ÌÀÐÕÈ
ËÈ×ÍÛÉ ÊÀÁÈÍÅÒ ÑÒÓÄÅÍÒÀ
ÏÐÎÅÊÒÍÛÅ ÃÐÓÏÏÛ III ÊÓÐÑÀ 2024/2025 ó÷. ã.
Êîíêóðñ ïëàêàòîâ, ïîñâÿùåííûé 275-ëåòèþ Ìîñêîâñêîé àðõèòåêòóðíîé øêîëû
ÊÎÍÔÅÐÅÍÖÈÈ 2023-2024
Âûáîðû çàâåäóþùèõ êàôåäðàìè. Êîíêóðñ ÏÏÑ
2024 - ÃÎÄ ÑÅÌÜÈ
ÂÌÅÑÒÅ ÏÐÎÒÈÂ ÊÎÐÐÓÏÖÈÈ
ÔÀÊÓËÜÒÅÒ ÏÎÂÛØÅÍÈß ÊÂÀËÈÔÈÊÀÖÈÈ
ÍÀÖÈÎÍÀËÜÍÛÉ ÏÐÎÅÊÒ "Íàóêà è Óíèâåðñèòåòû"
ÑÒÀƨРÌèíîáðíàóêè Ðîññèè
ÇÀÙÈÒÀ ÏÐÀÂ ÍÅÑÎÂÅÐØÅÍÍÎËÅÒÍÈÕ Â ÑÅÒÈ ÈÍÒÅÐÍÅÒ


English version Russian version



ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES
INTERNATIONAL ELECTRONIC SCIENTIFIC - EDUCATIONAL JOURNAL

1(38) 2017


Article

THE ARTISTIC IMAGE OF ARCHITECTURE USING ALTERNATIVE ENERGY DEVICES

Authors I. Polyakov, S. Ilvitskaya, State University of Land Use Planning, Moscow, Russia
Abstract

The trend of using alternative energy equipment in the architecture means that in the future human cociety will be able to abandon the use of fossil fuels and every building will be equipped with devices generating energy from renewable sources. In this regard, one of the most important problem today is the increase in expressiveness of active energy buildings and design ways of artistic techniques integration of alternative energy facilities in the architecture.

Keywords: alternative energy, solar power, wind energy, biofuel, artistic image
article Article (RUS)
References

  1. Aronova E.S., Murgul V. The evaluation of the appropriateness for using solar energy technologies in the historical building of St. Petersburg and the climatic conditions of the north-west region. Magazine “AMIT”. No.2 (23), 2013. Available at: http://marhi.ru//eng/AMIT/2013/2kvart13/aronova_murgul/abstract.php
  2. Afanas'eva O.K. Arhitektura maloehtazhnyh zhilyh domov s vozobnovlyaemymi istochnikami ehnergii. (kand. dis.) [The architecture of low-rise residential buildings with renewable energy sources (Cand. Dis.)]. Moscow, 2009, p.110.
  3. Basnet Arju. Arhitekturnaja integracija fotojelektricheskih sistem i solnechnyh kollektorov v zdanija [Architectural Integration of Photovoltaic and Solar Thermal Collector Systems into buildings. Master’s Thesis in Sustainable Architecture. Norwegian University of Science and Technology Faculty of Architecture and Fine Arts Department of Architectural Design, History and Technology]. Trondheim, June, 2012.
  4. Blagovidova N., Razgulova A. Ecological focus of designing in the contest of Moscow Architectural institute student’s projects. No.3 (36), 2016. Available at: http://marhi.ru/eng/AMIT/2016/3kvart16/blagovidova/abstract.php
  5. Verkalets I. Principles and methods of arhitectural design recreational landscapes with regard to aesthetics natural environment. Magazine “AMIT”. No. 1 (26), 2014. Available at: http://marhi.ru/eng/AMIT/2014/1kvart14/verkalets/abstract.php
  6. Efimov A. World artistic trends and architectural creativity. Part 1. Magazine “AMIT”. No. 3 (36), 2016. Available at: http://marhi.ru/eng/AMIT/2016/3kvart16/efimov/abstract.php
  7. Lavrukhina O.S. Stimulyatory vyrabotki biogaza. Ehlektronnyj zhurnal “Sovremennye nauchnye issledovaniya i innovatsii’ [Modern scientific research and innovation]. No.5, 2012. Available at: http://web.snauka.ru/issues/2012/05/13035
  8. Melen P., Brisko K., Dek M. Vetrogeneratory na kryshe zdaniya. Ehlektronnyj zhurnal “Zdaniya vysokikh tekhnologij” [Wind turbines on the roof. Magazine “Buildings of high technology”]. No. 3, 2013, pp.47-57. Available at: http://zvt.abok.ru/upload/pdf_issues/11.pdf
  9. Murgul V. Capabilities of using the solar energy for energy supply of the dwelling buildings of the historical area of Saint-Petersburg and for city environment quality improvement. Magazine “AMIT”. No. (22), 2013. Available at: http://marhi.ru/eng/AMIT/2013/1kvart13/murgul/abstract.php
  10. Myagkov M.S., Gubernskij Y.D., Konova L.I., Lickevich V.K. Gorod, arhitektura, chelovek i klimat [City, architecture, people and climate]. Moscow, 2007, p. 262.
  11. Polyakov I.À., Il'vitskaya S.V. Gelioarkhitektura. Zhurnal “Àrkhitektura i stroitel'stvo Rossii” [Gelioarhitektura. Magazine “Russian Architecture and Construction”]. Moscow, 2016, no.1-2 (217-218), pp.166-167.
  12. Polyakov I.À., Il'vitskaya S.V. Razvitie arkhitektury i prirody kak edinoj sistemy. Zhurnal “Estestvennye i tekhnicheskie nauki” [Development of architecture and nature as a system Magazine “Natural and Technical Sciences”]. Moscow, 2014, no.11-12(78), pp.443-444.
  13. Ryabov À.V. Ob"ekty al'ternativnoj ehnergetiki v arkhitekture zdanij [Objects of alternative energy in the architecture of buildings]. Moscow, 2012.
  14. Selivanov N. P., Melua À.I., Zokolej S.V. Sarnatskij E.V. Ehnergoaktivnye zdaniya [Energy active buildings]. Moscow, 1988.
  15. Semikin P.P. Principy formirovaniya arhitektury vysotnyh zdanij s vozobnovlyaemymi istochnikami ehnergii. (kand. dis.) [Principles of formation of architecture of high-rise buildings with renewable energy sources. (cand. dis.)]. Moscow, 2014, pp.40-41.
  16. Sostoyanie vozobnovlyaemoj ehnergetiki 2016: global'nyj otchet [Renewables 2016 Global Status Report Key]. Available at: http://www.ren21.net/wp-content/uploads/2016/10/REN21_GSR2016_KeyFindings_RUSSIAN.pdf
  17. Tvajdell D. Vozobnovlyaemye istochniki ehnergii [Renewable energy sources]. Moscow, 1990.
  18. Chesnokov S.À. Chesnokov À.G., Prilipko S.G. Ispol'zovanie tonkoplenochnykh solnechnykh modulej v arkhitekture. OÀO «GIS» [Using thin-film solar modules in the architecture. "GIS"]. 2014. Available at: http://glassinfo.ru/index.php?page=page42
  19. Shepovalova O.V. Ispol'zovanie vozobnovlyaemyh istochnikov ehnergii v kompleksnyh sistemah ehnergoobespecheniya sel'skih zdanij. Polzunovskij vestnik [The use of renewable energy sources in integrated energy systems rural buildings. Polzunovskii Herald]. – ¹2/2. – 2011.