Fotonaponski sistemi integrisani u omotač zgrade – studija slučaja implementacije na Fakultetu inženjerskih nauka u gradu Kragujevcu

##plugins.themes.bootstrap3.article.main##

Natalija Aleksić Danijela Nikolić Vanja Šušteršič Jasmina Skerlić Mladen Josijević

Apstrakt

Razvoj fotonaponskih sistema integrisanih u omotač zgrade (BIPV) i njihova implementacija kod novih ili postojećih konstrukcija omotača zgrade pružaju estetska, ekonomska i tehnička rešenja za integraciju solarnih ćelija za proizvodnju električne energije u energetski efikasnim omotačima zgrada. U modernim i razvijenim zamljama postoji tranzicija ka potpuno energetski održivoj arhitekturi kroz realizaciju niskoenergetskih zgrada. U isto vreme, BIPV predstavlja toplotni omotač zgrade i izvor koji generiše električnu energiju BIPV igra važnu ulogu u novoj eri distribucije el-ektrične energije. Ovaj rad daje pregled aktulenih tipova BIPV sistema kao i njihovu primenu, i ukazuje na mogućnosti i potrebe za integracijom BIPV sistema na već postojeće objekte. U okviru rada je takodje predstavljena studija slučaja moguće implementcije BIPV sistema na jednom od ob-jekata Fakulteta inženjerskih nauka u gradu Kragujevcu, sa analizom mogućnosti uštede energije sa ugradnjom različitih vrsta BIPV sistema na zgradu fakulteta.

##plugins.themes.bootstrap3.article.details##

Kako citirati
ALEKSIĆ, Natalija et al. Fotonaponski sistemi integrisani u omotač zgrade – studija slučaja implementacije na Fakultetu inženjerskih nauka u gradu Kragujevcu. Zbornik Međunarodne konferencije o obnovljivim izvorima električne energije – MKOIEE, [S.l.], v. 7, n. 1, p. 213-220, dec. 2019. Dostupno na: <https://izdanja.smeits.rs/index.php/mkoiee/article/view/5950>. Datum pristupa: 13 july 2020
Sekcija
Energetska efikasnost

Reference

[1] Heinstein, P., Ballif, C. and Perret-Aebi, L., Building Integrated Photovoltaics (BIPV): Review, Barriers and Myths, Green, Green, 3(2), pp. 125-256., 2013.
[2] BIPV product overview for solar facades and roofs, BIPVSTATUS REPORT 2015, SEAC SUPSI
[3] Sinapis, K. and Donker, M., BIPV REPORT 2013 - State of the art in Building Integrated Photo-voltaics, In SEAC (Ed.) Eindhoven: Solar Energy Application Centre, 2013.
[4] Building-Integrated Photovoltaics (BIPV): Technologies and Global Markets, BCC Research En-ergy and Resources Report, 2011.
[5] Montoro, D., Vanbuggenhout, P. and Ciesielska, J., Building Integrated Photovoltaics: An Overview of the Existing Products and their Field of Application, EPIA Report prepared in the framework of the EU funded project SUNRISE, 2012
[6] Cerón, I., Caamaño-Martín, E. and Neila, F., State-of-the-art of Building Integrated Photovol-taic Products, Renewable Energy, 58(C), pp. 127-133, 2013.
[7] Bonomo, P., Chatzipanagi, A. and Frontini, F., Overview and analysis of current BIPV prod-ucts: new criteria for supporting the technological transfer in the building sector, International Journal of Architectural Technology and Sustainability, 2015.
[8] Building and Construction Authority, Green handbook: photovoltaic (PV) systems in build-ings, Singapore, 2008.
[9] Attoye, D. Aoul, K. and Hassan, A., A Review on Building Integrated Photovoltaic Façade Cus-tomization Potentials. Sustainability, 9(12), pp. 1-24., 2017.
[10] Anonymous, ENERGYPLUS, Input Output Reference -The Encyclopedic Reference to Ener-gyPlus Input and Output, University of Illinois & Ernest Orlando Lawrence Berkeley National Laboratory, 2009.
[11] Henninger, R. H., Witte, M. J., Crawley, D. B., Analytical and comparative testing of Ener-gyPlus using IEA HVAC BESTEST E100-E200 test suite, Energy and Buildings 36(8), pp. 855–863., 2004.
[12] Berkeley, L., National Laboratory. EnergyPlus -Engineering documentation: the reference to EnergyPlus calculations University of Illinois & Ernest Orlando Lawrence Berkeley National La-boratory (2001).
[13] Bojić, M., Skerlić, J., Nikolić, D., Cvetković, D., Miletić, M., ,Toward future: positive net-energy buildings, Proceedings 4thIEEE International Symposium on Exploitation of Renewable Energy Sources, EXPRES 2012, Subotica, Serbia,2012.
[14] Wetter, M., GenOpt, Generic Optimization Program. User Manual, Lawrence Berkeley Na-tional Laboratory, Technical Report LBNL-54199(2004)109.
[15] PVsites, BIPV market and stakeholder analysis and needs, Project report R2M, Onyx Solar, Flisom, BEAR-iD, Acciona, 2016.
[16] EPS Serbia, http://www.eps.rs/lat, accessed 27.06.2019.
[17] International Renewable Energy Agency, Renewable energy technologies: cost analysis series, Power Sector, 1 (4/5), pp. 1-45, 2012.
[18] Bojić, M., Nikolić, N., Nikolić, D., Skerlić, J. and Miletić, I., A positive-net-energy residential building in Serbian conditions, Applied Energy, 88 (7), pp. 2407-2419, 2011.