Journal of Engineering and Applied Sciences
Year:
2017
Volume:
12
Issue:
9 SI
Page No.
8601 - 8606
References
Abalakin, I.V., V.A. Anikin, P.A. Bakhvalov, V.G. Bobkov and T.K. Kozubskaya, 2016. Numerical investigation of the aerodynamic and acoustical properties of a shrouded rotor. Fluid Dyn., 51: 419-433.
Direct Link | Arntzen, M., S.A. Rizzi, H.G. Visser and D.G. Simons, 2014. Framework for simulating aircraft flyover noise through nonstandard atmospheres. J. Aircr., 51: 956-966.
Direct Link | Block, P.J.W. and C.L.J. Gentry, 1986. Directivity and trends of noise generated by a propeller in a wake. NASA, Washington, D.C., USA.
Delfs, J.W., 2016. Simulation of aircraft installation noise a key to low noise aircraft design. Proceedings of the CEAA International Conference on Computational Experiment in Aeroacoustics, September 21-24, 2016, Keldysh Institute of Applied Mathematics, Moscow, Russia, pp: 7-11.
Dmitriev, V.G.E. and V.F. Samokhin, 2014. Complex of algorithms and programs for calculation of aircraft noise. TsAGI. Sci. J., 45: 367-388.
CrossRef | Direct Link | Gur, O. and A. Rosen, 2009. Multidisciplinary design optimization of a quiet propeller. Proceedings of the 14th and 29th AIAA/CEAS International Conference on Aeroacoustics, May, 5-7, 2009, Technion-Israel Institute of Technology, Haifa, Israel, pp: 3073-3073.
Gur, O. and A. Rosen, 2009. Optimization of propeller based propulsion system. J. Aircr., 46: 95-106.
Direct Link | Hanson, D.B., 1980. Influence of propeller design parameters on far-field harmonic noise in forward flight. AIAA. J., 18: 1313-1319.
Direct Link | Hubbard, H.H., 1991. Aeroacoustics of flight vehicles: Theory and practice. Master Thesis, Langley Research Center, Hampton, Virginia.
ICAO., 2011. Environmental protection: Annex 16 to the convention on internal civil aviation. International Civil Aviation Organization, Montreal, Canada.
Lefebvre, T., S. Canard, L.C. Tallec, P. Beaumier and F. David, 2010. ANIBAL: A new aeroacoustic optimized propeller for light aircraft applications. Proceedings of the 27th International Council on Congress of the Aeronautical Sciences Vol. 4, September 21-23, 2010, AIAA, Hilton Head, South Carolina, pp: 2705-2719.
Moshkov, P.A. and A.A. Yakovlev, 2014. Experimental research of effect of the nose-over of the engine on acoustical characteristics of the aviation piston power plant. Sci. Tech. Volga Region Bull., 6: 271-274.
Moshkov, P.A. and V.F. Samokhin, 2016. Effect of spacing between the pusher propeller and wing on environmental light aircraft noise. TsAGI. Sci. J., 47: 369-647.
CrossRef | Direct Link | Moshkov, P.A. and V.F. Samokhin, 2016. Evaluation of the influence of diameter propeller on the acoustics characteristic of the power plant by the light aircraft. Vestnik Sib. GAU., 17: 154-160.
Moshkov, P.A. and V.F. Samokhin, 2017. Evaluation of the influence of the number of blades and diameter on propeller noise. Vestnik Samara Univ. Aerosp. Mech. Eng., 15: 25-34.
CrossRef | Moshkov, P.A., 2014. Some results of the experimental research of acoustical characteristics power plant extralight aircraft in static conditions. Sci. Tech. Volga Region Bull., 6: 265-270.
Moshkov, P.A., 2016. Empirical method of predicting aviation piston engine noise. Vestnik Samara State Aerosp. Univ., 15: 152-161.
CrossRef | Oleson, R.D. and H. Patrick, 1998. Small aircraft propeller noise with ducted propeller. Proceedings of the 4th AIAA/CEAS International Conference on Aeroacoustics, June 2-4, 1998, Embry-Riddle Aeronautical University, Daytona Beach, Florida, pp: 464-472.
Ostrikov, N.N. and S.L. Denisov, 2016. Mean flow effect on shielding of noncompact aviation noise sources. Proceedings of the 22nd AIAA/CEAS International Conference on Aeroacoustics, Jun 28, 2016, AIAA, Lyon, France, pp: 2016-3014.
Pagano, A., L. Federico, M. Barbarino, F. Guida and M. Aversano, 2008. Multi-objective aeroacoustic optimization of an aircraft propeller. Proceedings of the 12th AIAA/ISSMO International Conference on Multidisciplinary Analysis and Optimization, September 10-12, 2008, AIAA, Victoria, British Columbia, Canada, pp: 6059-6059.
Pagano, A., M. Barbarino, D. Casalino and L. Federico, 2009. Tonal and broadband noise calculations for aeroacoustic optimization of propeller blades in a pusher configuration. Proceedings of the AIAA 15th and 30th International Conference on Aeroacoustics, May 11-13, 2009, AIAA, Miami, Florida, pp: 3138-3138.
Samokhin, V.F., 2012. Semiempirical method for estimating the noise of a propeller. J. Eng. Phys. Thermophys., 85: 1157-1166.
Direct Link | Sinnige, T., K.P. Lynch, D. Ragni, G. Eitelberg and L.L. Veldhuis, 2015. Aerodynamic and aeroacoustics effect of pylon trailing edge blowing on pusher propeller installation. Proceedings of the 21st International Conference on AIAA/CEAS Aeroacoustics, June 22-26, 2015, AIAA, Dallas, Texas, USA., pp: 1-12.
Society of Automotive Engineers, 1977. Prediction Procedure for Near-Field and Far-Field Propeller Noise. Society of Automotive Engineers, Warrendale, Pennsylvania,.
Soderman, P.T. and W.C. Horne, 1990. Acoustic and aerodynamic study of a pusher-propeller aircraft model. NASA, Washington, D.C., USA.
Zlenko, N.A., A.V. Kedrov and A.N. Kishalov, 2011. Optimal aeroacoustic propeller design. TsAGI. Sci. J., 42: 829-844.
CrossRef | Direct Link |