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

2(23) 2013


English version Russian version



ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES
INTERNATIONAL ELECTRONIC SCIENTIFIC - EDUCATIONAL JOURNAL ON SCIENTIFIC-TECHNOLOGICAL AND EDUCATIONAL-METHODICAL ASPECTS OF MODERN ARCHITECTURAL EDUCATION AND DESIGNING WITH THE USAGE OF VIDEO AND COMPUTER TECHNOLOGIES


Article 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
Authors E.S. Aronova, Ioffe Physical-Technical Institute of the Russian Academy of Sciences Russia, Saint-Petersburg, Russia
V. Murgul, Saint-Petersburg State University of Architecture and Civil Engineering (SPSUACE), Saint-Petersburg, Russia
Abstract In the article the methodology and calculations of the amount of the solar irradiance on differently orientated inclined surfaces in weather conditions of Saint-Petersburg were presented. Power generation by solar photovoltaic modules (PV) in real operation condition was determined. Algorithm for calculation of the influence of partial shadowing of photovoltaic module surface on the power generation was developed. It’s shown that optimal inclination angle of PV surfaces, which provides maximum power generation and minimal power loses, due to shading in condition of c. Saint-Petersburg, is 30-40°.
Keywords: architecture, solar energy, energy-efficient buildings, energy-efficient technologies
article Article (RUS)
References
  1. Zakon Sankt-Peterburga «O granicah zon ohrany ob"ektov kul'turnogo nasledija na territorii Sankt-Peterburga i rezhimah ispol'zovanija zemel' v granicah ukazannyh zon i o vnesenii izmenenij v Zakon Sankt-Peterburga» «O General'nom plane Sankt-Peterburga i granicah zon ohrany ob"ektov kul'turnogo nasledija na territorii Sankt-Peterburga» [The law of St.-Petersburg «About borders of zones of protection of objects of a cultural heritage in territory of St.-Petersburg and modes of use of the grounds in borders of the specified zones and about modification in the Law of St.-Petersburg» «About the General plan of St.-Petersburg and borders of zones of protection of objects of a cultural heritage for territories of St.-Petersburg»]. Available at: http://www.assembly.spb.ru/manage/page?tid=633200192
  2. Peterburgskaja strategija sohranenija kul'turnogo nasledija. Postanovlenie Pravitel'stva Sankt-Peterburga ot 01.11.2005 [The Petersburg strategy of preservation of a cultural heritage. The governmental order of St.-Petersburg from 11/1/2005 -N 1681]. Available at: http://kgiop.ru/rus/strategy/
  3. Murgul V.A. Povyshenie jenergojeffektivnosti rekonstruiruemyh zhilyh zdanij istoricheskoj zastrojki Sankt-Peterburga «Arhitekton: izvestija vuzov» ¹ 40 Dekabr' 2012 [Improvement of the energy efficient properties of the houses in the historical area of Saint-Petersburg] «Arkhitekton: izvestiya vuzov» ¹ 40 Dekabr 2012. Available at: http://archvuz.ru/2012_4/7
  4. Elistratov V.V. Vozobnovlyayemaya energetika [Renewable energy]. Saint-Petersburg, 2011, 239 p.
  5. Murgul V.A. Vozmozhnosti ispolzovaniya solnechnoy energii dlya energosnabzheniya zhilykh zdaniy istoricheskoy zastroyki Sankt-Peterburga i uluchsheniya kachestva gorodskoy sredy [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] Mezhdunarodnyy elektronnyy nauchno-obrazovatelnyy zhurnal «Arkhitektura i sovremennyye informatsionnyye tekhnologii» AMIT. Available at: http://www.marhi.ru/AMIT/2013/1kvart13/murgul/murgul.pdf
  6. Kondratyev, K.Ya. Luchistaja jenergija solnca [The radiant energy of the sun]. Leningrad, 1954, 600 p.
  7. Sivkov S.I. Metody rascheta harakteristik solnechnoj radiacii [Methods of calculation of characteristics of solar radiation]. Leningrad, 1968, 231 p.
  8. Elistratov V.V., Aronova E.S. Solnechnye jenergoustanovki. Ocenka postuplenija solnechnogo izluchenija [Solar power plants. Estimation of the amount of solar radiation]. Saint-Petersburg, 2012, 164 p.
  9. Firma Solnechnyy veter, g. Krasnodar [Firm the Solar wind, Krasnodar]. Available at: http://www.solwind.ru/
  10. Frolov I.T. Perspektivy cheloveka [Prospects of the person]. Moscow,1983, 348 p.
  11. Nauchno-prikladnoj spravochnik po klimatu SSSR v 30 tomah. Mnogoletnie dannye [The scientifically-applied directory on a climate of the USSR in 30 volumes. Long-term data]. Saint-Petersburg, 1990.
  12. Pivovarova Z.I. Klimaticheskie harakteristiki solnechnoj radiacii kak istochnika jenergii na territorii SSSR [Climatic data of solar radiation as an energy source in the USSR]. Leningrad, 1988, 127 p.