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2019/2
Issues of capital repair of gas pipelines in zones of natural and technogenic risks
Geosciences

Authors: Alexey S. LOPATIN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1979. He is Doctor of Technical Sciences, professor, Head of Dept. of Termodynamics and Heat Engines of Gubkin Russian State University of Oil and Gas (National Research University). Author of over 350 papers in the field of diagnostics, energy saving in the transport of gas and energy efficiency. E-mail: Lopatin.a@gubkin.ru
Ashot R. AKOPIAN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1986. He is Deputy Director General, Chief Engineer of ZAO «Gazprom Armenia», specialist in improving the reliability and efficiency of main gas pipelines.
E-mail: inbox@gazpromarmenia.am
Mikhail M. ZADERIGOLOVA graduated from the Dnepropetrovsk Mining Institute in 1962. He is Candidate of Technical Sciences, Director General of OOO «Altumgeo», author of about 150 scientific papers and patents in the field of geodynamic safety of large-scale national projects. E-mail: Lopatin.a@gubkin.ru

Abstract: Optimization of the choice of facilities for repair work and the volume of their financing can be carried out on the basis of reliable diagnostic data on both the technical condition and integrity of the pipe itself and the soils of the near-pipe space. Traditional methods of diagnostics are not quite suitable for monitoring and forecasting emergencies in areas of natural and man-made risks (landslides, karst, tectonic disturbances, faults, underground mining, etc.). A significant step in solving the problem can be made by incorporating into the diagnostics system radio wave methods, which have been successfully implemented at a number of facilities of OOO «Gazprom». These are aimed at eliminating the possibility of accidents at the earliest stages of natural and man-made processes.

Index UDK: 621.6.029

Keywords: geodynamic monitoring, dangerous geological processes, gas pipeline, capital repair, radio-wave method, diagnostics

Bibliography:
1. Dmitrievskij A.N. Formirovanie i dinamika ehnergoaktivnyh zon v geologicheskoj srede. Doklady Akademii nauk, 2006, t. 411, no. 3, р. 395-399.
2. Neobhodimost’ povysheniya ehffektivnosti capital’nogo remonta uchastkov LCHMG OAO «GAZPROM» na osnove kompleksnogo analiza ih tekhnicheskogo sostoyaniya. A.A. Filatov, I.I. Veliyulin, D.K. Migunov i dr. Gazovaya promyshlennost’, 2015, no. 3, p. 33-35.
3. Zaderigolova M.M., Lopatin A.S. Primenenie radiovolnovogo metoda kontrolya dlya obespecheniya bezopasnosti gazotransportnyh sistem. M: Izd. centr RGU nefti i gaza imeni Gubkina, 2014, 72 p.
4. Zaderigolova M.M., Lopatin A.S., Suslikov S.P. Problemy geodinamicheskoj bezopasnosti ehkspluatacii gazoprovoda «CHusovoj-Berezniki-Solikamsk». Trudy RGU nefti i gaza (NIY) imeni I.M. Gubkina, 2016, no. 4 (285), p. 84-93.
5. Geodinamicheskaya bezopasnost’ magistral’nyh gazoprovodov. B.V. Budzulyak, A.A. Apostolov, A.S. Lopatin, M.M. Zaderigolova. Truboprovodnyj transport: teoriya i praktika, 2018, no. 3, p. 50-54.
6. Svod pravil po inzhenernym izyskaniyam dlya stroitel’stva SP-11-105-97, ch. IV. Pravila proizvodstva geofizicheskih issledovanij. M: Gosstroj RF, 2004, 51 p.
7. Zaderigolova M.M. Obespechenie geodinamicheskoj bezopasnosti gazotransportnyh sistem radiovolnovymi metodami. M: Nauchnyj mir, 2009, 398 p.
8. Zaderigolova M.M., Lopatin A.S. Kriterii ocenki prognozirovaniya vnezapnoj opasnosti katastroficheskih aktivizacij gruntov okolotrubnogo prostranstva. Oborudovanie i tekhnologii dlya neftegazovogo kompleksa, 2018, no. 6, p. 73-80.
9. Zaderigolova M.M. Ustrojstvo dlya monitoringa lokal’nyh neodnorodnostej geodinami- cheskih i korrozionnyh zon verhnej chasti geologicheskogo razreza. Patent RF no. 123546 ot 27.12.2012 g.
10. Selyukov E.I., Stigneeva L.T. Kratkie ocherki prakticheskoj mikrogeodinamiki. SPb: Piter, 2010, 175 р.

2016/4
Geodynamic safety of “Chusova-Berezniki-Solikamsk” gas pipelines
Geosciences

Authors: Mikhail M. ZADERIGOLOVA graduated from the Dnepropetrovsk Mining Institute in the 1962. He is Candidate of Technical Sciences, Chief Specialist LLC „GEOTEK”. Аuthor of over 130 scientific papers and patents in the field of geodynamic safety of large-scale projects. E-mail: geotec.mz@mail.ru
Alexey S. LOPATIN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1979. He is Doctor of Technical Sciences, professor, Head of Dept. of Termodynamics and Heat Engines of Gubkin Russian State University (National Research University) of Oil and Gas. Аuthor of over 350 papers in the field of diagnostics, energy saving in the transport of gas, energy efficiency. E-mail: Lopatin.a@gubkin.ru
Sergey P. SUSLIKOV graduated from Krasnodar Polytechnic Institute in 1983. He is Director General of OOO „Gazprom Transgaz Chaykovskiy”. Аuthor of more than 20 papers in the field of improving the reliability and efficiency of the gas mains.
E-mail: 24310@ptg.gazprom.ru

Abstract: Methods and technology for the control and monitoring of the upper part of the geological section and its surface used in the industry allow only to record events that have already occurred and are unable to predict large-scale sinkholes near the pipeline. Thus, the evaluation of the technical condition of the „Chusovoy-Berezniki-Solikamsk” pipeline is largely limited to determining a stress-strain state of the pipe without taking into account the external effects of the soil. One of the feasible solutions to the problem might be to include the radio wave methods, which have been successfully applied at a number of facilities of PJSC „Gazprom”

Index UDK: 621.6

Keywords: risk, accident, gas pipeline, dangerous geological processes, geodynamic safety, diagnostics of soils, radio-wave method, geotechnical monitoring

Bibliography:
1. Radiovolnovaja sistema monitoringa opasnyh geologicheskih processov na gazoprovode s. Dzaurikau — g. Chinval. O.E. Aksjutin, S.V. Alimov, M.Ju. Mitrohin, A.N. Kolotovskij, A.V. Zavgorodnev, A.Ju. Astanin, M.M. Zaderigolova. Gazovaja promyshlennost’, 2015, no. 3, p. 28-32.
2. Zaderigolova M.M., Lopatin A.S., Seredenok V.A. Monitoring opasnyh geologicheskih processov dlja obespechenija bezopasnosti gazotransportnyh sistem. Neft’, gaz i biznes, 2015, no. 3, p. 41-43.
3. Zaderigolova M.M., Lopatin A.S. Primenenie radiovolnovogo metoda kontrolja dlja obespechenija bezopasnosti gazotransportnyh sistem. M.: Izd. centr RGU nefti i gaza imeni I.M. Gubkina, 2014, 72 p.
4. Zaderigolova M.M. Sposob monitoringa lokalnyh neodnorodnostej i geodinamicheskih zon verhnej chasti geologicheskogo razreza VCHR. Patent RF № 2363965 ot 10.08.2009 g.
5. Zaderigolova M.M. Radiovolnovyj metod v inzhenernoj geologii i geojekologii. M.: Izd-vo MGU, 1998, 320 p.
6. Zaderigolova M.M. Obespechenie geodinamicheskoj bezopasnosti gazotransportnyh sistem radiovolnovymi metodami. M.: Nauchnyj mir, 2009, 398 p.

2016/1
Geodynamic monitoring of gas pipelines with unmanned aero vehicles
Geosciences

Authors: Kerim B. HUSEYNOV graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1983. He is Candidate of Technical Sciences, Director General of LLC „Gazprom Transgaz Makhachkala”. Аuthor of more than 40 papers in the field of improving the reliability and efficiency of the gas mains. E-mail: gaz@dgp.gazprom.ru
Mikhail M. ZADERIGOLOVA graduated from the Dnepropetrovsk Mining Institute in the 1962. He is Candidate of Technical Sciences, Chief Specialist LLC „GEOTEK”, the author of over 130 scientific papers and patents in the field of geodynamic safety of large economic projects. E-mail: geotec.mz@mail.ru
Alexey S. LOPATIN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1979. He is Doctor of Technical Sciences, professor, Head of Dept. of Termodynamics and Heat Engines of Gubkin Russian State University (National Research University) of Oil and Gas, author of over 300 papers in the field of diagnostics, energy saving in the transport of gas, energy efficiency. E-mail: Lopatin.a@gubkin.ru

Abstract: The need of monitoring is caused by the fact that some of the country gas pipelines cross areas with active dangerous geological processes. A significant step forward in ensuring geodynamic safety of gas pipelines can be made by including the radio-wave method into the monitoring system. The system created on he basis of unmanned aerial vehicles allows to make fast responsible management decisions aimed at eliminating the possibility of accidents at the earliest stages of natural and man-made processes

Index UDK: УДК 621.6

Keywords: geodynamic monitoring, dangerous geological processes, safety, gas pipeline, radio-wave method, unmanned aero vehicle

Bibliography:
1.Metody i sredstva diagnostiki linejnoj chasti magistralnyh gazoprovodov: uchebnoe posobie, 2-e izd. A.S. Lopatin, N.H. Hallyev, A.A. Filatov i dr. M.: Nedra, 2013, 188 р.
2.Osobennosti ocenki tehnicheskogo sostojanija uchastkov magistral’nyh gazoprovodov, ispytyvajushhih intensivnoe vozdejstvie neproektnyh nagruzok. K.B. Gusejnov, S.I. Egorov, A.P. Zav’jalov, A.S. Lopatin. Neft’, gaz i biznes, 2015, no. 3, p. 34–37.
3.Zaderigolova M.M., Lopatin A.S. Primenenie radiovolnovogo metoda kontrolja dlja obespechenija bezopasnosti gazotransportnyh sistem. M.: Izd. centr RGU nefti i gaza imeni I.M. Gubkina, 2014, 72 p.
4.Radiovolnovaja sistema monitoringa opasnyh geologicheskih processov na gazoprovode s. Dzaurikau – g. Chinval. O.E. Aksjutin, S.V. Alimov, M.Ju. Mitrohin, A.N. Kolotovskij, A.V. Zavgorodnev, A.Ju. Astanin, M.M. Zaderigolova. Gazovaja promyshlennost’, 2015, no. 3, p. 28–32.
5.Zaderigolova M.M., Lopatin A.S., Seredenok V.A. Monitoring opasnyh geologicheskih processov dlja obespechenija bezopasnosti gazotransportnyh sistem. Neft’, gaz i biznes, 2015, no. 3, p. 41–43.
6.Zaderigolova M.M. Obespechenie geodinamicheskoj bezopasnosti gazotransportnyh sistem radiovolnovymi metodami. M.: Nauchnyj mir, 2009, 398 p.
7.Zaderigolova M.M. Radiovolnovyj metod v inzhenernoj geologii i geojekologii. M.: Izd-vo MGU, 1998, 320 p.
8.Svod Pravil po inzhenernym izyskanijam dlja stroitel’stva SP-11-105-97, ch. VI. «Pravila proizvodstva geofizicheskih issledovanij». M.: Gosstroj RF, 2004, 51 p.