Design and technical characteristics of transport airplane for arctic exploration


Cite item

Full Text

Abstract

The geographic location of the Russian Federation determines regional apartness of the Arctic and Far East territories which are mostly isolated. The necessity of development of the Russian North Polar regions calls for the development of transport infrastructure and specifies requirements to flight characteristics of regional airplanes, which requires new research and development solutions. Positioning the Arctic territory as an exclusive economic zone on the world political arena necessitates the development of the regional transport network including all-cargo and passenger services for sustainable development of the region. An up-to-date approach to aircraft design should be based on Arctic exploiation requirements, infrastructure-climate limitations and design methods that include methods of moment-inertia analysis, structural-parametric analysis of Arctic-based aircraft taking into account the choice of rational moment-inertia configuration. Synthesizing the limitations and required operation characteristics we designed an Arctic-based airplane that can perform transport operations in the Russian Arctic zone safely and successfully.

About the authors

N. V. Kuprikov

Moscow Aviation Institute, (National Research University)

Author for correspondence.
Email: nkuprikov@mai.ru

Candidate of Science (Engineering)

Assistant Professor of the Department of Aircraft Design

Russian Federation

O. S. Dolgov

Moscow Aviation Institute, (National Research University)

Email: dolgov@mai.ru

Doctor of Science (Engineering)

Professor of the Department of Aircraft Design

Russian Federation

M. Yu. Kuprikov

Moscow Aviation Institute, (National Research University)

Email: kuprikov@mai.ru

Doctor of Science (Engineering), Professor

Head of the Department of Engineering Graphics

Russian Federation

B. V. Ivanov

Arctic & Antarctic Scientific-Research Institute

Email: b_ivanov@aari.ru

Candidate of Science (Geography)

Head of laboratory

Russian Federation

References

  1. Aviation Regulations. Part 25. Airworthiness standards for transport category aircraft. Moscow: M.M. Gromov Flight Research Institute Publ., 1994. 321 p. (In Russ.)
  2. Aviation Regulations. Part 34. Environmental control. Engine pollutant emission. Test code. Moscow: Avaizdat Publ., 2003. 84 p. (In Russ.)
  3. Dolgov O.S., Kuprikov M.Yu., Kuprikov N.M. Features detection of moment-inertia shape future aircraft in the early stages of design. Vestnik Moskovskogo Aviatsionnogo Instituta. 2010. V. 17, no. 2. P. 1. (In Russ.)
  4. Kuprikov N.M. The accounting of requirements of operation in the arctic on the aircraft design as a basis of competitiveness growth on the world market. Vestnik Аkademii voyennykh nauk. 2012. No. 3 (40). P. 120-123. (In Russ.)
  5. Kuprikov N.M., Zhuravskiy D.M., Malygin D.V., Ivanov B.V., Pavlov A.K., Salakhov I.R., Ripetskiy A.V. Perspective satellite systems and software to improve the competitiveness of major infrastructure projects in the arctic region and the far east. Vestnik Kazanskogo gosudarstvennogo tekhnicheskogo universiteta imeni A.N. Tupoleva. 2014. No. 3. P. 47-53. (In Russ.)
  6. Kukushkina А.V. Ekologicheskaya bezopastnost’, razoruzheniye i voyennaya deyatel’nost’ gosudarstv: Mezhdunarodno-pravovye aspekty [Ecological safety, disarmament and military activities of states: International legal aspects]. Moscow: LKI Publ., 2008. 176 p.
  7. Kontseptsiya razvitiya aerodromnoy (aeroportovoy) seti Rossiyskoy Federatsii na period do 2020 goda [Concept of development of the aerodrome network of the Russian Federation for the period of up to 2020]. Available at: http://strategy-center.ru/page.php?vrub=inf&vparid=675&vid=937&lang=rus
  8. Kubyshkin N.V., Skutin A.A., Naumov A.K. Otsenka morfometricheskikhk harakteristik aysbergov Barentseva moray po naturnym dannym dlya modelirovaniya ikh dreyfa. Proceedings of the 10th International Conference and Exhibition for Oil and Gas Resources Development of the Russian Arctic and CIS Continental Shelf (RAO / CIS Offshore 2011). SPb.: Khimizdat Publ., 2011. P. 519-521. (In Russ.)
  9. Convention on International Civil Aviation. Appendix 16. Environmental control. V. 2 Aircraft engine emission. International Civil Aviation Organization, 2008. 118 p. (In Russ.)
  10. Rukovodstvo po proizvodstvu ledovoy aviarazvedki [Polar Research Manual]. Leningrad: Gidrometeoizdat Publ., 1981. 240 p.
  11. Rumyantsev A.L., Kleyn A.E. Use of remotely piloted air systems in the works of AARI (Arctic and Antarctic Research Institute) // Rossiyskie polyarnye issledovaniya. 2014. No. 1 (15). P. 32-35. (In Russ.)

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2017 VESTNIK of Samara University. Aerospace and Mechanical Engineering

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies