Russian Internet Journal of Industrial Engineering

New energy saving approach to realization of opportunities of increase of efficiency and useful use of energy of technological installations and units on objects of fuel and energy complex is offered. The principles, structures and constructions of a technological chain of receiving the electric power from thermal energy of exhaust gases at compressor stations of the main gas pipelines are considered. Examples of realization of algorithms and technical means of power effective technologies with obtaining additional capacities to 10 MW for systems of power supply are given. Effective results of decrease in an environmental pressure on environment at rational use of ORC technologies at gas-turbine compressor stations are shown.

Kontseptsiya energosberezheniya i povysheniya energeticheskoy effektivnosti OAO “Gazprom” na period 2011-2020 [The concept of energy saving and energy efficiency of "Gazprom" for the period 2011-2020], 2010, 30 p. (in Russ.)

Puzhaylo A.F., Spiridovich E.A., Kryukov O.V. Energosberezhenie i avtomatizatsiya elektrooborudovaniya kompressornykh stantsiy: monografiya [Energy-saving electrical equipment and automation of compressor stations: monograph], N. Novgorod, Vektor TiS, 2011, 664 p. (in Russ.)

Kryukov O.V. Experience in the creation of effective electric gas pumping units [Opyt sozdaniya effektivnykh elektroprivodov gazoperekachivayushchikh agregatov], Trudy VIII Mezhdunarodnoy konferentsii po avtomatizirovannomu elektroprivodu (AEP-2014) [Proc. of the VIII International Conference on Automated Electric Drive (AED 2014)], Saransk, MGU im. N.P. Ogareva, 2014, vol. 2, pp. 157-162. (in Russ.)

Babichev S.A., Bychkov E.V., Kryukov O.V. Analysis of the technical condition and safety of electrically driven gas pumping units [Analiz tekhnicheskogo sostoyaniya i bezopasnosti elektroprivodnykh gazoperekachivayushchikh agregatov], Elektrotekhnika [Electrical engineering], 2010, no.9, pp. 30-36. (in Russ.). DOI: 10.3103/S1068371210090075

Vozhakov A.V., Kryukov O.V., Lisin N.G. The reasons for the lack of effective construction and operation of automation systems [O prichinakh nedostatochno effektivnogo postroeniya i ekspluatatsii sistem avtomatizatsii], Avtomatizatsiya v promyshlennosti [Automation industry], 2012, no.2, pp. 38-47. (in Russ.)

Kryukov O.V., Stepanov S.E. Ways of modernization of electrically driven gas pumping units [Puti modernizatsii elektroprivodnykh gazoperekachivayushchikh agregatov], Elektromekhanicheskiye i energeticheskiye sistemy [Electromechanical and Energy Systems], 2012, no.3(19), pp. 209-212. (in Ukrain.)

Puzhaylo A.F., Spiridovich E.A., Kryukov O.V. Energosberezhenie i avtomatizatsiya elektrooborudovaniya kompressornykh stantsiy: monografiya [Energy-saving electrical equipment and automation of compressor stations: monograph], N. Novgorod, Vektor TiS, 2010, 560 p. (in Russ.)

Kryukov O.V. Energy electrically driven gas pumping units [Energoeffektivnost elektroprivodnykh gazoperekachivayushchikh agregatov], Elektrotekhnicheskiye sistemy i kompleksy [Electrical systems and complexes], 2015, no.1 (26), pp. 10-15. (in Russ.)

Kryukov O.V., Stepanov S.E. Increasing the stability of the electric centrifugal compressors at the compressor stations of OJSC "Gazprom" [Povyshenie ustoychivosti raboty elektroprivodov tsentrobezhnykh nagnetateley na kompressornykh stantsiyakh OAO «Gazprom»], Gazovaya promyshlennost' [Gas industry], 2014, no.8(710), pp. 50-56. (in Russ.)

Kryukov O.V. Capacity control of electrically driven gas pumping units with frequency converters [Regulirovanie proizvoditel'nosti elektroprivodnykh gazoperekachivayushchikh agregatov preobrazovatelyami chastoty], Kompressornaya tekhnika i pnevmatika [Compressor equipment and pneumatics], 2013. no.3, pp. 21-24. (in Russ.)

Khlynin А.S., Kryukov О.V. Realization of energy efficiency factors of electrically driven gas compressor units in projects, Russian Internet Journal of Electrical Engineering, 2014, vol. 1, no.2, pp. 32-37. (in Russ.). DOI: 10.24892/RIJEE/20140307

Kryukov O.V. Comprehensive system monitoring and management of electrically driven gas pumping units [Kompleksnaya sistema monitoringa i upravleniya elektroprivodnymi gazoperekachivayushchimi agregatami], Peredovyye informatsionnyye tekhnologii, sredstva i sistemy avtomatizatsii i ikh vnedreniye na rossiyskikh predpriyatiyakh: sb. tr. Mezhdunar. nauchn.-prakt. konf. [Proc. International scientific and practical conference “Advanced information technology, automation means and systems and their implementation at the Russian enterprises”], Moscow, 2011, pp. 329-350. (in Russ.)

Kryukov O.V. Strategy invariant control systems of electric facilities of JSC “Gazprom” [Strategii invariantnykh sistem upravleniya elektroprivodami obyektov OAO «Gazprom»], Identifikatsiya sistem i zadachi upravleniya SICPRO'15 [System Identification and Control Problems SICPRO'15], 2015, pp. 368-386. (in Russ.)

Puzhaylo A.F., Kryukov O.V., Rubtsova I.Ye. Energy-saving in units of compressor stations by means of a frequency-controlled electric drive [Energosberezheniye v agregatakh kompressornykh stantsiy sredstvami chastotno-reguliruyemogo elektroprivoda], Nauka i tekhnika v gazovoy promyshlennosti [Science and technology in the gas industry], 2012, no.2 (50), pp. 98-106. (in Russ.)

Serebryakov A.V., Kryukov O.V., Vasenin A.B. Fuzzy models and control algorithms for wind power installations [Nechetkiye modeli i algoritmy upravleniya vetroenergeticheskimi ustanovkami], Upravleniye v tekhnicheskikh, ergaticheskikh, organizatsion-nykh i setevykh sistemakh [Management in technical, ergatic, organizational and networking systems], 2012, pp. 467-469. (in Russ.)

Kryukov O.V., Gorbatushkov A.V., Stepanov S.Ye. Principles of construction of electric power facilities invariant [Printsipy postroyeniya invariantnykh elektroprivodov energeticheskikh obyektov], Avtomatizirovannyy elektroprivod i promyshlennaya elektronika [Automatic Electric and industrial electronics], 2010, pp. 38-45. (in Russ.)

Kryukov O.V. Analysis designs of electric mashines for gas pumping units, Russian Internet Journal of Industrial Engineering, 2015, vol. 3, no.4, pp. 53-58. (in Russ.). DOI: 10.24892/RIJIE/20150409

Kryukov O.V. Comprehensive analysis of the operating conditions of electric gas-compressor units [Kompleksnyy analiz usloviy ekspluatatsii elektrodvigateley gazoperekachivayushchikh agregatov], Kompressornaya tekhnika i pnevmatika [Compressor equipment and pneumatics], 2013, no.4, pp. 14-20. (in Russ.)

Kryukov O.V. Comparative analysis of the drive technology of gas pumping units [Sravnitelnyy analiz privodnoy tekhniki gazoperekachivayushchikh agregatov], Privodnaya tekhnika [Drive technology], 2010, no.5, pp. 20-27. (in Russ.)

Babichev S.A., Zakharov P.A., Kryukov O.V. Automated system for operational monitoring of the drive motors of gas pumping units [Avtomatizirovannaya sistema operativnogo monitoringa privodnykh dvigateley gazoperekachivayushchikh agregatov], Avtomatizatsiya v promyshlennosti [Automation industry], 2009, no.6, pp. 3-6. (in Russ.). DOI: 10.1134/S0005117911010176

Kryukov O.V. The methodology and tools of neuro-fuzzy prediction state drives gazope-rekachivayuschih units [Metodologiya i sredstva neyro-nechetkogo prognozirovaniya sostoyaniya elektroprivodov gazope-rekachivayushchikh agregatov], Elektrotekhnika [Electronics], 2012, no.9, pp. 52-57. (in Russ.). DOI: 10.3103/S1068371212090064

Kryukov O.V. Virtual load cell synchronous machines [Virtualnyy datchik nagruzki sinkhronnykh mashin], Elektrooborudovaniye: ekspluatatsiya i remont [Electrical equipment: maintenance and repair], 2014, no.3, pp. 45-50. (in Russ.)

Kryukov O.V., Serebryakov A.V. The system of on-line diagnostics of technical condition of wind turbines [Sistema operativnoy diagnostiki tekhnicheskogo sostoyaniya vetroenergeticheskikh ustanovok], Elektrotekhnika [Electrical engineering], 2015, no.4, pp. 49-53. (in Russ.). DOI: 10.3103/S1068371215040069

Kryukov O.V. Prediction of the technical state of electrical machines in power plants [Prognozirovaniye tekhnicheskogo sostoyaniya elektricheskikh mashin v energeticheskikh ustanovkakh], Energetik [Energetic], 2016, no.2, pp. 18-21. (in Russ.)

Babichev S.A., Zakharov P.A., Kryukov O.V. Monitoring the technical condition of the drive motors of gas pumping units [Monitoring tekhnicheskogo sostoyaniya privodnykh elektrodvigateley gazoperekachivayushchikh agregatov], Kontrol'. Diagnostika [Control. Diagnostics], 2009, no.7, pp. 33-39. (in Russ.)

Kryukov O.V., Stepanov S.E. Modernization of management systems of electrically driven gas pumping units [Modernizatsiya sistem upravleniya elektroprivodnymi gazoperekachivayushchimi agregatami], Problemy avtomatizatsii i upravleniya v tekhnicheskikh sistemakh: sb. nauchn. tr. Mezhdunar. nauchn.-prakt. konf. [Proc. International scientific and practical conference “Automation and control problems in technical systems”], Penza, 2013, pp. 29-32. (in Russ.)

Serebryakov A.V., Kryukov O.V. Ways to go to the maintenance and repair of electrically driven gas pumping units for actually consists [Puti perekhoda na tekhnicheskoye obsluzhivaniye i remont elektroprivodnykh gazoperekachivayushchikh agregatov po fakticheskomu sostoyaniyu], Gazovaya promyshlennost [Gas industry], 2015, no.10 (729), pp. 83-86. (in Russ.)

Kryukov O.V., Serebryakov A.V. Method and system of decision-making forecasting technical condition of electrically driven gas pumping units [Metod i sistema prinyatiya resheniy po prognozirovaniyu tekhnicheskogo sostoyaniya elektroprivodnykh gazoperekachivayushchikh agregatov], Elektrotekhnicheskiye sistemy i kompleksy [Electrical systems and complexes], 2015, no.4 (29), pp. 35-38. (in Russ.)

Kryukov, O.V., Serebryakov А.V. Artificial Neural Networks of Technical State Prediction of Gas Compressor Units Electric Motors, Bulletin of the South Ural State University. Ser. Power Engineering, 2016, vol. 16, no.1, pp. 66-74. DOI: 10.14529/power160110. (in Russ.)

Kiyanov N.V., Kryukov O.V. Industrial Ecology Solving problems by means of electrical and process control systems [Resheniye zadach promyshlennoy ekologii sredstvami elektrooborudovaniya i ASUTP], Avtomatizatsiya v promyshlennosti [Automation in the industry], 2009, no.4, pp. 29-34. (in Russ.)

Kryukov O.V., Serebryakov A.V. Environmental and energy-saving power supply problem areas in the reconstruction of facilities of JSC "Gazprom" [Ekologicheskiye napravleniya elektrosnabzheniya i zadachi energosberezheniya pri rekonstruktsii obyektov OAO «Gazprom»], Elektrooborudovaniye: ekspluatatsiya i remont [Electrical equipment: maintenance and repair], 2015, no. 8, pp. 23-33. (in Russ.)

Kryukov O.V., Kiyanov N.V. Elektrooborudovanie i avtomatizatsiya vodooborotnykh sistem predpriyatiy s ventilyatornymi gradirnyami: monografiya [Electrical equipment and automation of water circulation systems of enterprises with fan cooling towers: a monograph], N. Novgorod, NGTU, 2007, 260 p. (in Russ.)

Kryukov O.V., Krasnov D.V. Prospects for the use of frequency inverters for controlling the performance of electrically GPA [Perspektivy primeneniya preobrazovateley chastoty dlya regulirovaniya proizvoditelnosti elektroprivodnykh GPA], Gazovaya promyshlennost [Gas industry], 2014, no.6(707), pp. 86-89. (in Russ.)

Kryukov O.V. Automation of gas transmission units, Russian Internet Journal of Industrial Engineering, 2016, vol.4, no.1, pp. 36-41. (in Russ.). DOI: 10.24892/RIJIE/20160105

Kryukov O.V. The paradigm of the use of electrically driven gas pumping units at JSC "Gazprom" facilities [Paradigma primeneniya elektroprivodnykh gazoperekachivayushchikh agregatov na ob''ektakh OAO «Gazprom»], Sostoyanie i perspektivy razvitiya elektro- i teplotekhnologii: sb. nauchn. tr. Mezhdunar. nauchn.-prakt. konf. (XVIII Benardosovskie chteniya) [Proc. International scientific and practical conference “Status and prospects of the development of electricity and heat technologies (XVIII Benardosovskie reading)”], Ivanovo, 2015, pp. 61-65. (in Russ.)

Spiridovich E.A., Voronkov V.I., Kryukov O.V. System optimization of energy consumption units of compressor stations [Sistemnaya optimizatsiya energopotrebleniya agregatov kompressornykh stantsiy], Nauka i tekhnika v gazovoy promyshlennosti [Science and technology in the gas industry], 2012, no.1(49), pp. 58-70. (in Russ.)

Kryukov O.V., Serebryakov A.V. Experimental electric safety studies of gas pumping units [Eksperimentalnyye issledovaniya bezopasnosti elektrodvigateley gazoperekachivayushchikh agregatov], Promyshlennaya energetika [Industrial power], 2016, no.2, pp. 24-32. (in Russ.)

Kryukov O.V., Vasenin A.B., Serebryakov A.V. Experimental stand electromechanical parts of the wind power plant [Eksperimentalnyy stend elektromekhanicheskoy chasti vetroenergeticheskoy ustanovki], Privodnaya tekhnika [Drive technology], 2012, no.4, pp. 2-11. (in Russ.)

Vasenin A.B., Kryukov O.V., Titov V.G. Avtonomnaya sistema bespereboynogo elektrosnabzheniya, ispolzuyushchaya vozobnovlyayemyy istochnik energii [Autonomous system of uninterrupted power supply using renewable energy], Patent RU 113615, 2011. (in Russ.)

Vasenin A.B., Kryukov O.V., Serebryakov A.V. Energeticheskiy kompleks [Energy complex], Patent RU 113085, 2011. (in Russ.)