Istrazivanja i projektovanja za privreduJournal of Applied Engineering Science


DOI: 10.5937/jaes12-6162
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions. 
Creative Commons License

Volume 12 article 302 pages: 277 - 284

Goran Radovic
University of Montenegro, Faculty of Architecture, Podgorica, Montenegro

Vera Murgul
St. Petersburg State Polytechnical University, Saint-Petersburg, Russia

Meri Cvetkovska
Faculty of Civil Engineering, Ss. Cyril and Methodius University in Skopje, Skopje, Republic of Macedonia

Ekaterina Aronova
Ioffe Physical-Technical Institute of the Russian Academy of Sciences, Saint-Petersburg, Russia

Nikolay Vatin
St. Petersburg State Polytechnical University, Saint-Petersburg, Russia

The article evaluates the possibility of using solar energy for power supply of the historic buildings and structures in accordance with the current Protection of Cultural Heritage legislation of Montenegro. The article puts forward the options for architectural incorporation of solar power systems into the appearance of historic buildings and structures. The article also considers the ways of solar photovoltaic installation into a number of electrical systems. The optimization of the parameters of such systems based on the example of independent consumer with different power schedules has been carried out. The configuration of systems based on the results of the calculation both with one energy source (solar/diesel plant) and their combination is proposed in the article, the capital cost of the equipment has been estimated together with the cost of maintenance and parts replacement as well as the total discounted costs over the operation of the system.

View article

G. Radovic: Istorija arhitekture Crne Gore, Podgorica: Skripta, Arhitektonski fakultet Univerziteta Crne Gore (2006)

Davidsson, H., Perers, B., Karlsson, B (2012): System analysis of a multifunctional PV/T hybrid solar window, Solar Energy, Vol. 86 (3), pp 903-910

Elistratov, V., Kudryasheva, I., Miroshnikova, J. (2014): Enumeration of system efficiency into tariff of renewable energy objects, Applied Me- chanics and Materials, Vol. 680, pp. 517-523., retrieved on November 8th, 2014 Gagovic, retrieved on November 8th, 2014 starstvo, retrieved on November 8th, 2014 

Leskovar, V.Z., Premrov, M. (2012): Design approach for the optimal model of an energy-efficient timber building with enlarged glazing surface on the south fagade. Journal of Asian Architecture and Building Engineering, 11 (1), pp. 71-78. 

Leskovar, V.Z., Premrov, M., Kuzman, M.K. (2012): Energy-Efficient Renovation Principles for Prefabricated Timber-Frame Residential Buildings [Energetski ucinkovita nacela obnove montaznih stambenih zgrada s drvenim okvirom], Drvna Industrija, 63 (3), pp. 159-168. 

Moschella, A., Salemi, A., Lo Faro A, Sanfilip- po, G., Detommaso, M., Privitera, A. (2013): Historic Buildings in Mediterranean Area and Solar Thermal Technologies: Architectural Integration vs Preservation Criteria, Energy Procedia, Vol. 42, pp. 416-425 

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

Norton, B., Eames, P.C., Mallick, T.K., Huang, M.J., McCormack, S.J (2011): Enhancing the performance of building integrated photovol taics, Solar Energy, Vol 85, pp. 1629-1664. 

Polo Lopez C. S., Frontini, F. (2014): Energy efficiency and renewable solar energy integration in heritage historic buildings, Energy Procedia Vol. 48 pp. 1493 – 1502 

Scheer, H. (1995): Solar energy's economic and social benefits, Solar Energy Materials and Solar Cells, Vol. 38, Issues 1-4, pp 555-568 

Sibley, M., Sibley, Mar. (2013): Hybrid Green Technologies for Retrofitting Heritage Buildings in North African Medinas: Combining Vernacular and High-tech Solutions for an Innovative Solar Powered Lighting System for Hammam Buildings, Energy Procedia, Vol. 42, pp 718-725 

Sozer H., Elnimeiri, M. (2007): Critical factors in reducing the cost of building integrated photovoltaic (BIPV) systems, Architectural Science Review, Vol. 50, pp. 115-121. 

Stamatovich, B. (2010): Automaton recogni- tion of doubly connected labyrinths with finite cyclic diameter, Programming and Computer Software, 36 (3), pp. 149-156 

Vatin, N., Nemova, D., Tarasova, D., Staritcyna A. (2014): Increase of energy efficiency for educational institution building. Advanced Materials Research, Vols. 953-954, pp. 854-870. 

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

Xuan, X., Jian-Hong, W., Stamatovic, B. (2014): Iterative selection of unknown weights in direct weight optimization identification. Mathematical Problems in Engineering, 2014, art. no. 572092 

Zegarac Leskovar, V., Premrov, M. (2011): Design approach for the optimal model of an energy-efficient timber building with various glazing types and surfaces on the south fagade, WIT Transactions on the Built Environment, 118, pp. 541-552.