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The study on loads on an aircraft piston engine Continental Motors IOF-240-b5b in training flights

    Łukasz Grabowski Affiliation
    ; Zbigniew Czyż Affiliation
    ; Marcin Porzak Affiliation

Abstract

This investigation presents the development of a model of a flight envelope for a piston engine aircraft. The study covers performing necessary tests and measurements of the selected operating parameters of the engine piston and an analysis of the results. The paper describes also a mission and aircraft manoeuvres. This investigation enables us to study loads on an aircraft piston engine, i.e. Continental Motors IOF-240-B5B, mounted in the Liberty XL2 by Liberty Aerospace.

Keyword : engines, planes, aircraft, load study, FADEC, rotational speed, mean head temperature, intake manifold pressure

How to Cite
Grabowski, Łukasz, Czyż, Z., & Porzak, M. (2018). The study on loads on an aircraft piston engine Continental Motors IOF-240-b5b in training flights. Transport, 33(3), 773-778. https://doi.org/10.3846/transport.2018.5467
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Sep 27, 2018
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References

ATSB. 2007. Engine Failure – 93 km East of Adelaide Airport, SA - 23 December 2005 -VH-OAE, British Aerospace Plc 3201, Jetstream. Australian Transport Safety Bureau (ATSB) Transport Safety Investigation Report. Aviation Occurrence Report 200506834 Final. 11 p. Available from Internet: https://www.atsb.gov.au/media/1362074/aair200506834_001.pdf

Austrian Technik. 2017. Company website. Available from Internet: https://www.austriantechnik.at

Bhaumik, S. K.; Rangaraju, R.; Venkataswamy, M. A.; Bhaskaran, T. A.; Parameswara, M. A. 2002. Fatigue fracture of crankshaft of an aircraft engine, Engineering Failure Analysis 9(3): 255–263. https://doi.org/10.1016/S1350-6307(01)00022-X

Bhaumik, S. K.; Sujata, M.; Venkataswamy, M. A. 2008. Fatigue failure of aircraft components, Engineering Failure Analysis 15(6): 675–694. https://doi.org/10.1016/j.engfailanal.2007.10.001

Braly, G. W. 2016. Back to the Future: the Wright Aeronautical Division (WAD) Recommended Leaning Procedure. General Aviation Modifications, Inc. Available from Internet: http://gami.com/articles/bttf.php

Brender, R. F.; Carney, T. Q. 2013. Comparison of best economy and best power mixture settings in the Purdue university training fleet revisited, Journal of Aviation Technology and Engineering 2(2):32–44. https://doi.org/10.7771/2159-6670.1074

Crane, D. 2010. Powerplant Test Guide 2011. Aviation Supplies & Academics, Inc.

Dudziak, J. 2013. Analiza opłacalności stosowania silników tłokowych lub turbinowych do napędu śmigłowcóa lekkich, Prace Instytutu Lotnictwa 232–233(5–6): 15–23. (in Polish).

FAA. 2016. Pilot’s Handbook of Aeronautical Knowledge. US Department of Transportation, Federal Aviation Administration (FAA). 524 p. Available from Internet: https://www.faa.gov/regulations_policies/handbooks_manuals/aviation/phak

FAA. 2007. Type Certificate Data Sheet No. E7SO. Department of Transportation, Federal Aviation Administration (FAA). 4 p. Available from Internet: http://www.faa.gov

Findlay, S. J.; Harrison, N. D. 2002. Why aircraft fail?, Materials Today 5(11): 18–25. https://doi.org/10.1016/S1369-7021(02)01138-0

George, F. 2007. How they work: turbine engine fuel controls, Business & Commercial Aviation 101(5): 38–41.

Guła, P.; Gorecki, T. 2013. Projekt, badania i wykonanie polskiego bezzałogowego śmigłowca ILX-27, Prace Instytutu Lotnictwa 232: 39–49. (in Polish).

Hajduk, J.; Sabak, R. 2013. Zagadnienia prób w locie bezzałogowego śmigłowca ILX-27, Journal of KONBiN 1: 45–58. (in Polish).

Hirschman, D. 2009. Frugal flyer: so wrong for so long, AOPA Online 7. Available from Internet: https://www.aopa.org/news-and-media/all-news/2009/july/pilot/frugal-flyer-so-wrong-for-so-long

Kroes, M.; Wild, T. 1994. Aircraft Powerplants. McGraw-Hill Science/Engineering/Math. 656 p.

Lourenço, N. J.; Graça, M. L. A.; Franco, L. A. L.; Silva, O. M. M. 2008. Fatigue failure of a compressor blade, Engineering Failure Analysis 15(8): 1150–1154. https://doi.org/10.1016/j.engfailanal.2007.11.006

Menne, C. 2007. Full authority digital engine control, Malibu Mirage 16(3): 14–17. Available from Internet: http://www.malibuaerospace.com/docs/MMOPA%20FADEC%20Article.pdf

Ośrodek Kształcenia Lotniczego Politechniki Rzeszowskiej. 2018. Liberty Aerospace XL-2. Available from Internet: https://okl.prz.edu.pl/flota/liberty-aerospace-xl-2 (in Polish).

Rice, N. S. 1958. Basic Theory of Operation of the Turbo Compound Engine. Curtiss-Wright Corporation.

Stelak, M. 2010. Konstrukcje: Liberty XL-2 – Oryginał w każdym calu, Przegląd Lotniczy 4: 6–13. (in Polish).

Stone, R. 2012. Introduction to Internal Combustion Engines. 4th edition. Palgrave. 516 p.

Turan, D.; Karcı, A. 2009. Failure analysis of an aircraft piston engine components, Engineering Failure Analysis 16(4): 1339–1345. https://doi.org/10.1016/j.engfailanal.2008.09.022

Wendeker, M.; Czyż, Z. 2016. Analysis of the bearing nodes loads of turbine engine at an unmanned helicopter during a jump up and jump down maneuver, Eksploatacja i Niezawodność – Maintenance And Reliability 18(1): 89–97. https://doi.org/10.17531/ein.2016.1.12