Rambler's Top100

Rambler's Top100

Yandex.CN    ,     .

  • 5, 2016

    1. Pirueva T. G., Sklovskij S. A. Teplovaja infrakrasnaja aerosjemka kak instrument kontrolja distantsionnogo sostojanija teplovykh setej [Aerial thermal infrared imaging as a tool of district heating network monitoring], Novosti teplosnabzhenija, 2011, no. 9 (133).

    2. Sklovskij S. A., Pirueva T. G., Kascheev V. P. Ekonomicheskaja effektivnost teplovoj infrakrasnoj aerosjemki pri otsenke sostojanija podzemnykh teplovykh setej [Economic efficiency of aerial thermal infrared imaging in assessment of underground heat network condition]. Available at: www.aerogeophysica.com (accessed November 11, 2016).

    3. Glukhov S. V., Kovalenko A. V., Chicherin S. V. Razvitie sistem teplosnabzhenija strukturnykh podrazdelenij OAO RZhD [Heat supply system development of Russian Railways JSC subsidiaries], Vestnik VNIIZhT, 2016, no. 3, pp. 183188.

    4. Chicherin S. V. Kanalnaja prokladka truboprovodov teplovykh setej kak sredstvo obespechenija nadezhnosti sistem tsentralizovannogo teplosnabzhenija [Tunnel pipeline laying in heat networks to ensure reliability of district heating], Proc. of 10th school and seminar for young scientists and specialists in Kazan, September 1315, 2016, Kazan, KazNTs RAN, 2016.

    5. Pirueva T. G., Sklovskij S. A. Reshenie zadach gorodskogo kommunalnogo khozjajstva s pomoschju teplovoj infrakrasnoj aerosjemki [Solution of municipal economy problems with aerial thermal infrared imaging], Energetik, 2009, no. 1.

    6. Friman O. et al. Methods for large-scale monitoring of district heating systems using airborne thermography, Geoscience and Remote Sensing, IEEE Transactions on Geoscience and Remote Sensing, 2014, vol. 52, iss. 8, pp. 51755182. https://dx.doi.org/10.1109/TGRS.2013.2287238.

    7. Oztunc E., Lier M. Aerial thermographic survey of district heating systems, Hot Cool, 2014, no. 3, pp. 68.

    8. Glukhov S. V., Chicherin S. V. Prichiny razvitija korrozionnykh protsessov na magistralnykh teplovykh setjakh Omska [Causes of corrosion processes on main heat network in Omsk], Pros. of International Scientific and Practical Conference Tools and mechanisms of modern innovative development, Ufa, Aeterna, 2016.

    9. Obosnovyvajuschie materialy k skheme teplosnabzhenija goroda Omska do 2030 goda (aktualizatsija na 2016 god), Kn. 1. Suschestvujuschee polozhenie v sfere proizvodstva, peredachi i potreblenija teplovoj energii dlja tselej teplosnabzhenija [Paperwork on the Omsk heat supply scheme up to 2030 (Revised in 2016), Vol. 1], Omsk, 2015, pp. 345.

    10. Chicherin S. V. Sovremennye sposoby uplotnenija stykovykh shvov v plitakh perekrytij kanalov teplovykh setej [Current methods of slab joint sealing in heat network channels], Monitoring. Nauka i tekhnologii, 2016, no. 3 (28), pp. 100101.7. Technical report on the research project Conducting research in order to create flexible power cables with the conductors of aluminum alloys in electrical wiring of buildings, VNIIKP JSC.



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