VESTNIK of Samara University. Aerospace and Mechanical EngineeringVESTNIK of Samara University. Aerospace and Mechanical Engineering2542-04532541-7533Samara National Research University290610.18287/2412-7329-2015-14-3-454-459UnknownConversion of gas turbine engine oil systemBoevA. A.<p><span lang="EN-US">Design engineer</span></p>alex_boyev@mail.ruGrishanovO. A.<p>Head of Department</p>motor@kuznetsov-motors.ruJoint-Stock Company «KUZNETSOV»14122015143-24544591301201613012016Copyright © 2016, VESTNIK of the Samara State Aerospace University2016<p>The paper emphasizes the increasingly important role of gas turbines on the power generation and gas pumping market. One of the variants of manufacturing such power plants consists in the conversion of aircraft engines into industrial gas turbine drives. The authors review the advantages of this type of production. The paper describes the operating conditions of such gas turbines and major challenges encountered in designing oil systems for aeroderivatives of this type. Conservatism of aircraft engine developers does not make it possible to realize the changes in requirements to industrial power plants to the full extent, which results in imperfection of the oil system structure as it is re-designed for ground application. The paper presents the main trends in industrial gas turbine oil system development. Three levels of oil system conversion are defined: maximum (maximum possible application of the existing hardware, in which case achieving high gas turbine service life is impossible), medium (aircraft engine oil system components that do not significantly affect the engine life are partially preserved, while other components are re-designed for ground application), minimum (complete replacement of the oil system elements aimed at achieving the highest performance characteristics).</p>Gas turbine engineconversionoil systemlevels of conversionГазотурбинный двигательконвертированиемасляная системауровни конвертирования[1. Medvedev S.D., Falaleev S.V., Novikov D.K., Balyakin V.B. Povyshenie ekspluatatsionnoy nadezhnosti GPA razvitiem konvertirovannykh aviatsionnykh tekhnologiy [Increasing functional reliability of gas pumping units due to the development of converted aircraft technologies]. Samara: Samara State Aerospace University Publ., 2008. 371 p.][2. Tryanov A.E. Osobennosti konstruk-tsii uzlov i sistem aviatsionnykh dvigateley i energeticheskikh ustanovok [Design features of aircraft engine and gas turbine components and systems. Assembly units and systems: Study guide]. Samara: Samara State Aerospace University Publ., 2010. 203 p.][3. Boev A.A., Petrukhin A.G., Shklovets А.O. About Promising Method Supply Oil to Bearing of Gas Turbine Engine. Izvestiya Samarskogo nauchnogo tsentra RAN. 2013. V. 15, no. 6(4). P. 1022-1026. (In Russ.)]