Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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29 | 03 | 2024
2019, 07 July

DOI: 10.14489/td.2019.07.pp.038-045

 

Ivanov V. I., Musatov V. V.
THE ANALYSIS OF THE RISK-FOCUSED APPROACH IN TECHNICAL DIAGNOSING
(pp. 38-45)

Abstract. The analysis of materials of a round table “Technical diagnosing and nondestructive testing. New approaches” at forum “NDT Territory – 2019” is carried out. It is shown that risk-focused technical diagnosing reached that level of development, which fully provides real use it at assessment of technogenic safety with use of indicators of risk of accident of dangerous technical objects.

Keywords: technogenic safety, technical diagnosing, nondestructive testing, fracture mechanics, risk based inspection, probability of fracture, defect-measurement, probability of detection.

 

V. I. Ivanov (RII MSIA “Spektrum”, Moscow, Russia) Е-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
V. V. Musatov (GIAP-Distcentre Moscow, Russia) Е-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

 

 

1. On the fundamentals of the state policy of the Russian Federation in the field of industrial safety for the period until 2025 and beyond: Decree of the President of the Russian Federation of May 6, 2018 No. 198. Мoscow. [in Russian language]
2. Mahutov N. A. (2006). Security of Russia. Legal, socio-economic and scientific and technical aspects. Risk and safety analysis: in 4 parts. Moscow: Znanie. [in Russian language]
3. On industrial safety of hazardous production facilities: Federal Law No. 22-FZ. Мoscow. [in Russian language]
4. Lisanov M. V., Pecherkin A. S., Sumskoy S. I. et al. (2017). Methodological support and problems of analyzing the risk of accidents at hazardous industrial facilities of the oil and gas complex. Vesti gazovoy nauki: Povyshenie nadezhnosti i bezopasnosti obyektov gazovoy promyshlennosti, 29(1), pp. 179 – 186. [in Russian language]
5. Risk-based inspection, API Recommended Practice 580. Available at: https://ru.scribd.com/document/222519671/API-RP-580-Risk-Based-Inspection (Accessed: 12.04.2019).
6. Risk-Based Inspection Technology, API Recommended Practice 581. Available at: http://www.irantpm.ir/wp-content/uploads/2011/08/API-581-2008.pdf (Accessed: 12.04.2019).
7. Fitness-For-Service, API 579-1/ASME Standard FFS-1.
8. Lisanov M. V., Sumskoy S. I., Shvyryaev A. A. (2018). Uncertainties of quantitative risk assessment of accidents at oil and gas facilities. Povyshenie nadezhnosti i bezopasnosti obyektov gazovoy promyshlennosti, 34(2), pp. 125 – 133. [in Russian language]
9. Mahutov N. A., Ivanov V. I., Musatov V. V. (2018). The use of technical diagnostics to calculate the probability of destruction of technical devices and the risk assessment of an accident. Bezopasnost' Truda v Promyshlennosti, (9), pp. 53 – 64. [in Russian language]
10. Ivanov V. I., Konovalov N. N., Kotel'nikov V. S. et al. (2015). Issues of accident risk assessment using technical diagnostics. Kontrol'. Diagnostika, (3), pp. 12 – 20. [in Russian language] DOI: 10.14489/td.2015.03.pp.012-020
11. Rules for the control of the base metal, welded joints and weld surfaces in the operation of equipment, pipelines and other elements of nuclear power plants: NP-084-15. (2016). Order of the Federal Service for Environmental, Technological and Nuclear Supervision of December 7, 2015 No. 502. Entered into force on 25.03.2016. Moscow. [in Russian language]
12. Safety Guide. Methodological framework for conducting hazard analysis and risk assessment of accidents at hazardous production facilities. (2016). Order of Rostekhnadzor from 11.04.2016 No. 144. Moscow. [in Russian language]
13. Getman A. F. (2019). Theories and technologies to ensure the strength of technical objects. Moscow: Nestor-Istoriya. [in Russian language]
14. Mahutov N. A., Tutnov A. A., Ryazantsev E. P. et al. (2008). The system concept of ensuring the strength, resource, reliability, survivability and safety of equipment and pipelines of nuclear power plants: the main provisions, examples of use, application prospects for improving the efficiency of nuclear energy. 60 years of nuclear power / NPP Russia, pp. 373 – 402. Moscow: Rosenergoatom. [in Russian language]
15. Badalyan V. G., Vopilkin A. H. (2010). Monitoring of welded joints of pipelines with the use of automatic ultrasonic inspection systems with coherent data processing. Automated ultrasound monitoring of high-risk facilities: jubilee proceedings, pp. 12 – 16. Saint Petersburg: SVEN. [in Russian language]
16. Badalyan V. G. (2016). Evaluation of the reliability of ultrasonic testing results in austenitic welded joints. Kontrol'. Diagnostika, (12), pp. 4 – 9. [in Russian language] DOI: 10.14489/td.2016.12.pp.004-009

 

 

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