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Petroleum Science and Technology Volume 32, 2014 - Issue 17
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Original Articles

The Remediation of Waste Drilling Muds by a Combined Plant-microbe System

Y.-Y. FanSchool of Water Resources and Environment, China University of Geosciences, Beijing, China;Safety, Environment & Technology Supervision Research Institute, Petrochina Southwest Oil & Gasfield Company, Chengdu, ChinaCorrespondence[email protected]
,
G.-C. WangSchool of Water Resources and Environment, China University of Geosciences, Beijing, China
,
J.-H. FuSafety, Environment & Technology Supervision Research Institute, Petrochina Southwest Oil & Gasfield Company, Chengdu, China
&
X.-H. ZhengSafety, Environment & Technology Supervision Research Institute, Petrochina Southwest Oil & Gasfield Company, Chengdu, China
Pages 2086-2092 | Published online: 10 Jun 2014

REFERENCES

  • Cookson, J.R. Jr. (1995). Bioremediation engineering: Design and application. New York: McGraw-Hill.
  • Coussot, P., Bertrand, F., and Herzhaft, B. (2004). Rheological behavior of drilling muds, characterization using MRI visualization. Oil Gas Sci. Technol. 1:23–29.
  • Cunningham, S.D., and Berti, W.R. (1993). Remediation of contaminated soils with green plants: an overview. In Vitro Cell. Dev. B 29:207–212.
  • Ezzatian, R., Voussoughi, M., Yaghmaei, S., Abedi-Koupai, J., Borghei, M., and Ghafoori, S. (2009). Effects of puccinellia distans and tall fescue on modification of C/N ratios and microbial activities in crude oil-contaminated soils. Pet. Sci. Technol. 27:452–463.
  • Giovanoni, S.J. (1991). The polymerase chain reaction. In: Nucleic acid techniques in bacterial systematics, Stackebrandt, E., Goodfellow, M. (Eds.). New York: Wiley; pp. 177–203.
  • Huesemann, M.H., Hausmann, T.S., and Fortman, T.J. (2002). Microbial factors rather than bioavailability limit the rate and extent of PAH biodegradation in aged crude oil contaminated model soils. Bioremed. J. 6:321–336.
  • Ji, G.D., Yang, Y.S., Zhou, Q., Sun, T., and Ni, J.R. (2004). Phytodegradation of extra heavy oil-based drill cuttings using mature reed wetland: An in situ pilot study. Environ. Int. 30:509–517.
  • Juteau, P., Bisaillon, J.G., Lépine, F., Ratheau, V., Beaudet, R., and Villemur, R. (2003). Improving the biotreatment of hydrocarbons-contaminated soils by addition of activated sludge taken from the wastewater treatment facilities of an oil refinery. Biodegradation 14:31–40.
  • Lu, R. (2000). Methods for soil and agricultural chemistry. Beijing: Chinese Agriculture Press (in Chinese).
  • Lu, M., Zhang, Z., Qiao, W., Wei, X., Guan, Y., Ma, Q., and Guan, Y. (2010a). Remediation of petroleum-contaminated soil after composting by sequential treatment with Fenton-like oxidation and biodegradation. Bioresour. Technol. 101:2106–2113.
  • Lu, M., Zhang, Z., Sun, S., Wang, Q., and Zhong, W. (2009). Enhanced degradation of bioremediation residues in petroleum contaminated-soil using a two-liquid phase bioslurry reactor. Chemosphere 77:161–168.
  • Lu, M., Zhang, Z., Sun, S., Wei, X., Wang, Q., and Su, Y. (2010b). The use of goosegrass (Eleusine indica) to remediate soil contaminated with petroleum. Water Air Soil Poll. 209:181–189.
  • Mackova, M., Macek, T., Ocenaskova, J., Burkhard, J., Demnerova, K., and Pazlarova, J. (1997). Biodegradation of polychlorinated biphenyls by plant cells. Int. Biodeter. Biodegr. 39:311–325.
  • Maila, M.P., Randima, P., Drønen, K., and Cloete, T.E. (2006). Soil microbial communities: influence of geographic location and hydrocarbon pollutants. Soil Biol. Biochem. 38:303–310.
  • Modi, H.A., Rajput, G., and Ambasana, C. (2010). Decolorization of water soluble azo dyes by bacterial cultures, isolated from dye house effluent. Bioresour. Technol. 101:6580–6583.
  • Nelson, D.W., and Sommers, L.E. (1982). Total carbon, organic carbon and organic matter. In: Methods of soil analysis, part 2: chemical and microbiological methods, Page, A.L., Miller, R.H., Keeney, D.R. (Eds.). Madison, WI: Soil Science Society of America; pp. 539–579.
  • Xu, Y., Lu, M., He, F., and Li, Y. (2011). Removal of bioremediation residues by vegetable oil extraction and slurry phase biotreatment. Pet. Sci. Technol. 29:684–694.
  • Yan, P., Lu, M., Guan, Y., Zhang, W., and Zhang, Z. (2011). Remediation of oil-based drill cuttings through a biosurfactant-based washing followed by a biodegradation treatment. Bioresour. Technol. 102:10252–10259.
  • Zekri, A.Y., Abou-Kassem, J.H., and Shedid, S.A. (2009). A new technique for measurement of oil biodegradation. Pet. Sci. Technol. 27:666–677.
  • Zubber, D.A. (1994). Recovery and enumeration of viable bacteria. In: Methods of soil analysis, part 2: microbiological and biochemical properties, Weaver, R.W., Angle, J.S., Bottomley, P.S. (Eds.). Madison, WI: Soil Science Society of America; pp. 119–144.

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