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NTIS 바로가기Electronics, v.11 no.1, 2022년, pp.20 -
Akash, Arumugam (School of Mechanical Engineering, SASTRA Deemed University, Thanjavur 613401, India) , Raj, Vijayaraj Stephen Joseph (School of Mechanical Engineering, SASTRA Deemed University, Thanjavur 613401, India) , Sushmitha, Ramesh (School of Mechanical Engineering, SASTRA Deemed University, Thanjavur 613401, India) , Prateek, Boga (School of Mechanical Engineering, SASTRA Deemed University, Thanjavur 613401, India) , Aditya, Sankarasubramanian (School of Mechanical Engineering, SASTRA Deemed University, Thanjavur 613401, India) , Sreehari, Veloorillom Madhavan (School of Mechanical Engineering, SASTRA Deemed University, Thanjavur 613401, India)
This paper discusses the conceptual design of an intercity electrical vertical take-off-and-landing aircraft. A literature survey of existing eVTOL aircrafts, configuration selection, initial sizing, weight estimation, modelling and analysis was conducted. The present intercity eVTOL aircraft has th...
Taarabt, S.A., Bernier, A.T., Chen, Y., Compere, H., Dore, A., Fransolet, M., Jumpertz, R.D., and Macchiaiolo, L. (2021, January 07). Graduate Team Aircraft Design Competition: Electric Vertical Takeoff and Landing (E-VTOL) Aircraft Mistral Air Taxi Team Name: The Huggy’s Birds. Available online: https://www.aiaa.org/docs/default-source/uploadedfiles/education-and-careers/university-students/design-competitions/3rd-place-grad-team-aircraft.pdf.
Udroiu Conceptual design of a VTOL remotely piloted aircraft for emergency missions Sci. Res. Educ. Air Force 2016 18 207
10.3390/aerospace6030026 Bacchini, A., and Cestino, E. (2019). Electric VTOL Configurations Comparison. Aerospace, 6.
Crawford Analysis of Tiltwing Aircraft Configuration Potential SAE Trans. 1996 105 1267
Datta, A. (2021, January 14). Commercial Intra-City on Demand of Electric-VTOL Status of Technology. Technical Report. Available online: https://vtol.org/files/dmfile/tvf.wg2.yr2017draft.pdf.
Kundu, A.K., Price, M.A., and Riordan, D. (2019). Conceptual Aircraft Design: An Industrial Approach, Wiley.
Kuhn, I.F. (2013). Purebred and Hybrid Electric VTOL Tilt Rotor Aircraft. (No. 8,469,306), U.S. Patent, Available online: https://patentimages.storage.googleapis.com/8f/30/10/f7104b6f2b3a76/WO2010123601A1.pdf.
Pham, R.N. (2005). High Performance VTOL Convertiplanes. (No. 6,974,105), U.S. Patent, Available online: https://portal.unifiedpatents.com/patents/patent/US-6974105-B2.
10.1109/ICECA49313.2020.9297649 Jain, A., Bavikar, K., Sanjay, A., Gupta, M., Gupta, B.R., and Dineshkumar, H. (2020, January 5-7). Baseline procedure for conceptual designing of an eVTOL for Urban Air Mobility. Proceedings of the 2020 4th International Conference on Electronics, Communication and Aerospace Technology (ICECA), Tamil Nadu, India.
Bacchini Key Aspects of Electric Vertical Take-off and Landing Conceptual Design Proc. Inst. Mech. Eng. Part G J. Aerosp. Eng. 2020 10.1177/0954410019884174 234 774
10.3390/app112210815 Palaia, G., Abu Salem, K., Cipolla, V., Binante, V., and Zanetti, D. (2021). A Conceptual Design Methodology for e-VTOL Aircraft for Urban Air Mobility. Appl. Sci., 11.
Bacchini Impact of lift propeller drag on the performance of eVTOL lift+cruise aircraft Aerosp. Sci. Technol. 2021 10.1016/j.ast.2020.106429 109 106429
(2021, February 06). eVTOL Aircraft Directory, Electric VTOL News by the Vertical Flight Society. Available online: https://evtol.news/aircraft.
OpenVSP (2021, February 13). Open Source Parametric Aircraft Geometry Tool. Available online: http://openvsp.org/.
(2021, February 20). Bartini Flying Car. Available online: https://evtol.news/bartini/.
Bartini Flying Car (2021, February 27). Official Website. Available online: https://bartini.aero/.
(2021, March 05). Types of Landing Gear. Available online: https://www.flight-mechanic.com/landing-gear-types-landing-gear-arrangement/.
(2021, March 12). Ailerons. Available online: https://www.skybrary.aero/index.php/Ailerons.
(2021, March 19). V-Tail. Available online: http://youshouldfly.com/Rhyolite_Aviation/V-Tail_info.html.
(2021, March 26). NACA 0010. Available online: http://airfoiltools.com/airfoil/details?airfoil=naca0010-il.
Vee-tail conceptual design criteria for commercial transport aeroplanes Chin. J. Aeronaut. 2019 10.1016/j.cja.2018.06.012 32 595
(2021, April 04). Tilt Rotors. Available online: https://en.wikipedia.org/wiki/Tiltrotor.
Will Graf, E. (2005). Effects of Duct Lip Shaping and Various Control Devices on the Hover and Forward Flight Performance of Ducted Fan UAVs. [Ph.D. Dissertation, Virginia Polytechnic Institute and State University]. Available online: http://www.dept.aoe.vt.edu/~mason/Mason_f/WillGrafMSThesis.pdf.
(2021, April 18). FAA Report on Transport Heliports, Available online: https://www.faa.gov/documentLibrary/media/advisory_circular/150-5390-2B/150_5390_2b_part2.pdf.
(2021, April 25). NACA 643618. Available online: http://airfoiltools.com/airfoil/details?airfoil=naca643618-ilu.
Abbott, I.H., and Von Doenhoff, A.E. (1959). Theory of Wing Sections: Including a Summary of Airfoil Data, Dover Publications. [1st ed.].
McCormick, B.W. (1994). Aerodynamics, Aeronautics and Flight Mechanics, John Wiley & Sons, Inc.. [2nd ed.].
Roskam, J. (1987). Airplane Design Part 3, Roskam Aviation and Engineering Corporation.
(2021, May 03). Composites in Aircrafts. Available online: https://www.compositesworld.com/articles/flying-high-on-composite-wings.
(2021, May 10). Brushless Motor. Available online: https://www.freerchobby.cc/products/mp154120-40kw-brushless-motor-with-85kg-thrust-for-big-drone-plane.
(2021, May 17). Master Airscrew. Available online: https://www.masterairscrew.com/products/3-blade-16x10-propeller.
Jeevanantham Material Based Structural Analysis of a Typical Landing Gear IJISET 2017 4 2348
(2021, May 31). Aircraft Tire-Engineering Data. Available online: https://www.jupitor.co.jp/pdf/michelin_aircraft.pdf.
Bachmann Outlook on ecologically improved composites for aviation interior and secondary structures CEAS Aeronaut. J. 2018 10.1007/s13272-018-0298-z 9 533
(2021, June 02). Lamitex PL-68. Available online: http://www.naplastics.com/pump-vanes-blades.
(2021, June 09). Sound Attenuating Honeycomb. Available online: https://www.hexcel.com/Products/Honeycomb/HexWeb-Acousti-Cap.
Anderson, J.D. (1989). Introduction to Flight, McGraw-Hill. [3rd ed.].
Jenkinson, L.R., and Marchman, J.F. (2003). Aircraft Design Projects: For Engineering Students, Butterworth-Heinemann.
(2021, June 16). Detachable Fuselage Aircraft. Available online: https://www.treehugger.com/plane-detachable-fuselage-could-really-take-4855350.
(2021, June 23). Future of Aircraft Propulsion. Available online: https://aero-space.eu/2021/01/04/the-future-of-aircraft-propulsion/.
Yi Review and Future of Aircraft’s Propulsion Type J. Phys. Conf. Ser. 2019 10.1088/1742-6596/1345/3/032075 1345 032075
Gohardani Challenges of future aircraft propulsion: A review of distributed propulsion technology and its potential application for the all electric commercial aircraft Prog. Aerosp. Sci. 2011 10.1016/j.paerosci.2010.09.001 47 369
(2021, June 30). Technology Roadmap to 2050. Available online: https://www.iata.org/contentassets/8d19e716636a47c184e7221c77563c93/technology20roadmap20to20205020no20foreword.pdf.
(2021, July 01). Tesla Batteries. Available online: https://www.cnbc.com/2020/06/30/tesla-and-the-science-of-low-cost-next-gen-ev-million-mile-battery.html.
(2021, July 08). Technology Watch. Available online: https://www.ati.org.uk/wp-content/uploads/2021/09/ati-insight-03-emerging-technologies-in-commercial-aircraft-systems.pdf.
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