshin, P.N. Populations of heavy fuel oil-degrading marine microbial community in presence of oil sorbent materials. Journal of applied microbiology, Vol. 107, No. 2, Aug 2009, pp. 590-605.

Biswas S., Chaudhari S. K., Mukherji S. (2005). Microbial uptake of diesel oil sorbed on soil and oil spill clean-up sorbents. Chem Technol Biotechnol 80:587–593.

Martha, D., Mulligan C.N. Rhamnolipid Biosurfactant Assisted Dispersion and Biodegradation of Spilled Oil on Surface Waters. Paper presented at the 2005 Proceedings, Annual Conference - Canadian Society for Civil Engineering, 10 p. 2005.

Montgomery, D.C. 2008. Design and Analysis of Experiments. John Wiley&Sons. P. 680.

Myers, R.H, Montgomery, D.C. 2002. Response Surface Methodology, Process and Product optimization Using Designed Experiments. John Wiley & Sons, 798 p.

Theodore, R., Panda, T. 1995. Application of response surface methodology to evaluate the influence of temperature and initial pH on the production of beta -1,3 glucanase and carboxymetyl cellulose from Trichoderma harzianum. Enzyme Microb. Technol, 17, 1043-1049.

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Published

2015-08-05

Issue

Vol. 1 (2011): Environment. Technology. Resources. Proceedings of the 8th International Scientific and Practical Conference. Volume 1

Section

I Environmental Protection and Monitoring

How to Cite

[1]
S. Grigiškis, E. Baškys, D. Levišauskas, M. Kavaliauskė, O. Dižavičienė, and J. Aikaitė-Stanaitienė, “Optimization Of Sorbent System From Paper Mill Waste Short Fibers For Bioremediation Of Heavy Hydrocarbons In Soil”, ETR, vol. 1, pp. 104–111, Aug. 2015, doi: 10.17770/etr2011vol1.894.