Underwater Technique for Prevention of Oil Pollution
Journal of Water Resources and Ocean Science
Volume 4, Issue 1-1, January 2015, Pages: 1-10
Received: Oct. 21, 2014; Accepted: Oct. 23, 2014; Published: Nov. 3, 2014
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Author
George Nerubenko, NER*MAR Limited, Toronto, Canada – National University of Shipbuilding, Nikolaev, Ukraine
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Abstract
The underwater tools, means, apparatus, vehicles and submarines are considered in the paper. It is stated that the majority of initial sources of petroleum pollution are underwater located. The novel concept of composing the emergency rescue complex is provided. The complex consists of best industrial technical components which could effectively solve the problem of under-water oil spillage caused by damaged oil tankers and offshore platforms.
Keywords
Emergency Rescue Operation, Offshore Oil Platform, Oil Spills, Submarine, Underwater Transportation
To cite this article
George Nerubenko, Underwater Technique for Prevention of Oil Pollution, Journal of Water Resources and Ocean Science. Special Issue:Safe Technology and Pollution Free Environment. Vol. 4, No. 1-1, 2015, pp. 1-10. doi: 10.11648/j.wros.s.2015040101.11
References
[1]
A.F. Gal, K.K. Glukharev, G.P. Nerubenko, D.V. Tsagareli, O.N. Abramov. Method of transporting of petroleum products and a device for its realization. Russian Patent 2037451. Oct 14, 1991
[2]
V.P. Vinogradov, F.G. Davletyarov, K.K. Glukharev, A.V. Kuteynikiv, G.P. Nerubenko, V.V. Chernousov, D.V. Tsagareli. The underwater transportation of petroleum products to far north regions. Moscow, CNIITEN, 1993. 76 p.
[3]
Samuel K. Skinner. William K. Reilly. The EXXON VALDEZ Oil Spill. A Report to the President. May 1989. The National Response Team
[4]
Office of Exxon Valdez Oil Spill (EVOS) Damage Assessment and Restoration. http://alaskafisheries.noaa.gov/oil/
[5]
Thomas Höfer. Tanker Safety and Coastal Environment: Prestige, Erika, and what else? ESPR – Environ Sci & Pollut Res 10 (1) 1 – 5 (2003). Ecomed publishers, D-86899 Landsberg, Germany and Ft. Worth/TX, USA • Tokyo, Japan • Mumbai, India • Seoul, Korea.
[6]
Curry L. Hagerty, Jonathan L. Ramseur. Deepwater Horizon Oil Spill: Selected Issues for Congress. Congressional Research Service. 7-5700. Report R41262. July 30, 2010. 48 p.
[7]
Jonathan L. Ramseur, Curry L. Hagerty. Deepwater Horizon Oil Spill: Recent Activities and Ongoing Developments. Congressional Research Service. 7-5700. Report R42942. May 12, 2014. 16 p.
[8]
Oil Spill Intelligence Report. Southern Cross University, Australia. Aspen Publishers. 2000.
[9]
ITOPF. Oil Tankers Spill Statistics 2013. London, United Kingdom, 2014.
[10]
Cheryl McMahon Anderson, Melinda Mayes, and Robert LaBelle. Update of Occurrence Rates for Offshore Oil Spills. OCS Report BOEM 2012-069 BSEE 2012-069. June 2012, 76 pages.
[11]
Kerr, Richard A. (13 August 2010). A Lot of Oil on the Loose, Not So Much to Be Found. Science 329. (5993): 734–5.Bibcode:2010Sci...329..734K. doi:10.1126/science.329.5993.734. PMID 20705818.
[12]
Dagmar Schmidt Etkin. Analysis of oil spill trends in the United States and worldwide. Proceedings, 2001 International oil spill conference. pp. 1291- 1300.
[13]
Stanislav Patin. Environmental Impact of the Offshore Oil and Gas Industry. Ecomonitor Pub; 1 edition (December 1, 1999), 448 p.
[14]
G.P. Nerubenko. Design of robot’s drives. Textbook. Publisher: Shipbuilding Institute. Nikolaev.1985. 41 p.
[15]
S.S. Pavlov, G.P. Nerubenko, B.N. Toropov. Advanced technology for modern ships. Shipbuilding SUDOSTROENIE. Leningrad.1988. 56 p.
[16]
V.M. Rulevskiy, A.G. Yudintsev. The systems of electrical feeding of modern TV-controlled unmanned underwater apparatus. Proceedings of 5th Conference “Technological Problems of Worldwide Ocean Development” Section 1. Vladivostok, Russia, 2013. pp. 108 – 112.
[17]
TETIS PRO. TV-controlled autonomous unmanned underwater apparatus OBSOR – 600. Catalogue, Moscow. 2014.
[18]
Tadahiro Hyakudome. Design of Autonomous Underwater Vehicle. International Journal of Advanced Robotic Systems, Vol. 8, No. 1 (2011) ISSN 1729-8806, pp 131-139.
[19]
Stokey, R. P. et al. (2005). “Development of the REMUS 600 autonomous underwater vehicle,” OCEANS 2005. Proc. of MTS/IEEE, Vol.2 pp. 1301- 1304.
[20]
Rules for Classification and Construction. I Ship Technology. 5 Underwater Technology. Germanischer Lloyd Aktiengesellschaft.. Hamburg 1 November 2009.
[21]
Robert D. Goldbach. Apparatus and method for accommodating leaked oil within a double-hulled tanker after suffering grounding damage. US Patent 5520131. 1996
[22]
Michael B. Geiger. Underwater self-propelled surface adhering robotically operated vehicle. US Patent 5947051, 1999.
[23]
Richard Lawrence Ken Woodland. Autonomous marine vehicle. US Patent 6269763, 2001
[24]
Jae-Hee Kim et al. Laser-guided underwater wall climbing robot for reactor pressure vessel inspection. US Patent 5809099. 1998.
[25]
L.A. Naumov, I.N. Borovik, A.I. Borovik. An autonomous unmanned underwater apparatus MMT-2012. Proceedings of 5th Conference “Technological Problems of Worldwide Ocean Development” Section 1. Vladivostok Russia, 2013. pp. 46-48.
[26]
Marine Robot Autonomy. Editor- Mae L. Seto. Department of Mechanical Engineering, Dalhousie University, Halifax. Springer New York 2013. 373 p.
[27]
B.B. Klyachkin. Floating underwater vessel for collecting and storage of petroleum and petroleum products. Russian Patent. №:2021959. 1994.
[28]
Eugene R. Barnett, Deep sea oil salvage means. US Patent 4,531,860. 1985
[29]
Khaled R. Asfar et al. Unmanned autonomous submarine. US Patent 7290496. 2007.
[30]
V.B. Shepelenko. Freighter submarine. Russian Patent RU 2488516. 2013
[31]
Canadian Association of Petroleum Producers. Spill prevention and response in Atlantic Canada. Brochure. 2006-0012, 2006. 4 pages.
[32]
Atlantic Canada Offshore Petroleum Industry Escape, Evacuation and Rescue. Guide. Canadian Association of Petroleum Producers (CAPP). June 2010. 2010-0017. 34 pages.
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