English

Vol. 7 5, 2017 p 56-67

Pages

Article name, authors, abstract and keyword

56-67

Methods of early detection and monitoring of oil and oil products spills on water bodies and evaluation of their efficiency

Svetlana G. Radionova a, Sergey A. Polovkov b, Alexander E. Gonchar b, Vladislav N. Slepnev b

a Pipeline Transport Institute, LLC (Transneft R&D, LLC), 47a, Sevastopolskiy prospect, Moscow, 117186, Russian Federation

https://doi.org/10.28999/2541-9595-2017-7-5-56-67

Abstract: Results of evaluation of methods of early detection and monitoring of oil and oil products spills on water surface and their instrument implementations are given in this article. Purpose of research is evaluation of efficiency of specified methods and devices, possibility of their use in OOP transport and handling facilities. The article reviews main physical and chemical processes occurring when oil gets into water; represents results of analysis of literature on this theme. Comparative analysis and efficiency evaluation are performed on the basis of comparison criteria developed during research and field testing of early detection and monitoring instruments. Research was performed in open water in the water area of Ajax bay of Peter the Great Gulf using oil product simulator. Based on research results, conclusions are made on possibility and practicability of use of instruments and methods of early detection and monitoring of OOP spills at the pipeline transport and handling facilities, and on prospects of scientific and engineering development in the area of monitoring and early detection of oil and oil product spill.

Keywords: laser, lidar, monitoring, detection, underwater crossings of main oil and oil product pipelines, radiolocation, radiometry, oil and oil products spill, fluorescence.

Reference for citing:
Radionova S. G., Polovkov S. ., Gonchar . E., Slepnev V. N. Methods of early detection and monitoring of oil and oil products spills on water bodies and evaluation of their efficiency. Naukatekhnol. truboprov. transp. neftiinefteprod. = Science & Technologies: Oil and Oil Products Pipeline Transportation. 2017;7(5):5667.

References:
[1] Avandeeva O. P. Methodical aspects of water quality monitoring for areas of increased environmental risk of oil generated contaminations (with example of Cheboksary reservoir) [dissertation of Cand. Sci. (Geo.)]. Moscow( M); 2015. 149 p. (In Russ.)
[2] Baussant T., Bamber S. NDP State of the art study Deep water remote sensing and monitoring. Report IRIS. Stavanger, 2013;103.
[3] Oil Spill Detection and Mapping in Low Visibility and Ice: Surface Remote Sensing. Final Report 5.1. Report from Joint Industry Programme to define the state-of-the-art for surface remote sensing technologies to monitor oil under varying conditions of ice and visibility [Electronic source] URL: http://www.arcticresponsetechnology.org/wp-content/uploads/2013/10/Report%205.1%20-%20SURFACE%20REMOTE% 20SENSING.pdf (last accessed on17.08.2015).
[4] IMC scientific equipment, analytical equipment and instruments [Electronic source] URL: http://imc-systems.ru (last accessed on 17.08.2015).
[5] Monitoring Solutions: Data Buoys and Vertical Profilers [Electronic source]. URL: http://www.flydogmarine.com (last accessed on 17.08.2015).
[6] Chelsea Technologies Group (CTG) Sensor Technology [Electronic source]. URL: http://www.chelsea.co.uk (last accessed on 18.08.2015).
[7] SubCtech Subsea technology for the Marine Enviromental [Electronic source]. URL: http://subctech.eu (last accessed on 18.08.2015).
[8] Kongsberg Maritime Home [Electronic source]. URL: http://www.km.kongsberg.com (last accessed on 19.08.2015)
[9] Teledyne Marine: Marine Technology Products and Solutions [Electronic source]. URL: http://www.teledynemarine.com (last accessed on 05.06.2017).
[10] Unisense: Home [Electronic source]. URL: http://www.unisense.com (last accessed on 20.08.2015).
[11] Granat Group of Companies: production, sales, instrument and analytical equipment service [Electronic source]. URL: http://granate.ru (last accessed on 21.08.2015). (In Russ.)
[12] Analytical and laboratory equipment Lumex [Electronic source].URL: http://www.lumex.ru (last accessed on 21.08.2015). (In Russ.)
[13] NPP Polet [Electronic source]. URL: http://www.npp-polyot.ru(last accessed on 05.06.2017). (In Russ.)
[14] Thermal infrared footage [Electronic source]. URL: www.teploscan.ru. (last accessed on 07.09.2015). (In Russ.)
[15] Laser Diagnostic Instruments Oil Spill Sensors, Oil Leak Detectors [Electronic source]. URL: http://www.ldi.ee (last accessed on 10.09.2015).
[16] Oil contamination and organic films. Ecology and nature [Electronic source]. URL: http://www.prinas.org/article/4784 (last accessed on 17.08.2015).
[17] Fate of marine oil spills. Technical information paper #2. Canterbury (UK): ITOPF; 2011. p. 5.
[18] Alkhimenko A. I. Emergency oil spills in sea and struggle against them. Saint Petersburg: -Press; 2004. 113 p. (In Russ.)
[19] Radionova S. G., Polovkov S. ., Slepnev V. N. Evaluating possible use of state-of-art methods of early detection and monitoring of emergency oil and oil product spills at water bodies. Oil Industry. 2017(6):124128. (In Russ.)
[20] Egorova N. ., Malyshkin D. . On retrofitting of boom design. Naukatekhnol. truboprov. transp. neftiinefteprod. = Science & Technologies: Oil and Oil Products Pipeline Transportation. 2014;(2):8291. (In Russ.)
[21] Melkozerov V. ., Vasilyev S. I., Velp . Y. Technology of localization and collection of emergency oil product spills in water areas and shore areas using sorbents. Systems. Methods. Technologies. 2011;(1):122132. (In Russ.)
[22] Samoylenko S. A., Fokin . F., Gubkina L. N. Use of mathematical simulation for planning elimination of oil (oil product) spill on underwater crossings of main oil pipelines (oil product pipelines).Naukatekhnol. truboprov. transp. neftiinefteprod. = Science & Technologies: Oil and Oil Products Pipeline Transportation. 2016(7):97105. (In Russ.)
[23] Banko V. V., Kliauta I. I. Identifying liquid type when flooding instrument wells on linear pipeline section. Naukatekhnol. truboprov. transp. neftiinefteprod. = Science & Technologies: Oil and Oil Products Pipeline Transportation. 2017;7(2):8793. (In Russ.)