ASSESSMENT OF THE POSSIBILITIES OF BUILDING INTEGRATED PV SYSTEMS OF 1 kW ELECTRICITY GENERATION IN BANJA LUKA
DOI:
https://doi.org/10.7251/COMEN1202167PAbstract
The paper focuses on the analysis and assessment of the possibilities of building integrated PV (BIPV) systems of 1 kW electricity generation in Banja Luka in the Republic of Srpska. Special attention was paid to average monthly sum of global solar irradiation per square meter received by horizontally, optimally and vertically inclined and south-oriented solar modules of 1kW BIPV system and total for year electricity production from 1 kW BIPV system with horizontally, optimally and vertically inclined and south-oriented solar modules of different materials for Banja Luka, obtained by PVGIS. In addition, comparison was made of total for year electricity production of 1kW BIPV system with horizontal, optimal and vertical inclination and south-oriented solar modules of monocrystalline silicon, CdTe and CIS in Banja Luka. The research estimated the proportion of BIPV systems power generation according to different types of PV modules and installation methods. The data could serve as a useful reference for the application of BIPV systems in buildings.
References
[2] F. Dincer, The analysis on photovoltaic electricity generation status, potential and policies of the leading countries in solar energy, Renewable and Sustainable Energy Reviews, Vol. 15−1 (2011) 713−720.
[3] K. H. Solangi, M. R. Islam, R. Saidur, N. A. Rahim, H. Fayaz, A review on global solar energy policy, Renewable and Sustainable Energy Reviews, Vol. 15−4 (2011) 2149−2163.
[4] M. Pucar, Bioclimate architecture, Institute of Urbanism and Architecture of Serbia, Belgrade, 2006. (in Serbian).
[5] V. Kosorić, Active solar systems- application in the covers of the energy efficient buildings, Građevinska knjiga, Belgrade, 2007. (in Serbian).
[6] T. Pavlović, D. Milosavljević, Application of solar cells in modern architecture, Proceedings of International Scientific Conference, „Contemporary Materials“ , Banja Luka 2011, Republic of Srpska, 103−113.
[7] T. Pavlović, D. Milosavljević, D. Mirjanić, I. Radonjić, L. Pantić and D. Pirsl, Analyses of PV sys-tems of 1kW electricity generation in Bosnia and Herzegovina, Contemporary Materials (Renewable energy sources), Vol. II−2 (2011) 123−138.
[8] LIBER PERPETUUM, The Book On Renewable Energy Potentials Of Serbia And Montenegro, OSCE Mission to Serbia and Montenegro, Economic and Environmental department, Novi Sad, 2004.
[9] T. Pavlović, D. Milosavljević, A. Radivojević, M. Pavlović, Comparison and assessment of electricity generation capacity for different types of PV solar plants of 1MW In Soko Banja, Serbia, Thermal Science, Vol. 15−3 (2011) 605−618.
[10] T. Pavlović, B. Čabrić, Physics and techniques of solar energy, Građevinska knjiga, Belgrade, 2006 (in Serbian).
[11]J. M. Radosavljević, T. M. Pavlović, M. R. Lambić, Solar energy and sustainable development, Građevinska knjiga, Belgrade, 2010. (in Serbian)
[12] C. Peng, Y. Huang, Z. Wu, Building-integrated photovoltaics (BIPV) in architectural design in China, Energy and Buildings, Vol. 43 (2011) 3592−3598.
[13] T. Pavlović, D. Milosavljević, I. Radonjić, L. Pantić and A. Radivojević, Application of solar cells of different materials in PV solar plants of 1MW in Banjaluka, Contemporary Materials (Renewable energy sources), Vol. II−2 (2011) 155−163.
[14] http://www.pvresources.com/en/solarcells.php
[15] D. Djurdjevic, Perspectives and assessments of solar PV power engineering in the Republic of Serbia, Renewable and Sustainable Energy Reviews, Vol. 15−5 (2011) 2431−2446.
[16] PVGIS © European Communities; 2001–2008. Available online at: http://re.jrc.ec.europa.eu/pvgis/apps3/pvest.php
[17] http://sunbird.jrc.it/pvgis/apps/pvest.php?europe=
[18] M. Šúri, T. A. Huld, E. D. Dunlop, PV-GIS: A Web-based Solar Radiation Database for the Calcu-lation of PV Potential in Europe, International Journal of Sustainable Energy, Vol. 24−2 (2005) 55−67.
[19] T. Pavlović, I. Radonjić, D. Milosavljević, L. Pantić, A review of concentrating solar power plants in the world and their potential use in Serbia, Renewable and Sustainable energy Review, Vol. 16−6 (2012) 3891−3902.
[20] T. Pavlović, I. Radonjić, D. Milosavljević, L. Pantić, D. Piršl, Assessment and potential use of concentrating solar power plants in Serbia and Republic of Srpska, Thermal Science, Vol. 16−3 (2012) 931−945, doi:10.2298/TSCI111027100P