Istrazivanja i projektovanja za privreduJournal of Applied Engineering Science


DOI: 10.5937/jaes12-6554
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions. 
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Volume 12 article 297 pages: 243 - 251

Viktor Elistratov 
St.Petersburg State Polytechnical University, St.Petersburg, Russia

Vladimir Petrov 
St.Petersburg State Polytechnical University, St.Petersburg, Russia

Vladimir Alihodzic 
St.Petersburg State Polytechnical University, St.Petersburg, Russia

This article proposes to apply active building-integrated solar systems for independent energy sup­ply of buildings, their classification is presented. The classification of building-integrated photovoltaic (BIPV) technologies is carried out. The international qualified standards of BIPV systems are pre­sented. International market and economic aspects of BIPV systems implementation are analyzed in the article. The methodology of calculation of solar radiation income on variously oriented surfaces in real cloudiness conditions is given. The software, which was developed in order to calculate solar radiation income on differently orientated inclined surfaces in real weather conditions, is described. Also papercontains calculations ofsolar radiation income on variously orientated surfaces and rec­ommendations foroptimal disposition ofphotovoltaic modules and solarthermal collectors.

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Alihodzic, R., Murgul, V., Vatin, N., Arono- va, E., Nikolic, V., Tanic, M., Stankovic, D. (2014): Renewable Energy Sources used to Supply Pre-school Facilities with Energy in Different Weather Conditions. Applied Me­chanics and Materials.Vol. 624.pp. 604-612.

Aronova, E., Radovic, G., Murgul, V., Va­tin, N. (2014): Solar Power Opportunities in Northern Cities (Case Study of Saint-Pe­tersburg). Applied Mechanics and Materials. Vols. 587-589, pp. 348-354.

Aronova, E., Murgul, V. (2013): The evalu­ation of the appropriateness for using solar energy  technologies in the historical building of Saint-Petersburg and the climatic condi­tions of the North-West region, Architecture and Modern Information Technologies, Ns 2 (23), pp. 97-117.

Cvetkovska, M., Knezevic, M., Rogac, M. (2012): Thermal insulation effects on energy efficiency of building structures, Civil and Environmental Engineering UGM, Vol. 5, No. XXI/2, pp. 1209-1215.

Elistratov, V. (2013) Renewable energy, Saint-Petersburg: “Science”.

Elistratov, V., Aronova E. (2012) Solar power plants. Estimation of the amount of solar ra­diation, Saint-Petersburg: Saint-Petersburg State Polytechnical University.

Elistratov, V., Knezevic, M., Denisov, R., Konishchev, M. (2014): Problems of con­structing wind-diesel power plants in harsh climatic conditions, Journal of Applied Engi­neering Science, Vol. 12,N1,pp 29-36.

Europeani Comiteei fori Electrotechnical-Standarization, Crystalline Silicon Terrestrial Photovoltaic (PV) Modules - Design Qualifi­cation and Type Approval, EN 61215, Euro­pean Standard, 2005.

European Commitee for Electrotechnical-Standarization,i Thin-filmi Terrestrial Photo­voltaic (PV) Modules - Design Qualification and Type Approval, EN 61646, European Standard, 2008.

European Committee for Electrotechnical-Standarization, Photovoltaic (PV) Module Safety Qualification - Part 1: Requirements for Construction, EN 61730-1, European Standard, 2007.

European Committee for Electrotechnical Standarization, Photovoltaic (PV) Module Safety Qualification - Part 2: Requirements for Test­ing, EN 61730-2, European Standard, 2007.

Golovina, S., Murgul, V. (2013): Sistemysolnechnogoenergosnabzheniya v arkhitekture istoricheskikhgorodov,Vestnikgrazhdanskikh inzhenerov, N 5 (40), pp. 26-32.

Gueymard, C., (1993): Critical analysis and per­formance assessment of clear-sky solar-irradiance models using theoretical and measured data, Solar Energy, N 51(2), pp. 121-138.

IEA-PVPS, Grid connected power systems: SummaryiofiIEA/PVPSiTaskiViactivitiesifromi 1993 to 1998, T5-03, 1999.

qbal, M. (1983): An introduction to solar radiation. New-York Academic press, N 6, pp. 101-119.

Jelle, B. P., Breivik, C. (2012): State-of-the- art Building Integrated Photovoltaics, Energy Procedia, N 20, pp. 68-77.

Jelle, B. P., Breivik, C. (2012): The Path to the Building Integrated Photovoltaics of To­morrow, Energy Procedia, N20, pp. 78-87.

Jelle, B.P., Breivik, C., Rokenes, H.D. (2012): Building integrated photovoltaic products: A state-of-the-art review and future research opportunities, Solar Energy Materials and SolarCells, N 10, pp. 69-96.

Lazarevska, M., Milanovic, M., Knezevic, M., Cvetkovska, M., Trombeva-Gavriloska, A., Samardzioska, T.(2014): An artificial neural network prediction model for fire resistance ofi compositei columns,i Journali ofi Appliedi Engineering Science, Vol. 12, Ns 1, pp 63-68.

Lazarevska, M., Trombeva-Gavriloska, A., Knezevic, M., Samardzioska, T., Cvetkovs­ka, M. (2012): Neural network prognostic model for RC beams strengthened with CFRP strips, Journal of Applied Engineering Science, Vol. 10,N 1, pp. 27-30.

Murgul, V. (2014): Features of energy efficient upgrade of historic buildings (illustrated with the example of Saint-Petersburg),Journal of Ap­plied Engineering Science, Vol. 12 (1), pp 1-10.

Murgul, V.:Solar energy systems in the reconstructioni of heritage historical buildings of the northern towns (for example Sankt- Petersburg).Journal of Applied Engineering Science, Vol. 12 (2) (2014), pp 121-128.

Murgul, V. (2013): 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, Architecture and Modern In­formation Technologies, Ns 1 (22), pp. 1-18.

Murgul, V. (2013): Solar energy in the reconstruction of urban environment of historic building Saint-Petersburg, Architecture and Modern Information Technologies, N 2 (23), pp. 1-24.

Murgul, V. (2012): Improvement of the en­ergy efficient properties of the houses in the historical area of Saint-Petersburg, Archi- tecton: Proceedings of Higher Education, 4 (40),ipp. 54-622.

Nemova, D., Murgul, V., Golik, A., Chizhov, E., Pukhkal, V., Vatin N.(2014): Reconstruc­tion of administrative buildings of the 70s: the possibility of energy modernization, Jour­nal of Applied Engineering Science, Vol. 12 (1), pp 37-44.

Norton, B., Eames, P.C., Mallick, T.K., Huang, M.J., McCormack, S.J., Mondol, J.D., Yohanis,Y.G., (2011): Enhancing the performance of building integrated photovoltaics, Solar Energy, N 85, pp. 1629-1664.

Paul, D., Mandal, S.N., Mukherjee, D., Bhadra-Chaudhuri, S.R. (2010): Optimization of significant insolation distribution pa­rameters - A new approach towards BIPV system design, Renewable Energy,N 35, pp. 2182-2191.

Pavlicic, N., Perazic, M., Djuric-Jocic, D., Kne- zevic, M. (2014): Engineering education in the field of civil engineering, Journal of Applied En­gineering Science, Vol. 12, Ns 1, pp 11-18.

Radovic, G., Murgul, V., Vatin, N.(2014): Fast urban development of Cetinje - old royal capital of Montenegro. Applied Mechanics and Materials. Vols. 584-586, pp. 564-569.

Stanojevic, D., Spasojevic, V., Stevanovic, I., Nedic, A. (2013): The contemporary auto­matic gearboxes - Review of the current state and interpretation of advantages and disad­vantages of their use with respect to vehicle performance and traffic safety, Journal of Ap­plied Engineering Science, 11 (2), pp. 89-97.

Wong L.T., Chow W.K. (2001): Solar radiation model, Applied Energy, Ns 69 (3), pp. 191-224.

Vuksanovic, D., Murgul V.,Vatin, N., Aronova E. (2014): Shadowing impact on amount of power generated by photovoltaic modules. Applied Mechanics and Materials. Vols. 587­589, pp. 342-347.