Elaboration of new methods for noise mapping of ducted axial fans  Page description

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Details of project

 
Identifier
129023
Type K
Principal investigator Vad, János
Title in Hungarian Új módszerek kidolgozása csőbe épített axiális ventilátorok zajának feltérképezésében
Title in English Elaboration of new methods for noise mapping of ducted axial fans
Keywords in Hungarian axiális csőventilátor, kis Reynolds-számú ventilátor, klaszterezés, mikrofontömb, numerikus aeroakusztika, nyalábformálás, zajcsökkentés
Keywords in English ducted axial fan, low-Reynolds-number fan, clustering, phased array microphone, computational aeroacoustics, beamforming, noise reduction
Discipline
Flow and Thermal Technology (Council of Physical Sciences)100 %
Ortelius classification: Thermal engineering
Panel Engineering, Metallurgy, Architecture and Transport Sciences
Department or equivalent Department of Fluid Mechanics (Budapest University of Technology and Economics)
Participants Benedek, Tamás
Horváth, Csaba
Istók, Balázs
Lendvai, Bálint
Tóth, Bence
Starting date 2018-09-01
Closing date 2023-05-31
Funding (in million HUF) 26.091
FTE (full time equivalent) 5.75
state running project





 

Final report

 
Results in Hungarian
A projekt eredményei, melyek fokozott hatásfokú, mérsékelt zajú, megbízható új axiális ventilátorok ipari perspektíváit mutatják fel, az alábbiak. a) Kis Reynolds-számú ívelt lemezlapátok felhajtó- és ellenálláserő-tényezőit tartalmazó empirikus adatbázis megalapozása, aerodinamikai szempontból hatékony, versenyképes új ventilátorok tervezhetősége érdekében. b) Félempirikus modell kidolgozása a profil-örvényleváláshoz kötődő zaj és rezgés tervezési modellezésére. c) Egyszerű, de hatékony minimál-modell kifejlesztése a lapátnyomokra és terjedésükre: a lapátrácsok egymásra hatásának, és az ehhez kötődő tonális zaj sávkiszélesedésének tervezésben történő jellemzésére; valamint az örvénymozgás leírására, az örvényzaj tervezési modellezésének támogatása érdekében. d) Hatékony és gazdaságos megoldások kifejlesztése csőbe épített ventilátorok gyűrű alakú mikrofontömb-elrendezéseire és nyalábformálási módszereire, eset-specifikus, testreszabott zajforrás-tanulmányok és zajcsökkentési tesztek érdekében. e) Az akusztikailag átlátszó „vizsgáld a csövön keresztül” elrendezés kísérleti adatbázisának kiterjesztése: csövön belüli mikrofontömbös vizsgálatok, valamint az Ipar 4.0-ban alkalmazandó ventilátor-állapotfelügyelet támogatására. f) Mérési és számítási adatok feldolgozási és kiértékelési technikáinak továbbfejlesztése, a keskeny- és szélessávú ventilátor zajforrások mélyebb megértése és osztályozása, valamint az áramlási jelenségekkel való kapcsolataik feltárása érdekében.
Results in English
The results of the project, offering industrial perspectives toward new, high-efficiency, low-noise, reliable axial fans, are as follows. a) Establishment of an empirical database on the lift and drag of low-Reynolds-number cambered plate blades; enabling the design of aerodynamically efficient, competitive new fans. b) Elaboration of a semi-empirical model; as a design tool for consideration of dominant frequency of fan noise and blade vibration caused by profile vortex shedding. c) Development of a minimal model for the blade wakes and their dispersion; for straightforward but effective design characterisation of blade row interaction as well as frequency broadening of the related tonal noise; and for description of vortex motion, enabling the design modelling of vortex-induced noise. d) Development of effective and economical solutions for annular phased array microphone (PAM) installations and beamforming methods, for case-specific, comprehensive examination of noise sources, and for testing noise-reducing methods, in ducted fans. e) Expanding the experimental database on the acoustically transparent „observe-through-a-duct” layout, serving as a means for in-duct PAM studies, and for fan condition monitoring in Industry 4.0 applications. f) Elaboration of advanced processing and evaluation techniques on experimental and computational data, for deeper comprehension of narrow- and broadband acoustic sources of fans, and for discovering their relationships to flow phenomena.
Full text https://www.otka-palyazat.hu/download.php?type=zarobeszamolo&projektid=129023
Decision
Yes





 

List of publications

 
BALLA Esztella, VAD János: An empirical model to determine lift and drag coefficients of cambered plates at moderate Reynolds numbers, Proceedings of the IMechE - Part A: Journal of Power and Energy, Vol. 235(2), pp. 202-210., 2021
BALLA, Esztella, VAD, János: Models for estimation of lift and drag coefficients for low-Reynolds-number cambered plates, AIAA Journal, vol. 60, no. 12, pp. 6620–6632., 2022
DAKU, Gábor, VAD, János: Preliminary design guidelines for considering the vibration and noise of low-speed axial fans due to profile vortex shedding, International Journal of Turbomachinery, Propulsion and Power, 7(1: 2), 23 p., 2022
ROMASZ Ádám, TOKAJI Kristóf, HORVÁTH Csaba: The investigation of counter-rotating turbomachinery broadband noise sources as a function of rotational speed, Conference on Modelling Fluid Flow (CMFF’22), Budapest, Hungary, August 30 -September 2 2022, Paper ID: CMFF22-030. 9 p., 2022
TÓTH, Dominik, VAD, János: Industry 4.0 perspectives of axial and radial fans in smart industrial ventilation: conceptual case studies, Conference on Modelling Fluid Flow (CMFF’22), Budapest, Hungary, August 30 -September 2 2022, Paper ID: CMFF22-040. 15 p., 2022
FERENCZY, Péter, BALLA, Esztella, BENEDEK, Tamás, DAKU, Gábor, KOCSIS, Bálint, KÓNYA, Antal, VAD, János: Development of a radial flow fan family for contaminated gases of relatively high flow rate, Conference on Modelling Fluid Flow (CMFF’22), Budapest, Hungary, August 30 -September 2 2022, Paper ID: CMFF22-048. 12 p., 2022
LENDVAI, Bálint, BENEDEK, Tamás: Study on the effect of sudden duct diameter change on the performance of an axial flow fan, Conference on Modelling Fluid Flow (CMFF’22), Budapest, Hungary, August 30 -September 2 2022, pp. 504-511., 2022
LENDVAI, Bálint, BENEDEK, Tamás, BALLA, Esztella: Aeroacoustic investigation of airfoil profiles in turbulence at moderate Reynolds numbers involving the phased array microphone technique and the ANOVA statistical method, Fluctuation and Noise Letters (under review), 2023
KOCSIS Bálint, HORVÁTH Csaba: Rotating beamforming with asynchronous phased microphone array measurements, Mechanical Systems and Signal Processing Journal (under review), 2023
DAKU, Gábor, VAD, János: Preliminary design guidelines for considering the vibration and noise of low-speed axial fans due to profile vortex shedding, International Journal of Turbomachinery, Propulsion and Power, 7(1: 2), 23 p., 2022
DAKU, Gábor, VAD, János: A comprehensive analytical model for vortex shedding from low-speed axial fan blades, ASME 2022 TURBO EXPO, Turbomachinery Technical Conference & Exposition, June 13-17, 2022, Rotterdam, The Netherlands, Paper # GT2022-80190, 13 p., 2022
BALLA, Esztella, VAD, János: Models for estimation of lift and drag coefficients for low-Reynolds-number cambered plates, AIAA Journal, Article in advance, 13 p., 2022
LENDVAI Bálint; BENEDEK Tamás: Computational Aeroacoustic Investigation of Airfoil Cascades, Periodica Polytechnica Mechanical Engineering, Vol. 64(4), pp. 279-288., 2020
TOKAJI Kristóf, SOÓS Bálint, HORVÁTH Csaba: Koaxiális forgógép keskenysávú zaj vizsgálatára alkalmas módszer fejlesztése, Tavaszi Szél 2020 Konferenciakötet, Budapest, 2020.10.16, pp. 781-793, 2020
DAKU Gábor, VAD János: Profile vortex shedding from low-speed axial fan rotor blades: a modelling overview, Proceedings of the IMechE, Part A: Journal of Power and Energy, Vol. 236(2), pp. 349-363., 2021
LENDVAI, Bálint, BENEDEK, Tamás, BALLA, Esztella: Aeroacoustic investigation of airfoil profiles in turbulence at moderate Reynolds numbers involving the phased array microphone technique and the ANOVA statistical method, Fluctuation and Noise Letters, Vol. 22, No. 03. 13 p., 2023
DAKU, Gábor, VAD, János: A comprehensive analytical model for vortex shedding from low-speed axial fan blades, Journal of Turbomachinery - Transactions of the ASME, 145(7), 11 p., 2023
LENDVAI, Bálint, BENEDEK, Tamás: Phased array microphone measurement of a ducted low-speed axial flow fan at various operating points with the involvement of the acoustically transparent duct technique, International Journal of Aeroacoustics (accepted), 14 p., 2023
LENDVAI, Bálint, BENEDEK, Tamás: Experimental and numerical investigation of the blade tip related aeroacoustic sound source mechanisms of a ducted low-speed axial flow fan, Applied Acoustics (under review), 18 p., 2023
LENDVAI, Bálint, BENEDEK, Tamás: Application of a vortex identification method for quantifying the tip leakage vortex wandering in a low-speed axial fan case study, Proceedings of 15th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics (ETC15), April 24-28 2023, Budapest, Hungary, paper ID: ETC2023-231. 12 p., 2023
Kocsis, B., Benedek, T., Ferenczy, P., Balla, E., Daku, G., Vad, J.: Aerodynamic and acoustic studies on a radial fan family developed for increased specific flow rate of dust-laden gases, Proc. 15th European Turbomachinery Conference (ETC15), Budapest, Hungary. Paper No. ETC2023-126. 15 p., 2023
Tóth, D., Divinyi-Zsoldos, T., Lendvai, B., Vad, J.: Preliminary case studies to acoustics-based condition monitoring of industrial fans, Proc. 15th European Turbomachinery Conference (ETC15), Budapest, Hungary. Paper No. ETC2023-123. 15 p., 2023
Vad, J., Tóth, D.: Smart ventilation serving for smart factories: challenges and perspectives. Outline of ETC15 Workshop WS1., Proc. 15th European Turbomachinery Conference (ETC15), Budapest, Hungary. Paper No. ETC2023-WS1. 4 p., 2023
FENYVESI Bence; KRIEGSEIS Jochen; HORVÁTH Csaba: An automated method for the identification of interaction tone noise sources on the beamforming maps of counter-rotating rotors, Physics of Fluids 34, 047105, 16 p., 2022
BENEDEK Tamás, VAD János, LENDVAI Bálint: Combined acoustic and aerodynamic investigation of the effect of inlet geometry on tip leakage flow noise of free-inlet free-exhaust low-speed axial flow fans, Applied Acoustics, 187 (2022) 108488, 15 p., 2022
Haitian ZHANG, Bálint KOCSIS, Csaba HORVÁTH: Segmented ROSI method: beamforming method for investigating turbomachinery noise sources along segmented trajectories, Noise Control Engineering Journal, 70(1), pp. 62-76., 2022
Bence FENYVESI, Csaba HORVÁTH: Identification of turbomachinery noise sources via processing beamforming data using principal component analysis, Periodica Polytechnica Mechanical Engineering, 66(1), pp. 32–50, 2022
TOKAJI Kristóf, SOÓS Bálint, HORVÁTH Csaba: Koaxiális forgógép zajvizsgálati módszereinek továbbfejlesztése és alkalmazása mérési eredményekre, Tavaszi Szél 2021 Konferenciakötet, 2021.05.28., pp. 167-180., 2021
TOKAJI Kristóf, HORVÁTH Csaba: Effect of a pylon on the broadband noise sources of counter-rotating turbomachinery, International Journal of Aeroacoustics, 20(8), pp. 979–1002, 2021
Haitian ZHANG, Bálint KOCSIS, Csaba HORVÁTH: Segmented ROSI method: beamforming method for investigating turbomachinery noise sources along segmented trajectories, Noise Control Engineering Journal, under review, 2021
Bence FENYVESI, Csaba HORVÁTH: Identification of turbomachinery noise sources via processing beamforming data using principal component analysis, Periodica Polytechnica Mechanical Engineering, accepted, 2021
TOKAJI Kristóf, SOÓS Bálint, HORVÁTH Csaba: Koaxiális forgógép szélessávú zaj vizsgálatára alkalmas módszer fejlesztése, Tavaszi Szél 2020 Konferenciakötet, Budapest, 2020.10.16, pp. 672-684, 2020
TOKAJI Kristóf, SOÓS Bálint, HORVÁTH Csaba: Koaxiális forgógép keskenysávú zaj vizsgálatára alkalmas módszer fejlesztése, Tavaszi Szél 2020 Konferenciakötet, Budapest, 2020.10.16, pp. 781-493, 2020
TOKAJI Kristóf, SOÓS Bálint, HORVÁTH Csaba: Koaxiális forgógép zajvizsgálati módszereinek továbbfejlesztése és alkalmazása mérési eredményekre, Tavaszi Szél 2021 Konferenciakötet, 2021.05.28., accepted, 2021
TOKAJI Kristóf, HORVÁTH Csaba: Effect of a pylon on the broadband noise sources of counter-rotating turbomachinery, International Journal of Aeroacoustics, Major revision, 2021
FENYVESI Bence, HORVÁTH Csaba: Forgógépek modellezett zajforrásainak vizsgálata dekompozíciós módszer segítségével, Tavaszi Szél 2021 Konferenciakötet, 2021.05.28., accepted, 2021
DAKU Gábor, VAD János: Experiment-based preliminary design guidelines for consideration of profile vortex shedding from low-speed axial fan blades, Journal of Turbomachinery - Transactions of the ASME, 143(6), 10 p., 2021
DAKU Gábor, VAD János: Profile vortex shedding from low-speed axial fan rotor blades: a modelling overview, Proceedings of the IMechE, Part A: Journal of Power and Energy, 2021 (OnlineFirst), 2021
TÓTH Bence Mihály: Algorithmic methods for evaluating axial fan beamforming maps, PhD Thesis, Department of Fluid Mechanics, Faculty of Mechanical Engineering, Budapest University of Technology and Economics, 2019
BENEDEK Tamás; VAD János: Beamforming based extension of semi-empirical noise modelling for low-speed axial flow fans, Journal of Sound and Vibration, Paper ID: JSV-D-19-01559 (under review), 2019
BALLA Esztella, VAD János: An empirical model to determine lift and drag coefficients of cambered plates at moderate Reynolds numbers, Proceedings of the IMechE - Part A: Journal of Power and Energy, Paper ID: JPE-19-0317 (under review), 2019
DAKU Gábor, VAD János: Experiment-based preliminary design guidelines for consideration of profile vortex shedding from low-speed axial fan blades, ASME 2020 TURBO EXPO, Turbomachinery Technical Conference & Exposition, June 22 – 26, 2020, London, England, Paper ID: 1596 (abstract submitted), 2020
BENEDEK Tamás; VAD János: Beamforming based extension of semi-empirical noise modelling for low-speed axial flow fans, Applied Acoustics, Paper ID: APAC_2020_103 (under review), 2020
BALLA Esztella, VAD János: An empirical model to determine lift and drag coefficients of cambered plates at moderate Reynolds numbers, Proceedings of the IMechE - Part A: Journal of Power and Energy; online first; DOI: 10.1177/0957650920915317; 9 p., 2020
DAKU Gábor, VAD János: Experiment-based preliminary design guidelines for consideration of profile vortex shedding from low-speed axial fan blades, ASME 2020 TURBO EXPO, Turbomachinery Technical Conference & Exposition, 21-25 September 2020, online conference, Paper # GT2020-14214, 12 p., 2020
KOCSIS Bálint, HORVÁTH Csaba: Investigating the ROSI and the VRA algorithms regarding their capability in localizing rotating coherent noise sources; Paper ID: BeBeC-2020-D14; 21 p., 8th Berlin Beamforming Conference (BeBeC 2020), 2020
ZHANG Haitian, KOCSIS Bálint, HORVÁTH Csaba: Further development of the ROSI beamforming method for the investigation of turbomachinery investigated at an angle; Paper ID: BeBeC-2020-D13; 14 p., 8th Berlin Beamforming Conference (BeBeC 2020), 2020
BALLA Esztella, VAD János: A Laplacian filtering-based technique to localize vortex shedding noise in a strongly contaminated environment, 8th Berlin Beamforming Conference (BeBeC 2020), Paper ID: BeBeC-2020-D12, 19 p., 2020
BALLA Esztella: Aerodynamic and aeroacoustic behavior of axial fan blade sections at low Reynolds numbers, PhD Thesis, Department of Fluid Mechanics, Faculty of Mechanical Engineering, Budapest University of Technology and Economics, 2020
BALLA Esztella, VAD János: Refinement of a semi-empirical method for the estimation of profile vortex shedding frequency from low-speed axial fan blade sections, 14th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics (ETC'14), 12-16 April 2021, Gdansk, Poland, Paper ID: ETC2021-591, 2021
DAKU Gábor, VAD János: Semi-empirical design guidelines for controlling the vibration and noise of low-speed axial fans due to profile vortex shedding, 14th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics (ETC'14), 12-16 April 2021, Gdansk, Poland, Paper ID: ETC2021-546, 2021
TOKAJI Kristóf, SOÓS Bálint, HORVÁTH Csaba: Beamforming Method for Extracting the Broadband Noise Sources of Counter-Rotating Open Rotors, AIAA Journal, Vol. 58, No. 7, pp. 3028-3039, 2020
FENYVESI Bence, HORVÁTH Csaba: Forgógépek modellezett zajforrásainak vizsgálata dekompozíciós módszer segítségével, XXIII. Tavaszi Szél Konferencia, 2020. október 16., 12 p., 2020
FENYVESI Bence; KRIEGSEIS Jochen; HORVÁTH Csaba: Identification of Turbomachinery Noise Sources via Combining Beamforming and Proper Orthogonal Decomposition, AIAA Journal (under review), 2020
LENDVAI Bálint; BENEDEK Tamás: Computational Aeroacoustic Investigation of Airfoil Cascades, Periodica Polytechnica Mechanical Engineering, Paper ID: 15630, published online; DOI: https://doi.org/10.3311/PPme.15630; 10 p., 2020
BALLA Esztella, VAD János: Refinement of a semi-empirical method for the estimation of profile vortex shedding frequency from low-speed axial fan blade sections, 14th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics (ETC'14), 12-16 April 2021, Gdansk, Poland, Paper ID: ETC2021-591, 10 p., 2021
DAKU Gábor, VAD János: Semi-empirical design guidelines for controlling the vibration and noise of low-speed axial fans due to profile vortex shedding, 14th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics (ETC'14), 12-16 April 2021, Gdansk, Poland, Paper ID: ETC2021-546, 14 p., 2021
BENEDEK Tamás, VAD János: Beamforming based extension of semi-empirical noise modelling for low-speed axial flow fans, Applied Acoustics, 2021
BENEDEK Tamás, VAD János, LENDVAI Bálint: Combined acoustic and aerodynamic investigation of the effect of inlet geometry on tip leakage flow noise of axial flow fans, Applied Acoustics, Paper ID: APAC-D-21-00402, under minor revision, 2021
BENEDEK Tamás, VAD János: Beamforming based extension of semi-empirical noise modelling for low-speed axial flow fans, Applied Acoustics, Vol. 178, 13 p., 2021





 

Events of the project

 
2023-02-13 14:46:53
Résztvevők változása
2021-10-21 14:42:13
Résztvevők változása




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