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Name
Authors
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2019/2
Analysis and systematization of risk management processes in design of offshore pipelines
Geosciences

Authors: Vladimir P. BEZKOROVAYNYY the postgraduate course from Gubkin Moscow Institute of petrochemical and gas industry in 1978. He is Doctor of Technical Sciences, Professor of the Department of Computer Aided Design of Oil and Gas Industry Facilities of Gubkin Russian State university of Oil and Gas (National Research University). He is specialist in the field of design automation and project management. He is author of more than 180 scientific publications. E-mail: vpbp@mail.ru
Pavel S. YAKOVENKO graduated from Gubkin Russian State University of Oil and Gas (National Research University) in technological machines and equipment. E-mail: yakovenko_p@hotmail.com

Abstract: The paper considers the approach to risk management in the design of offshore pipelines. The methodology is based on the analysis of hazardous factors of production by HAZOP method. The main characteristics of the analysis and its algorithms are presented. The practical use of these methods in project ma- nagement is explained.

Index UDK: 621.644.07

Keywords: risk management, offshore pipelines, safety integrity level, hazard and operability, project management

Bibliography:
1. GOST R 51901.11-2005. Menedzhment riska. Issledovanie opasnosti i rabotosposobnosti. Prikladnoe rukovodstvo, р. 7-12.
2. PD Tеrminal po priеmu, hranеniyu i rеgazifikacii szhizhеnnogo prirodnogo gaza (SPG) v Kalinigradskoj oblasti.
3. Primenenie metodov analiza opasnostej HAZID i HAZOP pri proektirovanii gazotransport-nogo terminala. M.V. Lisanov, V.V. Simakin, A.I. Makushenko, P.I. Dvornichenko, A.V. Еremeev-Rajhert. Bezopasnost’ truda v promyshlennosti, 2008, no. 8, p. 4-10.
4. Doan Dyk Nya. Otsеnka riskov v proеktah podvodnyh truboprovodov v usloviyah shеl’fa V’еtnama. Diss. na soiskanie uchenoj stepeni kandidata tekhnicheskih nauk, 2015, p. 47-50.

2018/2
Integration solution for information model of offshore oil and gas facilities under construction and assembly
Geosciences

Authors: Vladimir P. BEZKOROVAYNYY the postgraduate course from Gubkin Moscow Institute of petrochemical and gas industry in 1978. He is Doctor of Technical Sciences, Professor of the Department of Computer Aided Design of Oil and Gas Industry Facilities of Gubkin Russian State university of Oil and Gas (National Research University). He is specialist in the field of design automation and project management. He is author of more than 130 scientific publications. E-mail: vpbp@mail.ru
Artyom E. TRUSHCHELYOV graduated from the bachelor’s degree of Gubkin Russian State university of Oil and Gas (National Research University) in 2017 in the direction of technological machines and equipment. Student-Master of Gubkin Russian State university of Oil and Gas (National Research University) (2017–2019). Author of 3 scientific publications.
E-mail: artem.truschelev@mail.com
Natalya A. MAZURENKO graduated from the bachelor’s degree of Gubkin Russian State university of Oil and Gas (National Research University) in 2017 in the direction of technological machines and equipment. Student-Master of Gubkin Russian State university of Oil and Gas (National Research University) (2017–2019). Author of 2 scientific publications. E-mail: mazurenko_natash@mail.com

Abstract: The paper examines the implementation of information modeling and integration systems for project management. Demonstration schemes of integration models for the construction of offshore oil and gas facilities have been developed. In addition to the above, applied problems are considered at this stage and ways of solving them are described in detail. This allows to effectively interact with project participants, track collisions and monitor the progress of work

Index UDK: 622.279.04

Keywords: оffshore oil and gas facilities, integration solution, information modeling, project management, construction and assembly work, material and technical resources

Bibliography:
1. Bezkorovaynyy V.P., Drozdov S.V. Inzhiniring tipovogo yedinogo informatsionnogo pro-stranstva realizatsii neftegazovykh proyektov. [Engineering of a typical united informational space for realization of oil-gas projects]. Avtomatizatsiya, telemekhanizatsiya i svyaz v neftyanoy promyshlen-nosti, 2012, no. 8, p. 15–21.

2018/1
Model of managing project processes for design offshore oil and gas facilitie
Technical sciences

Authors: Vladimir P. BEZKOROVAYNYY the postgraduate course from Gubkin Moscow Institute of petrochemical and gas industry in 1978. He is Doctor of Technical Sciences, Professor of the Department of Computer Aided Design of Oil and Gas Industry Facilities of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the field of design automation and project management. He is author of more than 130 scientific publications. E-mail: vpbp@mail.ru
Vasiliy D. BAYAZITOV graduated from Volgograd State University of Architecture and Construction in 2016 He is 2nd year student of the Master Program of the Department of Computer Aided Design of Oil and Gas Industry Facilities of Gubkin Russian State University of Oil and Gas (National Research University). He specializes in the field of information modeling and projects of offshore oil and gas facilities. He is author of 15 scientific publications. E-mail: vd.bayazitov@gmail.com

Abstract: The paper considers the use of information modeling technology (IM) for project management. Schematic diagrams of the processes for creating the technological scheme of the offshore facilities (OF) and the information model of the structure are constructed. In addition to the above, the applied questions of the construction of the information model of OF are considered. Preliminary project mo-deling allows to manage the project and more accurately assess the material costs of the constructed object. IM allows the customer to monitor the work of contractors with the help of project management and immediate downloading of work volumes

Index UDK: 622.279.04

Keywords: offshore facilities, project management, information modeling, design processes, BIM

Bibliography:
1. Bayazitov V.D. Import substitution for software at exploration of marine oil-gas fi elds [Importozameshcheniye programmnogo obespecheniya pri osvoyenii morskikh neftegazovykh mestorozhdeniy]. In: Proc. of XI International scientifi c congress of SPE Student Division: collected papers. (Tumen Industrial University). Tumen, 2017, p. 9-10.
2. Bayazitov V.D., Bezkorovaynyy V.P. Managing construction of marine oil-gas facilities within united informational space [Upravlenie protsessami proektirovaniya morskikh neftegazovykh sooruzheniy v edinom informatsionnom prostrantsve]. Vesti gazovoy nauki, 2017, no. 4, p. 169-172.
3. Bezkorovaynyy V.P., Drozdov S.V. Engineering of a typical united informational space for realization of oil-gas projects [Inzhiniring tipovogo yedinogo informatsionnogo prostranstva realizatsii neftegazovykh proyektov]. Avtomatizatsiya, telemekhanizatsiya i svyaz v neftyanoy promyshlennosti, 2012, no. 8, p. 15-21.
4. Bezkorovaynyy V.P., Bayazitov V.D. Quality control of the offshore facilities project with technology of information modeling [Upravlenie kachestvom proekta morskikh neftegazovykh sooruzheniy po tekhnologii informatsionnogo modelirovaniya]. Upravlenie kachestvom v neftegazovom komplekse, 2017, no. 3, p. 15-18.

2013/3
Categorizing technical interactions in marine oil and gas facilities projects
Automation, modeling and energy supply in oil and gas sector

Authors: Denis V. KORNEYEV graduated from the Master’s Program of Gubkin Russian State University of Oil and Gas in 2011 majoring in petroleum Engineering. He is postraduate student of the Department of Computer-Aided Design for Oil and Gas Industry of Gubkin Russian State University of Oil and Gas. He is author of 5 scientific publications. E-mail: d.v.korneyev@gmail.com
Vladimir P. BEZKOROVAYNY graduated from Donetsk State University in 1971, specializing in Radiophysics. He is Doctor of Technical Sciences, Full Professor of Gubkin Russian State University of Oil and Gas. He is author of over 110 scientific papers. He specializes in the field of automation and design of gas transmission systems and project management of gas industry. E-mail: vpbp@mail.ru
Alexander P. POZDNYAKOV graduated from Gubkin Russian State University of Oil and Gas, Faculty of Computer Science and Engineering. Major: Applied Mathematics. Ph.D., associate professor. He is author of more than 90 scientific publications. He is Chairman of the Board of Directors of LLC “PRIME GROUP”, Director of Engineering and Technology Center of LLC “PRIME GROUP”. E-mail: trudyrgung@gubkin.ru

Abstract: Possible technical interactions arising in the implementation of projects of offshore oil and gas fields development are considered and identified. These are clustered and organized into an hierarchical structure. The proposed object-oriented model of the interactions and the description of its methodology using UML-notation allow developing custom applications for managing interactions.

Index UDK: 681.5.004.9

Keywords: UML, object-oriented modeling, management of interactions, project management, design MNGS

Bibliography:
1. Drozdov S.V., Bezkorovajnyj V.P. Inzhiniring tipovogo edinogo informacionnogo prostranstva realizacii neftegazovyh proektov. Avtomatizacija, telemehanizacija i svjaz’ v neftjanoj promyshlennosti, 2012, no. 8, p. 15–21.
2.
Korneev D.V., Beleckij E.A., Tuchkov A.A. Proektirovanie morskih neftegazovyh sooruzhenij (MNGS) s ispol’zovaniem sistemy avtomatizirovannogo proektirovanija Smart-Marine Enterprise. SAPR i grafika, 2013, no. 6, p. 45–48.
3.
Critsinelis A. The modern field development approach. Proceeding of OMAE 2001 20th International Conference on Offshore Mechanics and Arctic Engineering, Rio de Janeiro, Brasil, 2001.
4. Gibb A.F.G. The management of construction interfaces: preliminary results from an industry sponsored research project concentrating on high performance classing in the United Kingdom. SCAL Convention, Construction Vision, 2000.
5. Laan J., Widenburg L., Kluenen P. Dynamic interface management in transport infrastructure project. Proceeding of the 2th European System Engineering Conference, Munich, Germany, 2000.
6. Qian Chen. An object model framework for interface management in building information models. Doctor of Philosophy Dissertation in Environment Design and Planning. Virginia Polytechnic Institute and State University. July 2007

2013/2
The structure of information management system for engineering data during the operational phase of oil and gas facilities
Automation, modeling and energy supply in oil and gas sector

Authors: Vladimir P. BEZKOROVAINY graduated from Donetsk State University in 1971, specializing in radiophysics. He is Doctor of Technical Sciences, Professor of Gubkin Russian State University of Oil and Gas. He is author of 110 scientific works, a specialist in the field of automation and design of gas transmission systems, as well as project management of gas industry. E-mail: vpbp@mail.ru
Alexander V. SEMENOV graduated from the Stavropol State University in 2009 with a degree in Applied Mathematics. He is graduate student of the Department of Computer-Aided Design of Facilities of Oil and Gas Industry at Gubkin Russian State University of Oil and Gas. He is Head of the Department of Implementation and Maintenance of CAD at NEOLANT Service. E-mail: fess-st@mail.ru

Abstract: The problem of designing information systems for oil and gas industry facilities is considered. The concept based on the principle of modular and object-oriented approach is proposed. The paper focuses on the architecture and the functional features of the engineering data system. The proposed architecture allows to plan and implement flexible, scalable systems of engineering data management of various types of oil and gas facilities. The use of innovative approaches in the development of information systems for a given subject area can reduce risks and increase technological efficiency and safety of operation.

Index UDK: 681.5.004.9

Keywords: information systems, operations, engineering data management, information systems architecture, an information hub

Bibliography:
1. Drozdov S.V., Bezkorovainy V.P. Engineering of standard unified informational space of oil and gas projects realization. Automation, telemechanization and Communication in oil industry, 2012, no. 8, pp. 15–22.
2.
Semenov A.V. Opyt razrabotki informacionnoj sistemy upravlenija diagnosticheskoj informaciej dlja kompressornyh stancij. Sfera Neftegaz, 2012, no. 4, pp. 144–147.
3.
Tihonovskij V.L., Chujko D.V., Bunto P.A. Tehnologija avtomatizirovannoj identifikacii, ili kak povysit’ jeffektivnost’ jekspluatacii i obsluzhivanija gazoraspredelitel’nyh system. GAZinform, 2010, no. 1, pp. 58–61.

2010/2
Management of system engineering of oil and gas industry facilities
Design, manufacturing and operation of oil and gas sector equipment and facilities

Authors: Vladimir P. BEZKOROVAINY was born in 1946, graduated from the Donetsk State University in 1970. Professor of «Computer Aided Design of Oil and Gas Industry Facilities» department of the Gubkin Russian State University of oil and gas. Author of 120 publications in the field of CAD systems. E-mail: vpbp@mail.ru
Sergey V. DROZDOV was born in 1981, graduated from the Saratov State University in 2003. Post-graduate of «CAD of Oil and Gas Industry Facilities» department of the Gubkin Russian State University of Oil and Gas. Author of 30 publications in the field of project management autoimmunization. E-mail: dsowork@mail.ru

Abstract: Present conditions of large companies functioning require complex engineering approach to increase the efficiency of industrial processes. System engineering as a comprehensive approach offers adequate methods, though today there are no universal ways of applying its main principles for different types of facilities. Approaches to managing system engineering for specific conditions large-scale oil and gas projects are presented

Index UDK: 681.5.004.9

Keywords: system engineering, requirements management, life cycle data management, configuration management, facility structure management, design structure of facility

Bibliography: