Home/ Majors directory/Oil and Gas Engineering and Technology/Diagnostics of Oil and Gas Structures
Diagnostics of Oil and Gas Structures
Major: Oil and Gas Engineering and Technology
Code of subject: 6.185.01.E.081
Credits: 5.00
Department: Department of Oil and Gas Engineering and Welding
Lecturer: Biloborodchenko V.I.
Semester: 5 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes:
1. To have theoretical knowledge and applied skills in the field of diagnostics of oil and gas complex equipment.
2. Have knowledge of methods and tools for monitoring the condition of oil and gas facilities.
3. Be able to evaluate the results of diagnostics and make decisions about the working condition of the equipment and forecasting the residual resource.
RN 1. Knowledge and understanding
subject area and understanding of the profession (ZK8);
PH2. The ability to conduct
research on the relevant
levels, have research
skills found in
ability to form new ones
products in the chosen industry,
choose appropriate directions and
appropriate methods for them
implementation, taking into account
available resources (ZK7);
PH3. The ability to acquire and
constantly supplement the basic ones
knowledge of fundamentals
sciences to the required extent
for the development of modern
general professional and
professionally oriented
discipline (FC3);
PH4. Ability to apply
professionally profiled knowledge and practical skills for solving typical problems of the specialty (FC8);
RN 5. Ability to implement
scientific research,
evaluate received
results, check their adequacy, perform
mathematical modeling
processes, means, systems
welding and
machine-building
production from
using modern
experimental
scientific technologies
research, create
theoretical models for
product quality research,
technological processes,
means, systems
machine-building industries,
use methods
analysis, synthesis and optimization
technological training
machine-building
production, carry out
algorithmic and software
provision (FC9);
PH6. Ability to apply
modern methods and tools
definition of operational
characteristics and
residual resource
structures, equipment,
choose methods and means
measure, take
participation in the organization
diagnostics of processes and
structures, equipment,
management tools and systems
machine-building and
welding production
(FC 10).
PH7. The ability to develop
to organize and
take measures
product quality control,
develop measures with
ensuring reliability
products and elements
production, plan
measures from permanent
improvement of product quality
enterprises in the industry
welding and related
processes (FCS 1.2);
PH8. Ability to perform
residual resource assessment and forecasting
reliability of welded structures based on the results of non-destructive testing (FCS 1.4.);
PH9. Evaluation method
potential dangers which
accompanied by technological ones
manufacturing processes,
assembly, products,
operation of technological
equipment and equipment in
structural subdivisions
machine-building
enterprises or organizations;
principles of reasonableness
selection and application
hazard prevention measures
and providing professional
and civil security (ZH3).
PH10. Regularities
wear and tear and destruction
details; basics
mathematical modeling
failure processes of parts and
cars; features
modern technological
methods of promotion
durability and
ensuring reliability
products (ZH7)
PH11. Ability to communicate
including oral and written
communication in Ukrainian and
in foreign languages
(in English) when business
communication and teaching in
professional publications
direction (COM 1).
PH12. Ability to adapt
to new situations and
take appropriate
decision; realize
the need for training
throughout life with
with the aim of deepening the acquired
and acquisition of new professional knowledge (AiV 1).
PH13. Ability
be responsible for
work performed,
take on your own
solution, achieve
the set goal with
compliance with the requirements
professional ethics (AiV 2).
PH14. Ability
demonstrate understanding of basic environmental principles, occupational health and safety and their application (AiV 3).
Required prior and related subjects: Project management in production
Quality control of oil and gas equipment
Oil and gas equipment
Summary of the subject: 1. Technical diagnostics. The genesis of the discipline.
2. General provisions of the theory and constituent elements of the technical
diagnostics; Types and methods of testing technical systems.
3. Processes that arise during the operation of technological
systems Failures of technological systems (TS)
4. Technical diagnostics of oil and gas complex facilities
5. Modern methods and systems of technical diagnostics of objects
oil and gas complex
6. Intelligent systems of technical pipeline diagnostics
transport
7. Physical methods of diagnosis. Speckle interferometry of VAT
8. Physical methods of diagnosing oil and gas equipment.
Vibration and acoustic diagnostics
9. Physical methods of diagnosis. Acoustic emission.
10. Physical methods of diagnosis. Thermal defectoscopy.
11. Physical methods of diagnosis. Electric and magnetic methods
diagnostics of the state of NGO facilities
12. Physical methods of diagnosis. Electrical methods of determination
stress-deformation state and defectiveness of the NGO
13. Physical methods of diagnosing the state of an NGO. Magnetic methods.
14. Mathematical methods of diagnosing the state of NGOs
Laboratory classes: Structural and physical methods of assessing the condition of oil and gas equipment based on the results
diagnostic examination. Block of laboratory work 1. Physical methods of assessing the state of oil and gas
equipment according to the results of a diagnostic examination. Block of laboratory works 2. Styloscopy
Physical methods of assessing the state of oil and gas
equipment according to the results of a diagnostic examination. Block of laboratory works 2. Pyrometry
Physical methods of assessing the state of oil and gas
equipment according to the results of a diagnostic examination. Block of laboratory work 2. Electroresistive evaluation of the stressed state of metal structures. Contact resistive method
Assessment methods and criteria: Students' knowledge is assessed using the following methods:
1. Defense of reports for laboratory work in oral form by surveying theoretical material on the topic of work and research methodology.
2. Current express control by means of a virtual learning environment or oral survey, tests, assessment of activity and submitted proposals.
3. Conducting a written exam based on the results of studying the discipline, which consists of tasks of various levels of difficulty.
4. Conducting the oral component based on the results of the written exam.
Defense of reports for laboratory work in oral form by surveying theoretical material on the topic of work and research methodology, current express control
(30 points), oral component (10 points), exam tests (60 points).
Recommended books: 1. METHODOLOGICAL INSTRUCTIONS for the laboratory cycle of the discipline
"Diagnostics of oil and gas equipment" for students of specialty 185
"Oil and gas engineering and technology". Structural and physical methods of assessing the condition of oil and gas equipment based on the results of a diagnostic examination. Block of laboratory works 1. // Acc.: V.I. Biloborodchenko - Lviv: NULP.-2021. - 19 p.m.
2. METHODOLOGICAL INSTRUCTIONS for the laboratory cycle of the discipline
"Diagnostics of oil and gas equipment" for students of specialty 185
"Oil and gas engineering and technology". Physical methods of assessing the condition of oil and gas equipment based on the results of a diagnostic examination. Block of laboratory work 2. Electroresistive evaluation of the stressed state of metal structures. Contact resistive method // Incl.: V.I. Biloborodchenko
– Lviv: NULP.-2021. - 9s.
3. METHODOLOGICAL INSTRUCTIONS for the laboratory cycle of the discipline
"Diagnostics of oil and gas equipment" for students of specialty 185
"Oil and gas engineering and technology". Physical methods of assessing the condition of oil and gas equipment based on the results of a diagnostic examination. Block of laboratory works 2. Pyrometry // Incl.: V.I. Biloborodchenko – Lviv: NULP.- 202. – 11 p.
4. METHODOLOGICAL INSTRUCTIONS for the laboratory cycle of the discipline
"Diagnostics of oil and gas equipment" for students of specialty 185
"Oil and gas engineering and technology". Physical methods of assessing the condition of oil and gas equipment based on the results of a diagnostic examination. Block of laboratory work 2. Styloscopy // Incl.: V.I. Biloborodchenko – Lviv: NULP.- 202. – 13 p.
5. METHODOLOGICAL GUIDE to the applied part of the discipline
"Diagnostics of oil and gas equipment" for students of specialty 185
"Oil and gas engineering and technology" Elements of statistical analysis of the results of studies of the state of objects/ Incl.: V.I. Biloborodchenko - Lviv: NULP.-2022. - 33 p.
8. Recommended literature
Basic
1. Birger I. A. Technical diagnostics. — M.: "Mashinostroenie", 1978.
— 240 p.
2. Non-destructive testing and technical diagnostics: reference book, vol. 5 / Ed. Z. T. Nazarchuk. — Lviv: FMI NAS of Ukraine, 2001. — 1138 p.
3. Technical means of diagnosis: Handbook/V. V. Klyuev, P. P. Parkhomenko, V. E. Abramchuk and others; under the municipality Ed. V. V. Klyueva. — M.: Mashinostroenie, 1989. — 672 p.
4. Technical diagnostics of pipeline systems: monograph / V. Ya. Grudz, Ya. V. Grudz, V. V. Kostiv, V. B. Mykhalkiv. - Ivano-Frankivsk: Lileya-NV, 2012.
- 512 p.
5. Karpash O.M., Wozniak M.P., Vasylyuk V.M. Technical diagnostics of oil and gas supply systems: Training manual. - Ivano-Frankivsk: Fakel, 2007. - 341 p.
6. Ensuring the reliability of highway pipelines / A.A. Korshak, G.E. Korobkov, V. A. Dushin and others - Ufa: OOO DizaynPolygrafServys, 2000. - 170 p.
7. Bohdanov E.A. Fundamentals of technical diagnostics of oil and gas equipment. Study guide for universities. — M.: Higher School, 2006.
— 279 p
8. Yakymov Y.V. Machines and equipment of gas and oil pipelines and gas and oil storage [Education. manual]. - Ivano-Frankivsk: Fakel, 2001. – 230 p.
9. Oil industry equipment. Directory edited by E.I. Bukhalenko. M.: Nedra, 1990.
10. Ohirko O.I., Galayko N.V. Probability theory and mathematical statistics: a textbook. Lviv.: LvDUVS., 2017., -292 p.
11. I.M. Vasylkiv Basics of probability theory and mathematical statistics: a study guide. Lviv: LNU named after I. Frank, 2020.-184p.
12. Lebedev E.O., Livinska G.V., Rozora I.V., Sharapov M.M. Mathematical statistics. Tutorial. K.: VOC "Kyiv University", 2016.,-159p.
13. Hnedenko B.V., Belyaev Y.K., Solovyov A.D. Mathematical methods in the theory of reliability. M.: Nauka., 1965. - 524p.
14. Sygorsky V.P. Mathematical apparatus of an engineer. K.: Technika., 1985. - 768p.
15. Novitskyi P.V., Zograf I.A. Estimation of errors in measurement results. L.: Energoatomizdat. Leningrad otd-nie, 1991. — 304 p.: ill.
16. V.A. Granovsky, T.N. Siraya. Methods of processing experimental data. L.: Energoatomizdat, 1990. — 288 p.
17. Lawson C., Hanson R. Numerical solution of problems by the method of least squares. — M.: Nauka, 1986., 232p.
18. The method of least squares // Higher mathematics in examples and problems / Klepko V.Yu., Golets V.L. — 2nd edition. — K.: Center of Educational Literature, 2009. — P. 358. — 594 p.
Auxiliary
1. Biloborodchenko Volodymyr. Applied model of intensity evaluation of stress deforming state of pipeline according to the evaluation of magnetic anisotropy of coercive forces // Ukrainian Journal of Mechanical Engineering and Materials Science. – Vol. 3, No. 1. – pp. 25-33.
2. Biloborodchenko V.I. The informative capacity of magnetostatic methods of diagnosing the stress-strain state (STS) of pipelines. Part 1. // Collection of scientific works "Visnyk" NU
"Lviv Polytechnic" "Optimization of production processes and technical control in machine building and instrument building". - Lviv, 2010. - No. 679 (2010) pp. 7-12
3. V. Biloborodchenko INFORMATIVE ABILITY of MAGNETOSTATICS METHODS of DIAGNOSTICATING the TENSELY-DEFORMED STATE (TDS) of PIPELINES. PART of 1І. // Collection of scientific papers "Visnyk" NU "Lvivs".
Diagnostics of Oil and Gas Structures (курсова робота)
Major: Oil and Gas Engineering and Technology
Code of subject: 6.185.01.E.082
Credits: 2.00
Department: Department of Oil and Gas Engineering and Welding
Lecturer: Biloborodchenko Volodymyr Ivanovych
Semester: 5 семестр
Mode of study: денна
Learning outcomes: RN 1. Knowledge and understanding
subject area and
understanding of the profession (ZK8);
PH2. The ability to conduct
research on the relevant
levels, have research
skills found in
ability to form new ones
products in the chosen industry,
choose appropriate directions and
appropriate methods for them
implementation, taking into account
available resources (ZK7);
PH3. The ability to acquire and
constantly supplement the basic ones
knowledge of fundamentals
sciences to the required extent
for the development of modern
general professional and
professionally oriented
discipline (FC3);
PH4. Ability to apply
professionally profiled
knowledge and practical skills
for solving typical
specialty tasks (FK8);
RN 5. Ability to implement
scientific research,
evaluate received
results, check them
PH6. Ability to apply
modern methods and tools
definition of operational
characteristics and
residual resource
structures, equipment,
choose methods and means
measure, take
participation in the organization
diagnostics of processes and
structures, equipment,
management tools and systems
machine-building and
welding production
(FC 10).
PH7. The ability to develop
to organize and
take measures
product quality control,
develop measures with
ensuring reliability
products and elements
production, plan
measures from permanent
improvement of product quality
enterprises in the industry
welding and related
processes (FCS 1.2);
PH8. Ability to perform
assessment of residual
PH9. Evaluation method
potential dangers which
accompanied by technological ones
manufacturing processes,
assembly, products,
operation of technological
equipment and equipment in
structural subdivisions
machine-building
enterprises or organizations;
principles of reasonableness
selection and application
hazard prevention measures
and providing professional
and civil security (ZH3).
PH10. Regularities
wear and tear and destruction
details; basics
mathematical modeling
failure processes of parts and
cars; features
modern technological
methods of promotion
durability and
ensuring reliability
products (ZH7)
PH11. Ability to communicate
including oral and written
communication in Ukrainian and
in foreign languages
(in English) when business
communication and teaching in
professional publications
direction (COM 1).
PH12. Ability to adapt
to new situations and
take appropriate
decision; realize
the need for training
throughout life with
with the aim of deepening the acquired
and acquisition of new professionals
PH13. Ability
be responsible for
work performed,
take on your own
solution, achieve
the set goal with
compliance with the requirements
professional ethics (AiV 2).
PH14. Ability
show understanding
basic ecological principles,
occupational health and safety
life activities and their
application (AiB 3).
Required prior and related subjects: Oil and gas equipment
Diagnostics of structures and buildings
Summary of the subject: The course work on the discipline "Diagnostics of oil and gas complex structures" is intended to consolidate the knowledge and skills of its theoretical part and for the student to acquire the skills to independently solve the main problems that arise during the diagnosis of objects of the oil and gas complex.
Assessment methods and criteria: Students' knowledge is assessed using the following methods:
Defense of coursework in oral form by means of a survey
theoretical material on the topic of the work and research methodology.
20 points
Criteria for evaluating student knowledge and skills based on results
studying the learning material of the module in a 100-point scale and a scale
ECTS:
• 100–88 points – grade A (“excellent”) is given for a high level
knowledge (some inaccuracies are allowed) of the educational material of the module that
contained in the main and additional recommended literary sources,
the ability to analyze the phenomena being studied in their relationship and development,
clearly, succinctly, logically, consistently answer the questions,
the ability to apply theoretical provisions when solving practical ones
tasks;
• 87–80 points – grade B (“very good”) is awarded for knowledge
educational material of the module above the average level, including
calculations, reasoned answers to the questions (possible
a small number of inaccuracies), the ability to apply theoretical provisions
when solving practical problems;
• 79–71 points – grade C (“good”) is given as generally correct
understanding the learning material of the module, including calculations,
reasoned answers to the questions posed, which, however, contain certain
(insignificant) shortcomings, for the ability to apply theoretical provisions during
solving practical problems;
• 70–61 points – grade D (“mediocre”) is awarded for mediocre knowledge
of the educational material of the module, low-argument answers, weak
application of theoretical provisions when solving practical problems;
• 60–50 points – grade E (“satisfactory”) is awarded for weak knowledge
of the educational material of the module, inaccurate or poorly reasoned answers, with
violation of the sequence of presentation, for weak application of theoretical ones
provisions when solving practical problems;
• 49-26 points – FX rating (“unsatisfactory”) with the possibility of a repeat
taking an exam or a test) is presented for ignorance of a significant part
of the educational material of the module, significant errors in the answers to questions,
inability to apply theoretical provisions when solving practical ones
tasks;
• 25–00 points – grade F (“unsatisfactory”) with mandatory retake
study of the module) is presented for ignorance of a significant part of the educational material
material of the module, significant errors in answering questions, incompetence
to navigate when solving practical problems, ignorance of the main ones
fundamental provisions.
Recommended books: 1. Birger I. A. Technical diagnostics. — M.: "Mashinostroenie", 1978. — 240 p.
2. Non-destructive testing and technical diagnostics: reference book, vol. 5 / Ed. Z. T. Nazarchuk. — Lviv: FMI NAS of Ukraine, 2001. — 1138 p.
3. Technical means of diagnosis: Handbook/V. V. Klyuev, P. P. Parkhomenko, V. E. Abramchuk and others; under the municipality Ed. V. V. Klyueva. — M.: Mashinostroenie, 1989. — 672 p.
4. Technical diagnostics of pipeline systems: monograph / V. Ya. Grudz, Ya. V. Grudz, V. V. Kostiv, V. B. Mykhalkiv. - Ivano-Frankivsk: Lileya-NV, 2012. - 512 p.
5. Karpash O.M., Wozniak M.P., Vasylyuk V.M. Technical diagnostics of oil and gas supply systems: Training manual. - Ivano-Frankivsk: Fakel, 2007. - 341 p.
6. Ensuring the reliability of highway pipelines / A.A. Korshak, G.E. Korobkov, V. A. Dushin and others - Ufa: OOO DizaynPolygrafServys, 2000. - 170 p.
7. Bohdanov E.A. Fundamentals of technical diagnostics of oil and gas equipment. Study guide for universities. — M.: Higher School, 2006. — 279 p
8. Yakymov Y.V. Machines and equipment of gas and oil pipelines and gas and oil storage [Education. manual]. - Ivano-Frankivsk: Fakel, 2001. – 230 p.
9. Oil industry equipment. Directory edited by E.I. Bukhalenko. M.: Nedra, 1990.