Development and testing of anti-icing heating system for ship air-inlet grids
The article presents the results of developing a domestic technology for creating an antiicing system for air-inlet grid heating of ship ventilation and air conditioning. It describes designed and manufactured experimental specimens of the anti-icing system. Climatic tests conducted for the developed anti-icing system for air-inlet grid heating showed that the system completely met the operational requirements under exploitation temperatures up to -60 °C approximating the Arctic conditions. The developed heating system may be used for air-inlet grid anti-acing of ship ventilation of icebreakers designed to operate in Arctic conditions, the type of nuclear-powered icebreakers of the series "Moscow".
 Zakharov Yu.V. Sudovyye ustanovki konditsionirovaniya vozdukha i kholodil’nyye mashiny [Ship installations of air conditioning and refrigerators]. Leningrad, Sudostroenie Publ., 1972, 566 p.
 Yazykov V.N. Teoreticheskiye osnovy sistem konditsionirovaniya vozdukha [Theoretically bases of air conditioning systems]. Leningrad, Sudostroenie Publ., 1967, 234 p.
 Feher L., Thumm M. Design of Avionic Microwave De-/Anti-Icing Systems. In: Willert-Porada M., ed. Microwave devices. Springer, 2006, 792 p. ISBN 3540432523, pp. 695-702.
 Petrenko V.F., Sullivan C. Methods and Systems for Removing Ice from Surfaces. US Patent 6,653,598 B2, 25 November 2003.
 Actual Anti-icing Systems. Available at: http://www.tpub.com/gunners/207.htm (accessed 03.11.2015).
 Lozowski E., Szilder K., Makkonen L. Computer simulation of marine ice accretion. Philosophical Trans of the Royal Society: Mathematical, Physical and Engineering Sciences, 2000, vol. 358, pp. 2811-2845.
 http://raychem.kz/tyco_thermal_controls/ (accessed 02.11.2015).
 Kirchanov A.G., Kokotkov V.V., Ryzhkov A.V., Gavrilov A.Yu. Sposob obogreva ventilyatsionnykh reshetok s zhalyuzi i ustroystvo dlya yego osushchestvleniya [Way of heating of ventilating grates about blinds and the device for its implementation]. RF Patent no. 2 474 766. Publ. February 10, 2013.
 Kirchanov A.G., Kokotkov V.V., Dimitrienko Yu.I., Ryizhkov A.V., Gavrilov A.Yu. Sposob zashchity vozdukhozabornykh reshetok s zhalyuzi ot obledeneniya i ustroystvo dlya yego osushchestvleniya [Way of protection of air-intake lattices with blinds from frosting and the device for its implementation]. RF Patent no. 2563715. Publ. August 26, 2015.
 Kirchanov A.G., Kokotkov V.V., Dimitrienko Yu.I. Krupnogabaritnaya vozdukhopriyemnaya reshetka s obogrevayemymi zhalyuzi [Large-size air-reception lattice with the warmed blinds]. RF Patent no. 2563714. Publ. August 26, 2015.
 Kirchanov A.G., Dimitrienko Yu.I., Chibisov V.Yu., Krasnov I.K. Sposob kontrolya obledeneniya zhalyuzi vozdukhozabornoy reshetki [Way of control of frosting of blinds of an air-reception lattice]. RF Patent no. 2563710. Publ. August 26, 2015.
 Dimitrienko Yu.I., Koryakov M.N., Chibisov V. Yu. Inzhenernyy zhurnal: nauka i innovatsii - Engineering Journal: Science and Innovation, 2013, no. 9 (21). Available at: http://engjournal.ru/articles/1116/1116.pdf