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The development of an air injection system for the forced response testing of axial compressors

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dc.contributor.author Wegman, Erik J
dc.contributor.author Snedden, Glen C
dc.contributor.author Holzinger, F
dc.contributor.author Schiffer, HP
dc.contributor.author Van der Spuy, SJ
dc.contributor.author Mårtensson, H
dc.contributor.author Ostlund, J
dc.date.accessioned 2014-05-16T11:36:44Z
dc.date.available 2014-05-16T11:36:44Z
dc.date.issued 2013-06
dc.identifier.citation Wegman, E, Snedden, GC, Holzinger, F, Schiffer, H.P, Van der Spuy, S.J, Mårtensson, H and Ostlund, J. 2013. The development of an air injection system for the forced response testing of axial compressors. In: Proceedings of ASME Turbo Expo 2013: Power for Land, Sea and Air: GT2013, San Antonio, Texas, USA, 3-7 June 2013 en_US
dc.identifier.uri http://proceedings.asmedigitalcollection.asme.org/proceeding.aspx?articleid=1776822
dc.identifier.uri http://hdl.handle.net/10204/7414
dc.description Proceedings of ASME Turbo Expo 2013: Power for Land, Sea and Air: GT2013, San Antonio, Texas, USA, 3-7 June 2013 en_US
dc.description.abstract A phase-controllable, air injection exciter system was developed to enable measurement of the forced response properties of a transonic axial compressor blisk. The project was performed as part of the FP7 European framework program project FUTURE. The eventual aim of this project is to improve existing turbomachinery blade flutter prediction methods. The development and manufacturing of the exciter system was performed by the Council for Scientific and Industrial Research (CSIR) in Pretoria, South Africa. The exciter system consists of 15 air injectors, each with its own servo motor and controller. The injectors consist of a small rotating disc with a specific number of holes equispaced around the periphery rotating within a pressurised volume. When the holes are rotated, using a servo motor, past an exit tube an air pulse is generated that is injected upstream of the compressor. The controllers enable adjustment of the relative phase angle between the exciters. In this way a pattern that resembles different nodal diameters can be excited on the rotor blisk. Once the construction of the system was completed, it was transferred to Stellenbosch University for sub-scale testing on a low speed compressor. The purpose of the sub-scale tests was to commission and verify the operation of the exciter system. The tests started with simple in-phase tests and then worked towards more complex test parameters that included frequency sweeps through the natural frequency of the compressor blades. The tests showed that it is possible to generate a blade response of different nodal diameters using the exciters. The blade response was also found to vary depending on the number of rotor holes, air supply pressure and sweep rate used for the exciters. Following completion of the sub-scale tests, the completed system was transferred to the transonic compressor test facility of the Technical University Darmstädt (TUD) where both free flutter and forced response experiments were performed on a purpose designed blisk in the transonic compressor test rig. The experimental campaign was successfully completed with the forced response experiments showing that the air injection system could be used to measure the response characteristics of the blisk. en_US
dc.language.iso en en_US
dc.publisher ASME en_US
dc.relation.ispartofseries Workflow;12640
dc.subject Turbomachineries en_US
dc.subject Exciter system en_US
dc.subject Axial compressors en_US
dc.subject Aerospace Engine Systems en_US
dc.subject Low speed compressors en_US
dc.title The development of an air injection system for the forced response testing of axial compressors en_US
dc.type Conference Presentation en_US
dc.identifier.apacitation Wegman, E. J., Snedden, G. C., Holzinger, F., Schiffer, H., Van der Spuy, S., Mårtensson, H., & Ostlund, J. (2013). The development of an air injection system for the forced response testing of axial compressors. ASME. http://hdl.handle.net/10204/7414 en_ZA
dc.identifier.chicagocitation Wegman, Erik J, Glen C Snedden, F Holzinger, HP Schiffer, SJ Van der Spuy, H Mårtensson, and J Ostlund. "The development of an air injection system for the forced response testing of axial compressors." (2013): http://hdl.handle.net/10204/7414 en_ZA
dc.identifier.vancouvercitation Wegman EJ, Snedden GC, Holzinger F, Schiffer H, Van der Spuy S, Mårtensson H, et al, The development of an air injection system for the forced response testing of axial compressors; ASME; 2013. http://hdl.handle.net/10204/7414 . en_ZA
dc.identifier.ris TY - Conference Presentation AU - Wegman, Erik J AU - Snedden, Glen C AU - Holzinger, F AU - Schiffer, HP AU - Van der Spuy, SJ AU - Mårtensson, H AU - Ostlund, J AB - A phase-controllable, air injection exciter system was developed to enable measurement of the forced response properties of a transonic axial compressor blisk. The project was performed as part of the FP7 European framework program project FUTURE. The eventual aim of this project is to improve existing turbomachinery blade flutter prediction methods. The development and manufacturing of the exciter system was performed by the Council for Scientific and Industrial Research (CSIR) in Pretoria, South Africa. The exciter system consists of 15 air injectors, each with its own servo motor and controller. The injectors consist of a small rotating disc with a specific number of holes equispaced around the periphery rotating within a pressurised volume. When the holes are rotated, using a servo motor, past an exit tube an air pulse is generated that is injected upstream of the compressor. The controllers enable adjustment of the relative phase angle between the exciters. In this way a pattern that resembles different nodal diameters can be excited on the rotor blisk. Once the construction of the system was completed, it was transferred to Stellenbosch University for sub-scale testing on a low speed compressor. The purpose of the sub-scale tests was to commission and verify the operation of the exciter system. The tests started with simple in-phase tests and then worked towards more complex test parameters that included frequency sweeps through the natural frequency of the compressor blades. The tests showed that it is possible to generate a blade response of different nodal diameters using the exciters. The blade response was also found to vary depending on the number of rotor holes, air supply pressure and sweep rate used for the exciters. Following completion of the sub-scale tests, the completed system was transferred to the transonic compressor test facility of the Technical University Darmstädt (TUD) where both free flutter and forced response experiments were performed on a purpose designed blisk in the transonic compressor test rig. The experimental campaign was successfully completed with the forced response experiments showing that the air injection system could be used to measure the response characteristics of the blisk. DA - 2013-06 DB - ResearchSpace DP - CSIR KW - Turbomachineries KW - Exciter system KW - Axial compressors KW - Aerospace Engine Systems KW - Low speed compressors LK - https://researchspace.csir.co.za PY - 2013 T1 - The development of an air injection system for the forced response testing of axial compressors TI - The development of an air injection system for the forced response testing of axial compressors UR - http://hdl.handle.net/10204/7414 ER - en_ZA


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