Abstract
To meet the growing energy demand worldwide, oil and gas exploration and production activities have increased rapidly both in onshore and offshore areas. The produced oil from the ocean bed is transported onshore either by ship or pipeline. This has increased the risk of oil spill in the coastal area. In order to prepare an emergency preparedness plan and to assess the magnitude of risk involved in transporting and offloading oil, oil spill simulation studies play an important role. This paper describes a simulation of oil spill in coastal bay of Arabian Gulf where new developments are taking place using MIKE 21 model. The developments include a diesel based thermal power plant near Sir Baniyas Island, which is an ecological fragile area. Based on the project activity, two probable scenarios, one for diesel leak (250 m3/h) for 1 h and the other for instantaneous spill (500 m3) are considered. The MIKE 21 model was calibrated for hydrodynamics using measured field data followed by diesel-spill simulation to track its movement in the Arabian Gulf. The results for both leak and instantaneous spill indicate that spilled diesel will not move towards the Sir Banyas Island and more than 45% of the diesel will be evaporated within 48 h of oil spill. Based on the results, a clean up and contingency plan is proposed to mitigate the adverse impacts arising due to diesel spill in the study area.
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References
American Petroleum Institute (API) (2001). Effect of Oil and chemically dispersed oil in the environment (Publication No. 4693).
Baker, J.M., Guzman, L.M., Bartlett, P.D., Little, D.I., & Wilson, C.N. (1993). Long-term fate and effects of untreated thick oil deposits on salt marshes. Proceedings: International oil spill conference. Washington, 395–399.
Burk, C. J. (1977). A four-year analysis of vegetation following an oil spill in a freshwater marsh. Journal of Applied Ecology, 14, 515–522.
Etkin, D.S. & Welch, J. (1997). Oil spill intelligence report on international oil spill database: Trends in oil spill volumes and frequency. Proceedings: International Oil Spill Conference. Fort Lauderdale, 949–952.
Hampson, G. R., & Moul, E. T. (1978). No. 2 fuel oil spill in Bourne, Massachusetts: Immediate assessment of the effects of marine invertebrates and a 3 year study of growth and recovery of a salt marsh. Journal of the Fisheries Research Board of Canada, 35, 731–744.
Kolluru, V. S., Spaulding, M. L., & Anderson, E. L. (1994). A three dimensional oil dispersion model using a particle based approach. In Proceeding of 17th Artic and Marine Oil Spill Program Technical Seminar. Ottawa, Canada, 867–894.
Mackay, D., Paterson, S., & Trudel, K. (1980). A mathematical model of oil spill behavior. Environmental protection services. Canada: Fisheries and Environment.
Nikolaos, P., & Psaraftis, H. N. (2004). Spill accident modeling: A critical survey of the event-decision network in the context of IMO’s formal safety assessment. Journal of Hazardous Materials, 107, 59–66.
Papadimitrakis, J. M., Psaltaki, M., Christolis, M., & Markatos, N. C. (2006). Simulating the fate of an oil spill near coastal zones: The case of a spill (from a power plant) at the Greek Island of Lesvos. Environmental Modelling & Software, 21, 170–177.
Reed, M., Daling, P., Lewis, A., Ditlevsen, M. K., Brors, B., Clark, J., & Aurand, D. (2004). Modelling of dispersant application to oil spills in shallow coastal waters. Environmental Modelling & Software, 19, 681–690.
Stolzenbach, K. D., Madsen, O. S., Adams, E. E., Pollack, A. M., & Cooper, C. K. (1977). A review and evaluation of basic techniques for predicting the behavior of surface oil slicks. Dept. of Civil Engineering. Cambridge, MA: MIT Sea Grant Program, MIT.
The International Tanker Owners Pollution Federation Limited (ITOPF) (2007). Technical Information Paper Fate of Marine oil spills from www.itopf.com.
Tkalicj, P., Huda, M. K., & Gin, K. Y. H. (2003). A multiphase oil spill model. Journal of Hydraulic Research, 41(2), 115–125.
Vethamony, P., Sudheesh, K., Babu, M. T., Jayakumar, S., Manimurali, R., Saran, A. K., et al. (2007). Trajectory of an oil spill off Goa, eastern Arabian Sea: Field observations and Simulations. Environmental Pollution, 148, 438–444.
Yang, L., Lai, C. T., & Shieh, W. K. (2000). Biodegradation of dispersed diesel fuel under high salinity conditions. Water Research, 34(13), 3303–3314.
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Verma, P., Wate, S.R. & Devotta, S. Simulation of impact of oil spill in the ocean – a case study of Arabian Gulf. Environ Monit Assess 146, 191–201 (2008). https://doi.org/10.1007/s10661-007-0071-y
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DOI: https://doi.org/10.1007/s10661-007-0071-y