English

Vol. 9 6, 2019 p 608-625

Pages

Article name, authors, abstract and keyword

608-625

Quality management methodology for complex engineering systems in major oil and oil product pipelines

Oleg V. Aralov a

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

DOI: 10.28999/2541-9595-2019-9-6-608-625

Abstract: The article addresses the basic provisions of the reliability theory used for minimization of failure risks in oil and oil product pipeline systems. The problem of reliability is formulated as the absence of a complete mathematical apparatus ensuring interconnection between managerial, engineering and research activities during equipment maintenance and assessment of compliance with customer requirements. It has been found that this problem can be most fully considered through the example of fixed assets and managerial procedures of Transneft PJSC. In order to solve this problem, the author has developed a mathematical apparatus including three procedures and seven problems and resulting in the ability to predict equipment condition both at its manufacturing and stable operation stages (the depreciation stage has not been considered). Interconnection between the mathematical apparatus and managerial engineering activities in the corporate compliance assessment system of Transneft PJSC can be ensured by the proposed combined algorithm of using statistical information to establish operating procedures and scopes of maintenance, inspection and testing of equipment items. In general, the mathematical apparatus and its application algorithm developed by the author represent a consistent methodology for quality management of complex engineering systems at all lifecycle stages.

Keywords: equipment reliability, product testing, lifecycle management, complex engineering systems, mathematical forecasting, pipeline transportation.

For citation:
Aralov O. V. Quality management methodology for complex engineering systems in major oil and oil product pipelines. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktovScience & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(6):608625.

References:
[1] Kokushin N. N. Installation and repair of pulp-and-paper equipment. oscow: Ekologia Publ.; 1991. 207 p. (In Russ.)
[2] Makhutov N. A. Deformation criteria of destruction and structural analysis of structure components. Moscow: Mashinostroenie Publ.; 1981. 272 p. (In Russ.)
[3] Aralov O. V., Buyanov I. V., Mastobayev B. N., Bereshansky N. V., Byulinkin D. V. The main statements of optimization methodology of life-cycle parameters of technical equipment. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktovScience & Technologies: Oil and Oil Products Pipeline Transportation. 2016(6):2329. (In Russ.)
[4] Lisin Y. V., Fridlyand Y. M., Aralov O. V. Improving reliability of main oil pipeline equipment. Standards and Quality. 2015(8):3640. (In Russ.)
[5] Lisin Y. V., Aralov O. V. The failures equipment prediction method by the example of the Transneft PJSC conformity assessment system // Neftyanoe khozyaystvo = Oil Industry.2017(10):106109. (In Russ.)
[6] Aralov O. V. Quality management methodology for equipment in main oil and oil product pipelines [dissertation]. [Ufa]: Ufa State Petroleum Technological University; 2017. 479 p. (In Russ.)
[7] Aralov O. V., Bakhtizin R. N., Lisin Y. V., Mastobaev B. N. Methodological basis for product quality management using a compliance assessment mechanism in main pipeline systems. St. Petersburg: Nedra Publ.; 2017. 288 p. (In Russ.)