Modal Analysis Turboshaft Test Stand Motor Designed by Using ANSYS

Hasanlu, Mojtaba; Mirhosseini, Seyyed GholamReza; Sadeghzadeh, Mahmoud; Bagheri, Ahmad

Modal Analysis Turboshaft Test Stand Motor Designed by Using ANSYS

Document Type: Persian

Authors

¹ دانشگاه گیلان

² دانشگاه ماتی مسکو

³ دانشگاه علم و صنعت ایران

Abstract

Today, modeling is critical for cognition and analysis of designers in industry field to meet their needs and design based on design requirements and available facilities to accelerate production and development of components of industrial engines. In this study, one structure has been proposed, designed, and analyzed based on turboshaft marine engine type to test this kind of engine in order to use in reality and to meet needs. Analysis conducted on the structure in ANSYS based on turboshaft engine dynamic effects on the structure. At the end of the study, these are exibited mode shapes and natural frequencies of the structure.Today, modeling is critical for cognition and analysis of designers in industry field to meet their needs and design based on design requirements and available facilities to accelerate production and development of components of industrial engines. At the end of the study, these are exibited mode shapes and natural frequencies of the structure.Today, modeling is critical for cognition and analysis of designers in industry field to meet their needs and design based on design requirements and available facilities to accelerate production and development of components of industrial engines.

Keywords

References

[1] Loccioni, Amber Electric Motors Vibro-Accoustic and Functional Testing System, [Brochure], Italy, Angeli di Rosora, Ancona.

[2] IMC, Modularly Expandable EC-Motor Test Stand for Driving Dynamic and Steering System Components, [Application Note], Berlin, Germany.

[3] M.Wang, P.Danzl, C.Larish, V.Mahulkar, D.Piyab Ongkan, P.Brenner, A Hydraulic Test Stand for demonstrating to operation of Eaton’s Energy Recovery System (ERS), Eaton Corporation, 7945 Wallace Road Eden Praire, MN, 55344, 10^th International Fluid Power Conference, Dresden, 2016.

[4] B.Kozik, G.Budzik, M.Cieplak, Universal Test Stand for Research of Aeronautical Multi-Power Path Gear Demonstrators, Journal of KONES Power Train and Transport, Vol.19,No.3, 3, 2012.

[5] TEST-FUCHS GmbH/Test Fuchs Strasse 1-51, A-3812 Gross-Siegharts, Motors Spindle Test Stand, [Brochure], Germany.

[6] Phenix Technology, Water Brake Dynamometers Test Stand, [Brochure], USA.

[7] S.R.Harrington, Multiple Electrical Motor Test Stand, National Technical Systems Test System Integration, Albuquerque NM 87113, 505-345-9499.

[8]Koller Solutions Machinen-und Anglagenbau GmbH, Test Stand for Downhole Motors, [Brochure], Celle, Germany.

[9] Southwest Research Institute, Mud Motor and Top Drive Drawer 28510, San Antonio, Texas 78228-0510.

[10] Kistler Group, Test Stand System for Electrical Motors and Gearing at Laboratory (R&D) Production (EOL) and Quality Assurance (QA), [brochure], S.I.Instrument, 256 Sout Rd.Hilton Sout Australia 5033 Ph(08)8352 5511.

[11] http://en.avia.pro/blog/oao-klimov.[12]https://commons.wikimedia.org/wiki/File:Klimov_VK-1_jet_engine_from_MiG-15bis_(c-n_1B01524)_front_3-4_view_starboard_side.jpg.

[13]https://en.wikipedia.org/wiki/Turboshaft

[14]http://www.turbokart.com/about_pw100.htm

[15]http://www.aviationexplorer.com/Aircraft_Engines.html.

[16]http://freemansgarage.com/blog/?p=117 [17]http://www.helifreak.com/showthread.php?t=742103

]18[ جمشیدی نیما، آموزش طراحی اجزا، و مقاومت مصالح به کمک نرمافزار ANSYS، بهاره جوانبخت،انتشارات نشر آفرنگ، چاپ پنجم، زمستان 92، ISBN: 978-600-5060-01-0.

]19[ محمودزاده کنی ایرج، وزیری آستانه علی، روش اجزاء محدود در تحلیل ارتعاشات، انتشارات دانشگاه تهران، 1390، ISBN:978-964-03-6257-0