ULTRAVIOLET TREATMENT: A NEW POTENTIAL TECHNOLOGY TO MITIGATE MICROBIOLOGICALLY INFLUENCED CORROSION

Authors

  • Akrima Abu Bakar Reliability Engineering and Safety Assessment Research Group (RESA), Faculty of Civil Engineering, Universiti Teknologi Malaysia, 81310 Johor Bahru, Johor, Malaysia.
  • Nordin Yahaya Reliability Engineering and Safety Assessment Research Group (RESA), Faculty of Civil Engineering, Universiti Teknologi Malaysia, 81310 Johor Bahru, Johor, Malaysia.
  • N.M. Noor N.M. Noor Reliability Engineering and Safety Assessment Research Group (RESA), Faculty of Civil Engineering, Universiti Teknologi Malaysia, 81310 Johor Bahru, Johor, Malaysia.

DOI:

https://doi.org/10.11113/mjce.v26.15880

Keywords:

Keywords

Abstract

Abstract

References

Chintan M. J, An H., Tingyue G., Srdjan N. (2005), Biochemical Engineering Approaches To Mic, NACE International Conference & Expo, Paper No. 05500.

Hussain H.A., Charles W., John R.S, Brajendra M., David L.O. (2011), Identification of Microorganisms And Their Effects On Corrosion of Carbon Steels Pipelines, NACE International Conference & Expo, Paper No. 11231.

ISO 8044 Corrosion of Metals and Alloys – Basic Principles and Definitions.

Jack T. R, Van Boven G., Wilmott M., Worthingham R.. Materials Performance 35, 3, 1996, p.39.

Javaherdashti, R., (2008), Microbiologically influenced corrosion an engineering insight,Verlag London: Springer.

Mudryk Z.J, Podgorska B., Ameryk A. and Bolalek J. (2000).The occurrence and activity of sulphate reducing bacteria in the bottom sediment of the gulf of Gdansk.Oceanologia, 42 (1), 105-117

Maxwell J. (2005), Controlling Corrosive Biofilm by the Application of Biocides, SPE International Symposium On Oilfield Corrosion, Aberdeen, UK. DOI : 10.2118/93172-MS

Norhazilan M.N., Yahaya N., Ozman N.A.N, ‘Deterministic Prediction of Corroding Pipeline Remaining Strength in Marine Environment using DNV RP –F101 (Part A)’ Journal of

Sustainability Science & Management, Vol. 6 (1) 2011. pp. 69-78

NACE International Basic Corrosion Course Handbook (Houston, TX: NACE, 2000)

Sonoglu F.,Jevaherdasti R., Aksoz N. (1997), Corrosion of a Drilling Pipe Steel in an Environment Containing Suphate-Reducing Bacteria, Jurnal Elsevier Science, P11: S0308-0161(97)00022-7

Yahaya N., Norhazilan M.N., Othman S.R., Sing L.K., Din M.M. ‘New Technique in SoilCorrosion Study of Underground Pipeline’, Journal of Applied Sciences, Vol. 11, No. 9 (2011), pp. 1510-1518

Wang J., Yang F., Yuan X., Liu B., Wu H., Sui X. (2005) ,Successfully Sterilizing the Sulfate Bacteria with Ultraviolet Radiation in Produced-Water Treatment in Daqing Oilfield,

SPE International Asia Pasific Oil-Gas Conference and Exhibition, Jakarta, Indonesia, Paper No. SPE93148.

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Published

2018-07-02

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Articles

How to Cite

ULTRAVIOLET TREATMENT: A NEW POTENTIAL TECHNOLOGY TO MITIGATE MICROBIOLOGICALLY INFLUENCED CORROSION. (2018). Malaysian Journal of Civil Engineering, 26(1). https://doi.org/10.11113/mjce.v26.15880