CURRENT STATE AND PROSPECTS OF PLANES ON SOLAR ENERGY IN UKRAINE

Authors

  • Віталій Вікторович Сухов National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  • Анатолій Васильович Іващук National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  • Ярослав Сергійович Козей National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine

DOI:

https://doi.org/10.20535/2305-9001.2016.77.71470

Keywords:

aircraft on solar energy, solar radiation, the existence of the plane equation, analysis, solar cells

Abstract

Purpose. The aim is to determine the main challenges for the creation of aircraft on solar energy, assess the feasibility of establishing and operating an aircraft on solar energy in Ukraine. Design/methodology/approach. Creating an airplane on solar energy multicriterion task parameters and the optimal choice ultimately depends on the effective solution of these problems: the existence of the condition of the aircraft on solar energy (energy balance conditions); efficient use of solar energy, meet operational requirements, the conditions of strength and rigidity of the structure. Directly in the development of aircraft Ukraine on solar energy is at an early stage. Intensive development of unmanned aircraft began in us only in recent years and caused sharp need for air surveillance. Despite the fact that a lot of organizations undertook to develop unmanned aircraft systems, including solar energy, currently the results of their work are only experimental devices or small-lot production samples. Findings. In Ukraine there are conditions for efficient operation of solar cells, and there is a real need for airplanes on solar energy. The time of flight on solar energy depends on the efficiency of solar cells. To implement this type of aircraft is important to use modern materials and technologies.

Author Biography

Ярослав Сергійович Козей, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv

ФАКС, ПСКЛА, аспірант, асистент.

References

Trofimenko, A. P. (2012), Samolety na solnechnyh batarejah novyj instrument dlja provedenija issledovanij v Antarktike: osobennosti, preimushhestva, perspektivy, Ukraїns'kij antarktichnij zhurnal, no 10-11, pp. 390-398.

Noth, A., (2008),“Design of solar powered airplanes for continuous flight”, Ph.D. dissertation, ETH, Switzerland.

Ross, H. (2007), “Solarangetriebene Flugzeuge”, The True All Electric Aircraft – Eine Übersicht, DGLR Deutscher Luft- und Raumfahrtkongress, First CEAS European Air and Space Conference, Berlin, (September 2007).

10-ka luchshih aviamodelej na solnechnoj jenergii /http://www.cheburek.net/stati-i-obzory/10-ka-luchshix-aviamodelej-na-solnechnoj-energii.html.

Voronkov, Y.S., and Voronkov, O.Y. (2013), “Letatelnyj apparat s silovoj ustanovkoj na solnechnoj energii”, Sovremennye naukoemkie texnologii, no 11, pp. 19-26.

Suhov, V.V., and Kozej, Ja.S. (2014), “Problemi stvorennja BpLA na sonjachnih elementah Gіrotehnologії ta konstrujuvannja lіtal'nih aparatіv” Tezi dop. uchasn. XVII nauk.-tehn. konf. stud. ta molodih uchenih, «Polіtehnіka», VPІ VPK, Kyiv, Ukraine.

Sukhov, V.V. and Kozey, Y.S. (2015), “Aircraft aerodynamic scheme tandem working on solar energy”, X Krajowe forum wiroplatowe, Instytut Lotnictwa, (26 czerwca 2015), Warszawa, Pol'sha.

Sal'nik, Ju.P., Matala, I.V. and Onishhenko, V.A. (2011), “Suchasnij stan osnashhennja Zbrojnih sil Ukraїni bezpіlotnimi avіacіjnimi kompleksami”, Zbіrnik naukovih prac' Harkіvs'kogo unіversitetu Povіtrjanih Sil, no 2(28), pp. 46-51.

UAV R-100/http://velesavia.com/ru/aviatehnika/bpla/bpla-r-100.html.

Lebedєv, A.A. (1955), “Ajeromehanika samoleta”, M. GIOP.

Inventory /http://www.gaaswafers.com.

Tablicy insoljacii dlja rascheta FJeS /http://www.solbat.su.

The Atmospheric Science Data Center (ASDC) at NASA Langley Research Center, https://eosweb.larc.nasa.gov.

Duffie, J.A., Beckman, W.A. (2006), “Solar Engineering of Thermal processes”, John Wiley & Sons, Inc., N.Y., Third Edition.

Sonjachnі panelі. Korotko pro sonjachnі batareї, http://smarteco.biz.ua/solar-panels.

Gavrilko, V.V. (2014), “Usovershenstvovanie metodov sozdanija sverhlegkih bespilotnyh letatel'nyh apparatov iz kompozitnyh materialov”, dis. kand. tehn. Nauk, 05.07.02, Har'kov, Ukraine.

Кasyanov, Y., “Primenenie bpla v usloviyax boevyx dejstvij”, http://twower.livejournal.com/1691372.html.

Samoxin, V.F., “Eksperimentalnoe issledovanie istochnikov shumnosti bespilotnogo letatelnogo apparata s vinto-kolcevym dvizhitelem v tolkayushhej komponovke”, elektronnyj zhurnal “Trudy mai”. vypusk no 70, http://www.mai.ru/upload/iblock/81d/81d77168791775d9fa57060f4d4612d5.pdf.

Eremin, G.V., “Ocenka vozmozhnostej zenitnyx sredstv po aktivnomu protivodejstviyu malorazmernym bla”, http://topwar.ru/67941-ocenka-vozmozhnostey-zenitnyh-sredstv-po-aktivnomu-protivodeystviyu-malorazmernym-bla.html.

Published

2016-11-17

Issue

Section

Original study