Russian Internet Journal of Electrical Engineering

The analysis of a current state of development of cooling systems of technological installations and devices in various industries, including power is submitted. Need and possibility of creation of power effective and reliable water reverse systems with ventilatory coolers on objects of the increased danger is proved. Results of development and implementation of projects of automation of water reverse systems with high requirements to stabilization of temperature of chilled water on the basis of invariant systems of the frequency electric drive of fans of coolers are considered. As a result of the analysis of experimental data of ventilatory coolers the regression algorithms and structures of SAR providing invariancy of work of water reverse system from casual technological and meteorological indignations are received. The system of complex automation of water recirculation of the enterprise with functions of stabilization of temperature of chilled water, coordination and monitoring of technical condition of the equipment is synthesized.

Milov V.R., Suslov B.A., Kryukov O.V. Intellectualization support management decisions in the gas sector [Intellektualizatsiya podderzhki upravlencheskikh resheniy v gazovoy otrasli], Avtomatizatsiya v promyshlennosti [Automation of industry], 2009, no. 12, pp. 16-20. (in Russ.)

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

Vasenin A.B., Kryukov O.V., Serebryakov A.V., Plekhov A.S. The automated control system of power supply systems on the principles of SMART GRID for the objects of the main pipelines [ASU sistem elektrosnabzheniya na printsipakh SMART GRID dlya obyektov magistralnykh gazoprovodov], Avtomatizatsiya v promyshlennosti [Automation of industry], 2012, no. 4, pp. 36-38. (in Russ.)

Kryukov O.V. Automated control system water system with cooling towers [ASU vodooborotnymi sistemami s gradirnyami], Avtomatizatsiya v promyshlennosti [Automation of industry], 2012, no.8, pp. 53-56. (in Russ.)

Kiyanov N.V., Kryukov O.V., Pribytkov D.N., Gorbatushkov A.V. A concept for the development of invariant automated electric drives for water recycling systems with fan cooling towers, Russian Electrical Engineering, 2007, vol. 78, no. 11, pp. 621-627. DOI: 10.3103/S1068371207110120

Kryukov O.V. Automated electric drives for cooling systems with cooling towers [Avtomatizirovannyye elektroprivody dlya sistem okhlazhdeniya s ventilyatornymi gradirnyami], Kompressornaya tekhnika i pnevmatika [Compressor equipment and pneumatics], 2014, no.8, pp. 25-32. (in Russ.)

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

Kiyanov N.V., Kryukov O.V., Gorbatushkov A.V. i dr. Avtomatizirovannaya sistema regulirovaniya temperatury okhlazhdennoy vody elektroprivodom ventilyatornoy gradirni [Automated system for controlling the temperature of the chilled water electric fan cooling tower], Patent RU 65633, 2006. (in Russ.)

Kryukov O.V. Avtomatizirovannaya sistema regulirovaniya temperatury okhlazhdennoy vody elektroprivodom ventilyatornoy gradirni [Automated system for controlling the temperature of the chilled water electric fan cooling tower], Patent RU 122162, 2012. (in Russ.)

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 postroyeniya i ekspluatatsii sistem avtomatizatsii], Avtomatizatsiya v promyshlennosti [Automation of industry], 2012, no.2, pp. 38-47. (in Russ.)

Kryukov O.V. Electric drive systems in compressor stations with stochastic perturbations, Russian Electrical Engineering, 2013, vol. 84, pp. 135-138. DOI: 10.3103/S1068371213030085

Kiyanov N.V., Kryukov O.V. Automation control water system with cooling towers [Avtomatizatsiya upravleniya vodooborotnoy sistemoy s ventilyatornymi gradirnyami], Avtomatizatsiya. Sovremennyye tekhnologii [Automation. Modern technology], 2008, no.7, pp. 13-20. (in Russ.)

Zakharov P.A., Kryukov O.V. The invariance principle control of electric gas transmission systems under random perturbations [Printsipy invariantnogo upravleniya elektroprivodami gazotransportnykh sistem pri sluchaynykh vozmushcheniyakh], Vestnik Ivanovskogo gosudarstvennogo energeticheskogo universiteta [Bulletin of Ivanovo State Power University], 2008, no.2, pp. 98-103. (in Russ.)

Stepanov S.Ye., Kryukov O.V., Plekhov A.S. The principles of automatic control excitation of synchronous machines gas compressor stations [Printsipy avtomaticheskogo upravleniya vozbuzhdeniyem sinkhronnykh mashin gazokompressornykh stantsiy], Avtomatizatsiya v promyshlennosti [Automation of industry], 2010, no.6, pp. 29-31. (in Russ.)

Kryukov O.V. Built-in diagnostics and forecasting work asynchronous electric [Vstroyennaya sistema diagnostirovaniya i prognozirovaniya raboty asinkhronnykh elektro-privodov], Izvestiya VUZov. Elektromekhanika [Proceedings of the universities. Electromechanics], 2005, no.6, pp. 43-46. (in Russ.)

Milov V.R., Shalashov I.V., Kryukov O.V. Forecasting procedures and decision-making system maintenance and repair [Protsedury prognozirovaniya i prinyatiya resheniy sisteme tekhnicheskogo obsluzhivaniya i remonta], Avtomatizatsiya v promyshlennosti [Automation of industry], 2010, no.8, pp.47-49. (in Russ.)

Kryukov O.V., Stepanov S.Ye., Titov V.G. Embedded systems technical condition monitoring of electric energy security for the transport of gas [Vstroyennyye sistemy monitoringa tekhnicheskogo sostoyaniya elektroprivodov dlya energeticheskoy bezopasnosti transporta gaza], Energobezopasnost i energosberezheniye [Energy security and energy efficiency], 2012, no. 2, pp. 5-10. (in Russ.)

Kryukov O.V. Intelligent actuators with IT-algorithms [Intellektualnyye elektroprivody s IT-algoritmami], Avtomatizatsiya v promyshlennosti [Automation of industry], 2008, no. 6, pp. 36-39. (in Russ.)

Kryukov O.V. The automated system of energy-saving control water system with cooling towers [Avtomatizirovannaya sistema energo-sberegayushchego upravleniya vodooborotnymi sistemami s gradirnyami], Gazovaya promyshlennost [Gas industry], 2011, no. 8, pp. 90-94. (in Russ.)

Milov V.R., Suslov B.A., Kryukov O.V. Intellectual management decision support in gas industry, Automation and Remote Control, 2011, vol. 2, no. 5, pp. 1095-1101. DOI: 10.1134/S0005117911050183

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. Regression algorithms invariant control of electric drives of stochastic perturbations [Regressionnyye algoritmy invariantnogo upravleniya elektroprivodami pri stokhasticheskikh vozmushcheniyakh], Elektrichestvo [Electricity], 2008, no. 9, pp.44-50. (in Russ.)

Zakharov P.A., Kryukov O.V. The methodology of the invariant control units of compressor stations at random actions [Metodologiya invariantnogo upravleniya agregatami kompressornykh stantsiy pri sluchaynykh vozdeystviyakh], Izvestiya VUZov. Elektromekhanika [Proceedings of the universities. Electromechanics], 2009, no. 5, pp. 64-70. (in Russ.)

Kryukov O.V. Applications of the theory of experiment planning for invariant object gas transmission systems [Prikladnyye zadachi teorii planirovaniya eksperimenta dlya invariantnykh obyektov ga-zotransportnykh system], Identifikatsiya sistem i zadachi upravleniya: trudy IX Mezhdunarodnoy konferentsii [Proc. of the IX International Conference “System Identification and Control Problems”], 2012, pp. 222-236. (in Russ.)

Kryukov O.V. Modeling and microprocessor implementationof electromechanical systems, Russian Internet Journal of Electrical Engineering, 2015, vol. 2, no. 3, pp. 55-61. (in Russ.). DOI: 10.24892/RIJEE/20150309

Kryukov O.V., Gorbatushkov A.V., Stepanov S.Ye. [Printsipy postroyeniya invariantnykh elektroprivodov energeticheskikh obyektov], Avtomatizirovannyy elektroprivod i promyshlennaya elektronika: trudy IV Vserossiyskoy nauchno-prakticheskoy konferentsii [Proc. of IV All-Russian scientific-practical conference “Automatic electric drive and industrial electronics”], Novokuznetsk, 2010, pp. 38-45. (in Russ.)

Kryukov O.V. Strategy invariant control systems of electric facilities of OAO "Gazprom" [Strategii invariantnykh sistem upravleniya elektroprivodami obyektov OAO “Gazprom”], Identifikatsiya sistem i zadachi upravleniya: trudy Mezhdunarodnoy konferentsii [Proc. of the International Conference “System Identification and Control Problems”], Moscow, Institut problem upravleniya im. V.A. Trapeznikova, 2015, pp. 368-386. (in Russ.)

Kryukov O.V. Features invariant control of electric drives of stochastic perturbations [Osobennosti invariantnogo upravleniya elektroprivodami pri stokhasticheskikh vozmushcheniyakh], Upravleniye i informatsionnyye tekhnologii: materialy 6 nauchnoy konferentsii UIT-2010 [Proc. of the 6th conference “Control and Information Technology”], St. Petersburg, JSC “Concern “CRI “Electric appliance”, 2010, pp. 163-166. (in Russ.)

Kryukov O.V. Intelligent electric drives with IT algorithms, Automation and Remote Control, 2013, vol. 74, no. 6, pp. 1043-1048. DOI: 10.1134/S0005117913060143

Kiyanov N.V., Kryukov O.V., Pribytkov D.N., Gorbatushkov A.V. Concept development for the invariant automated electric water circulation systems with cooling towers [Kontseptsiya razrabotki invariantnykh avtomatizirovannykh elektroprivodov dlya vodooborotnykh sistem s ventilyatornymi gradirnyami], Elektrotekhnika [Electrical Engineering], 2007, no. 11, pp. 62-67. (in Russ.). DOI: 10.3103/S1068371207110120

Kiyanov N.V., Kryukov O.V., Pribytkov D.N. Automation projects cooling towers [Proyekty avtomatizatsii ventilyatornykh gradiren], Sovremennyye tekhnologii avtomatizatsii [Modern automation technology], 2007, no. 2, pp. 6-10. (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/20140207

Kryukov O.V. Automation of water circulation cooling systems with cooling towers for the chemical and petrochemical industries [Avtomatizatsiya vodooborotnykh sistem okhlazhdeniya s ventilyatornymi gradirnyami dlya khimicheskikh i neftekhimicheskikh proizvodstv], Khimicheskaya tekhnika [Chemical engineering], 2014, no. 10, pp. 24-31. (in Russ.)

Kryukov O.V. Energy-saving electric air coolers oil [Avtomatizatsiya vodooborotnykh sistem okhlazhdeniya s ventilyatornymi gradirnyami dlya khimicheskikh i neftekhimicheskikh proizvodstv], Khimicheskaya tekhnika [Chemical engineering], 2014, no. 11, pp. 34-42. (in Russ.)

Kiyanov N.V., Kryukov O.V. Use of automated control systems for water circulation systems in metallurgical production [Primeneniye ASU vodooborotnymi sistemami v metallurgi cheskikh proizvodstvakh], Avtomatizatsiya v promyshlennosti [Automation of industry], 2009, no. 8, pp. 63-66. (in Russ.)

Zakharov P.A., Kiyanov N.V., Kryukov O.V. Systems of automation systems for the efficient transport of gas [Sistemy avtomatizatsii tekhnologicheskikh ustanovok dlya effektivnogo transporta gaza], Avtomatizatsiya v promyshlennosti [Automation of industry], 2008, no. 6, pp. 6-10. (in Russ.)

Kryukov O.V., Titov V.V. Development of the automated control systems of autonomous wind power plant [Razrabotka ASU avtonomnymi vetroenergeticheskimi ustanovkami], Avtomatizatsiya v promyshlennosti [Automation of industry], 2009, no. 4, pp.35-37. (in Russ.)

Kryukov O.V. Frequency control performance of electrically driven gas pumping units [Chastotnoye regulirovaniye proizvodi-telnosti elektroprivodnykh gazoperekachivayushchikh agregatov], Elektrooborudovaniye: ekspluatatsiya i remont [Electric equipment: operation and repair], 2014, no. 6, pp. 39-43. (in Russ.)

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. Optimal control of the process gas trunkline [Optimalnoye upravleniye tekhnologicheskim protsessom magistralnogo transporta gaza], Sbornik trudov XII Vserossiyskoye soveshchaniye po problemam upravleniya [Proc. of the XII All-Russian conference on control problems], Moscow, Institut problem upravleniya RAN, 2014, pp. 4602-4613. (in Russ.)

Kryukov O.V., Stepanov S.Ye., Bychkov Ye.V. Invariant of technologically connected actuators of trunk gas pipelines [Invariantnyye sistemy tekhnologicheski svyazannykh elektroprivodov obyektov magistralnykh gazoprovodov], Trudy VIII Mezhdunarodnoy (XIX Vserossiyskoy) konferentsii po avtomatizirovannomu elektroprivodu [Proc. of the VIII International (XIX All-Russian) Conference on automated electric drive], 2014, pp. 409-414. (in Russ.)

Kryukov O.V. Synthesis and analysis of electric drive units of compressor stations at stochastic perturbations [Sintez i analiz elektroprivodnykh agregatov kompressornykh stantsiy pri stokhasticheskikh vozmushcheniyakh], Elektrotekhnika [Electrical Engineering], 2013, no. 3, pp. 22-27. (in Russ.). DOI: 10.3103/S1068371213030085

Kryukov О.V. Work optimization of technologically interconnected gas compressor units’ electric drives of compressor stations, Russian Internet Journal of Electrical Engineering, 2014, vol. 1, no. 2, pp. 26-31. (in Russ.). DOI: 10.24892/RIJEE/20140206