Modeling of Completion Installation That Meets Modern Conditions of Work Performance (Russian)

Authors
Oleg Zhuravlev (Wormholes) | Roman Shchelushkin (Wormholes) | Alexey Shadsky (ALSTOM Power Stavan) | Roman Prokopcev (RN-Purneftegaz)
DOI
https://doi.org/10.2118/176556-RU
Document ID
SPE-176556-RU
Publisher
Society of Petroleum Engineers
Source
SPE Russian Petroleum Technology Conference, 26-28 October, Moscow, Russia
Publication Date
2015
Document Type
Conference Paper
Language
Russian
ISBN
978-1-61399-436-8
Copyright
2015. Society of Petroleum Engineers
Disciplines
7.2 Risk Management and Decision-Making, 1.6.1 Drilling Operation Management, 7.2.1 Risk, Uncertainty and Risk Assessment, 2 Well completion, 2.5.4 Multistage Fracturing, 7 Management and Information, 2.2 Completion Installation and Operations, 1.10 Drilling Equipment, 2.2 Completion Installation and Operations, 1.10 Drilling Equipment, 2.5 Hydraulic Fracturing
Keywords
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The pdf file of this paper is in Russian.

An analysis of modern completions processes shows the necessity of a numerical three-dimensional modeling of dynamic processes occurring during the completion installation into the well. An actual task is to develop high-quality software package takes into account all the interests of the customer, such as risk not reaching the target depth, buckling, and adapted for the end user.

This manuscript describes the mathematical model used in specialized software environment for modeling the running of completion, liners, casing, drillstring, multistage fracturing and other downhole equipment. The mathematical apparatus included into the software, describes the following calculations: hook load during running and pulling out, buckling analysis, taking into account stiffness of the liner, the stress distribution in the column, the geometric fitting of the elements of completion, completion running with rotation and with "floating" method.

The presented solution is able to predict potential problems during the completion running into the well and can reduce the risks and optimize the installation process.

The software is also a good tool for peer reviews to optimize the characteristics of pipes, etc. used in the well completion.

File Size  1 MBNumber of Pages   9

Method of Dynamic Analysis for Rod-in-Hole Buckling, Vadim S. Tikhonov, Alexander I. Safronov, Mikhail Ya. Gelfgat. ASME, 2006?., Vol. 3.

Real Time Torque and Drag Analysis during Directional Drilling, Fazaelizadeh, Mohammad. CALGARY: UNIVERSITY OF CALGARY, 2013.

Friction Factor Model and Interpretation of Real Time Data, Frafjord, Christine. Trondheim: Norwegian University of Science and Technology, Department of Petroleum Engineering and Applied Geophysics, 2013.

Development of the universal mathematical apparatus for modeling of dynamics of tubing string, V.S. Tikhonov, A.I. Safronov, H.R. Valiullin, O.S. Bukashkina. SPE 2014.

Well completion design. Bellarby, J. Aberdeen: ELSEVIER.

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Modeling of Completion Installation That Meets Modern Conditions of Work Performance

Zhuravlev, Oleg, Wormholes
Shchelushkin, Roman, Wormholes
Shadsky, Alexey, ALSTOM Power Stavan
Prokopcev, Roman, RN-Purneftegaz
176556-MS SPE Conference Paper - 2015
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0 downloads in the last 30 days
37 downloads since 2007

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