INFORMATION CHANGE THE WORLD

International Journal of Information Technology and Computer Science(IJITCS)

ISSN: 2074-9007 (Print), ISSN: 2074-9015 (Online)

Published By: MECS Press

IJITCS Vol.10, No.11, Nov. 2018

Analysis and New Approaches to the Solution of Problems of Operation of Oil and Gas Complex as Cyber-Physical System

Full Text (PDF, 647KB), PP.67-76


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Author(s)

Tahmasib Kh. Fataliyev, Shakir A. Mehdiyev

Index Terms

Oil and gas complex;Internet of Things;Industry 4.0;cyber-physical systems;maintenance

Abstract

The application of modern information technologies in the oil and gas sector is constantly developing, which facilitates the acceleration of exploration and detection of oil, the increase in oil production and reduction in risks relates to health, human safety, and the environment. The Internet of things in the oil and gas sector, like in all sectors of industry, has great prospects from an economic point of view. The article is devoted to the study of the current state and avenues of solving key problems of effective and reliable functioning of the oil and gas industry as a cyber-physical system using the Internet of things in the Azerbaijani oil company SOCAR. The main technological processes and existing opportunities for the application of information technologies in the oil and gas complex are analyzed. New approaches are proposed to solve the problems in the oil and gas complex as cyber-physical system based on the smart sensors, the Internet of things, wireless networks and cloud technologies. The implementation of the proposed model is aimed at increasing the effectiveness, resource storage, exploration reliability and durability of the oil and gas complex.

Cite This Paper

Tahmasib Kh. Fataliyev, Shakir A. Mehdiyev, "Analysis and New Approaches to the Solution of Problems of Operation of Oil and Gas Complex as Cyber-Physical System", International Journal of Information Technology and Computer Science(IJITCS), Vol.10, No.11, pp.67-76, 2018. DOI: 10.5815/ijitcs.2018.11.07

Reference

[1]M. Brettel, N. Friederichsen, M. Keller, and M. Rosenberg, “How Virtualization, Decentralization and Network Building Change the Manufacturing Landscape: An Industry 4.0 Perspective”, International Journal of Information and Communication Engineering, Vol. 8, No. 1, pp. 37-44, 2014.

[2]A. Gilchrist, “Industry 4.0. The Industrial Internet of Things”, Apress, p. 250, 2016.

[3]S. Pfeiffer, “The vision of “Industrie 4.0” in the making - a case of future told, tamed, and traded”, NanoEthics, Vol. 11, No. 1, pp. 107-121, 2017.

[4]H. Kagermann et al. “Recommendations for implementing the strategic initiative INDUSTRIE 4.0: Securing the future of German manufacturing industry”; Final report of the Industrie 4.0 Working Group, p. 79, 2013. https://www.din.de/blob/76902/e8cac883f42bf28536e7e8165993f1fd/recommendations-for-implementing-industry-4-0-data.pdf

[5]L. Wang, G. Wang ,"Big Data in Cyber-Physical Systems, Digital Manufacturing and Industry 4.0", International Journal of Engineering and Manufacturing (IJEM), Vol.6, No.4, pp.1-8, 2016. DOI: 10.5815/ijem.2016.04.01

[6]I. Dumitrache, I.S. Sacala, M.A. Moisescu, S.I. Caramina, “A conceptual framework for modeling and design of Cyber-Physical Systems”, Studies in Informatics and Control, Vol. 26, No. 3, pp. 325-334, 2017.

[7]J Zhao, F Wen, Y Xue, X Li, Z Dong, Cyber physical power systems: Architecture, implementation techniques and challenges, Automation of Electric Power Systems, vol.34, Issue 16, pp. 1-7, 2010.

[8]W. Aldred et al, “Drilling Automation”, Oilfield Review, Vol. 24, No. 2, pp. 18-27, 2012.

[9]“Sensors and Switches in Oil Rig Applications”, https://sensing.honeywell.com/honeywell-sensors-switches-oil-rig-application-note-000756-4-en.pdf

[10]M. Karami, “Review of Corrosion Role in Gas Pipeline and Some Methods for Preventing It”, J-l of Pressure Vessel Technology, Vol. 134, pp. 1-5, October 2012.

[11]C. Gómez, D.R. Green, “Small unmanned airborne systems to support oil and gas pipeline monitoring and mapping”, Arab J-l Geosci, Vol. 10, No. 9, pp. 202-219, 2017.

[12]J. Davies, “Ultrasonic Sensor Technology and its Application in the Oil & Gas Sector”, 2015, https://www.sensorsmag.com/components/ultrasonic-sensor-technology-and-its-application-oil-gas-sector

[13]A. Muszynska, “Vibrational Diagnostics of Rotating Machinery Malfunctions”, International Journal of Rotating Machinery, Vol. 1, No. 3-4, pp. 237-266, 1995.

[14]A. Khadersab, S. Shivakumar, “Vibration Analysis Techniques for Rotating Machinery and its effect on Bearing Faults”, Procedia Manufacturing, Vol. 20, pp. 247-252, 2018.

[15]I. Abu-Mahfouz, “Drilling wear detection and classification using vibration signals and artificial neural network”, International Journal of Machine Tools & Manufacture, Vol. 43, pp. 707–720, 2003.

[16]“Oil and Gas Industry – Safety Monitoring. Flame, Toxic/LEL Gas, Ultrasonic, and Particle Detection,” http://www.emerson.com/documents/automation/application-note-oil-gas-industry-safety-monitoring-en-72588.pdf

[17]“Oil and gas H2S meters”, https://sensorcon-sensing-products-by-molex.myshopify.com/pages/oilgas

[18]P. Duddu, “The world’s worst offshore oil rig disasters”, https://www.offshore-technology.com/features/feature-the-worlds-deadliest-offshore-oil-rig-disasters-4149812/

[19]“Major Offshore. Accidents of the 20th & 21st Century,” https://www.arnolditkin.com/oil-rig-explosions/major-oil-rig-disasters/

[20]S. Natarajana, R. Srinivasana, “Multi-model based process condition monitoring of offshore oil and gas production process”, Journal Chemical engineering research and design, Vol. 88, pp. 572-591, 2010.

[21]“BS 8210: 2012 Guide to facilities maintenance management”, http://www.safety-managementuk.com/wp-content/uploads/2018/04/BS-8210-2012-3.pdf

[22]“DIN 31051 Fundamentals of maintenance”, https://standards.globalspec.com/std/1539923/din-31051

[23]Sh. Mostafa, et al, “Lean thinking for a maintenance process”, Production and Manufacturing Research, Vol. 3, No. 1, pp. 236-272, 2015. 

[24]S. Telford, M.I. Mazhar, and I. Howard, “Condition Based Maintenance (CBM) in the Oil and Gas Industry: An Overview of Methods and Techniques”, International Conference on Industrial Engineering and Operations Management, Malaysia, pp. 1152-1159, 2011.

[25]S. Selcuk, “Predictive maintenance, its implementation and latest trends”, Journal of Engineering Manufacture, Vol. 231, Issue 9, pp. 1670-1679, 2016.

[26]G. Niu, M. Pecht, “A framework for cost-effective and accurate maintenance combining CBM RCM and data fusion”, 8th International Conference on Reliability, Maintainability and Safety, ICRMS 2009, pp. 605-611, 2009.

[27]A. Reidt, S. Schuhbäck, and H. Krcmar, “Comprehensive View on Architectural Requirements for Maintenance Information Systems”, 13th International Conference on Evaluation of Novel Approaches to Software Engineering, pp. 249-257, 2018.

[28]“Reliability centered maintenance. Guide for facilities and collateral equipment”, NASA, p. 348, 2000.

[29]R. de Queiroz Souza, A.J. Alvares, “FMEA and FTA Analysis for Application of the Reliability Centered Maintenance Methodology: Case Study on Hydraulic Turbines”, ABCM Symposium Series in Mechatronics, Vol. 3, pp.803-812, 2008.

[30]W.Z. Khan et al, “A reliable Internet of Things based architecture for oil and gas industry”, Advanced Communication Technology (ICACT), 19th International Conference on. IEEE, pp. 705-710, 2017.

[31]M. reza Akhondi, A. Talevski, S. Carlsen, and S. Petersen, “Applications of wireless sensor networks in the oil, gas and resources industries”, 24th IEEE International Conference Advanced Information Networking and Applications (AINA), pp.941-948, 2010.

[32]B. E. McAdams, “Wireless Sensor Networks–Applications in Oil and Gas”, 05/2016. http://www.remotemagazine.com/main/articles/wireless-sensor-networks-applications-in-oil-gas/

[33]S. Martinotti, J. Nolten, and J.A. Steinsbo, “Digitizing oil and gas production”, 08/2014, https://www.mckinsey.com/industries/oil-and-gas/our-insights/digitizing-oil-and-gas-production

[34]“Internet of Things”, http://literature.cdn.keysight.com/litweb/pdf/5992-1217EN.pdf

[35]R. Alguliyev, Y. Imamverdiyev, L. Sukhostat, “Cyber-physical systems and their security issues”, Computers in Industry, Vol. 100, pp .212-223, 2018.

[36]E.A. Lee, “Cyber physical systems: Design challenges”, 11th IEEE international symposium on object oriented real-time distributed computing (ISORC), pp. 363-369, 2008.

[37]L. Probst et al, “Service Innovation for Smart Industry”, EU, Luxembourg, 12 p., 2015.

[38]R. Mohsin, et al, “A critical analysis of research potential, challenges, and future directives in industrial wireless sensor networks”, IEEE Communications surveys and tutorials, vol.20, issue 1, pp. 39-95, 2018.

[39]R. Alguliyev, T. Fataliyev, Sh. Mehdiyev, “Some issues of application of internet of things in the oil and gas complex”, the 6th International Conference on Control and Optimization with Industrial Applications, July 11-13, pp. 46-48, 2018.

[40]M. Chiang, T. Zhang, “Fog and IoT: An overview of research opportunities”, IEEE Internet of Things Journal, Vol. 3, No..6,  pp. 854-864, 2016.

[41]R. G. Alakbarov, O.R. Alakbarov, “Effective use Method of Cloudlet Resources by Mobile Users”, International Journal of Computer Network and Information Security(IJCNIS), Vol.10, No.2, pp.46-52, 2018.

[42]R. Jamal, “Sensors need to evolve to make Industry 4.0 workable”, http://www.controlengeurope.com/article/87387/Sensors-need-to-evolve-to-make-Industry-4-0-workable.aspx

[43]S.J. Oks, A. Fritzsche, and K.M. Möslein, “An Application Map for Industrial Cyber-Physical Systems”, Industrial Internet of Things. Cyber manufacturing Systems, Springer Series in Wireless Technology, pp. 21-46, 2017.

[44]J. Wilson, “Sensor Technology Handbook”, Elsevier, Oxford, p.703, 2005.

[45]R. Bogue, “Sensors for condition monitoring: a review of technologies and applications,” Sensor Review, Vol. 33, Issue 4, pp. 295-299, 2013.

[46]“Sensors for condition monitoring”, 2016/04/12, http://www.ni.com/white-paper/52461/en/

[47]L.K. Cheng, R.A. Nieuwland, P.M. Toet, and K. Agovic, “Fiber Bragg grating sensors”, Symposium IEEE Photonics Benelux Chapter, pp. 149-152, 2010.

[48]A. Schütze, N. Helwig, and T. Schneider, “Sensors 4.0 – smart sensors and measurement technology enable Industry 4.0”, Journal of Sensors and Sensors Systems, No. 7, pp. 359-371, 2018.

[49]G. Lebsack, “Sensors Drive IoT Intelligent Systems”, 2018/01/04, https://semiengineering.com/sensors-drive-iot-intelligent-systems/

[50]“11 Internet of Things (IoT) Protocols You Need to Know About”, https://www.rs-online.com/designspark/eleven-internet-of-things-iot-protocols-you-need-to-know-about

[51]T. Sobral, “Wireless Sensor Network for Oil and Gas Industry”, www.siliconreef.com.br.

[52]E. Jantunen, et al. “Remote maintenance support with the aid of cyber-physical systems and cloud technology”, Journal of Systems and Control Engineering, Vol.232 Issue 6, pp.784-794, 2018.