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Year 2017, Volume: 12 Issue: 2, 121 - 124, 30.06.2017

Abstract

References

  • Azetsu-Scott K, Yeats P, Wohlgeschaffen G, (2007) Precipitation of heavy metals in produced water: influence on contaminant transport and toxicity. Mar Environ Res, 63(2), 146.
  • Castro T.N, Nunes S.K.S, Barros N, (2013) Treatment of oil field produced water: A cleaner process for producing sodium Carbonate (soda ash) Brazilian Journal of petroleum and gas, 7 (1), 31-41.
  • Fakhru'l-Razi A, Pendashteh A, Abdullah LC, (2009) Review of technologies for oil and gas produced water treatment. J Hazard Mater, 170 (2), 530-551.
  • Hansen BR, Davies SRH, (1994) Review of potential technologies for the removal of dissolved components from produced water. Chem Eng Res Des, 72 (A2), 176-188.
  • Hayes T, Arthur D, (2004) The 11th annual international petroleum environmental conference. Albuquerque. Overview of emerging produced water treatment technologies, 1-36.
  • Joint Editorial Board and Committee Members, (1999) Standard Methods for the Examination of Water and Wastewater, by American Public Health Association, American Water Works Association, Water Environment Federation, 20th edition.
  • Marzena S, Anna (2011), Use of Brassica plants in the phytoremediation and biofumigation processes. International Journal of Molecular Sciences, 12(11), 7760-7771.
  • Reynolds RR, (2003) Produced water and associated issues: A manual for the Independent Operator. Oklahoma Geological Survey Open-file Report. Petroleum Technology Transfer Council South-Midcontinent Region, Vol. 6.
  • United States Department of Energy (2010) Introduction to produced water http://www.netl.doe.gov/ technologies/pwmis/intropw/index.html.

Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field

Year 2017, Volume: 12 Issue: 2, 121 - 124, 30.06.2017

Abstract

This study investigates the physical and
chemical parameters, heavy metals, oil contents and radioactivity of Neem and
Heglig field produced water to find adequate technique to be used for treatment
of pollution measurements that exceed the limits of environmental legislation. For
Heglig produced water all the analysis results were within the acceptable
limits according to Ministry of Energy and Mining except for the oil content,
TDS, NH3 and Fe which exceeded the allowable limits because of the
cumulative effect due to the evaporation. Moreover, conversion of Heglig field
produced water into a source of fresh water is feasible for field scale
application by using bioremediation technique for oil in water treatment. For
Neem field produced water the results of total hardness, alkalinity, pH, TDS,
and E conductivity exceeded the acceptable limits according to Ministry of
Energy and Mining and the elements Pb, Ag and radioactivity exceeded by a large
margin the acceptable limits while the result for oil in water was less than 1ppm,
which is in the acceptable limit. Bioremediation treatment for Neem field
produced water is useless, and the plantation of Phragmites Australis is
suggested to be replaced by phytoremediation plant such as (Brassica juncea
L, Sorghastrum nutans, Helianthus annuus, Gleditsia triacanthos, and Brassica)

for treatment of heavy metals (Pb and Ag) that exceed the acceptable limits.

References

  • Azetsu-Scott K, Yeats P, Wohlgeschaffen G, (2007) Precipitation of heavy metals in produced water: influence on contaminant transport and toxicity. Mar Environ Res, 63(2), 146.
  • Castro T.N, Nunes S.K.S, Barros N, (2013) Treatment of oil field produced water: A cleaner process for producing sodium Carbonate (soda ash) Brazilian Journal of petroleum and gas, 7 (1), 31-41.
  • Fakhru'l-Razi A, Pendashteh A, Abdullah LC, (2009) Review of technologies for oil and gas produced water treatment. J Hazard Mater, 170 (2), 530-551.
  • Hansen BR, Davies SRH, (1994) Review of potential technologies for the removal of dissolved components from produced water. Chem Eng Res Des, 72 (A2), 176-188.
  • Hayes T, Arthur D, (2004) The 11th annual international petroleum environmental conference. Albuquerque. Overview of emerging produced water treatment technologies, 1-36.
  • Joint Editorial Board and Committee Members, (1999) Standard Methods for the Examination of Water and Wastewater, by American Public Health Association, American Water Works Association, Water Environment Federation, 20th edition.
  • Marzena S, Anna (2011), Use of Brassica plants in the phytoremediation and biofumigation processes. International Journal of Molecular Sciences, 12(11), 7760-7771.
  • Reynolds RR, (2003) Produced water and associated issues: A manual for the Independent Operator. Oklahoma Geological Survey Open-file Report. Petroleum Technology Transfer Council South-Midcontinent Region, Vol. 6.
  • United States Department of Energy (2010) Introduction to produced water http://www.netl.doe.gov/ technologies/pwmis/intropw/index.html.
There are 9 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Mohamed Osman Zooalnoon This is me

Adam Musa This is me

Publication Date June 30, 2017
Acceptance Date June 14, 2017
Published in Issue Year 2017 Volume: 12 Issue: 2

Cite

APA Zooalnoon, M. O., & Musa, A. (2017). Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field. Journal of International Environmental Application and Science, 12(2), 121-124.
AMA Zooalnoon MO, Musa A. Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field. J. Int. Environmental Application & Science. June 2017;12(2):121-124.
Chicago Zooalnoon, Mohamed Osman, and Adam Musa. “Oil in Water, Radioactivity, Physical and Chemical Properties Study for Produced Water from Heglig and Neem Oil Field”. Journal of International Environmental Application and Science 12, no. 2 (June 2017): 121-24.
EndNote Zooalnoon MO, Musa A (June 1, 2017) Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field. Journal of International Environmental Application and Science 12 2 121–124.
IEEE M. O. Zooalnoon and A. Musa, “Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field”, J. Int. Environmental Application & Science, vol. 12, no. 2, pp. 121–124, 2017.
ISNAD Zooalnoon, Mohamed Osman - Musa, Adam. “Oil in Water, Radioactivity, Physical and Chemical Properties Study for Produced Water from Heglig and Neem Oil Field”. Journal of International Environmental Application and Science 12/2 (June 2017), 121-124.
JAMA Zooalnoon MO, Musa A. Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field. J. Int. Environmental Application & Science. 2017;12:121–124.
MLA Zooalnoon, Mohamed Osman and Adam Musa. “Oil in Water, Radioactivity, Physical and Chemical Properties Study for Produced Water from Heglig and Neem Oil Field”. Journal of International Environmental Application and Science, vol. 12, no. 2, 2017, pp. 121-4.
Vancouver Zooalnoon MO, Musa A. Oil in Water, Radioactivity, Physical and Chemical properties Study for Produced Water from Heglig and Neem Oil Field. J. Int. Environmental Application & Science. 2017;12(2):121-4.

“Journal of International Environmental Application and Science”