Electricity generetion at Serbian zneb – sizing of required pv panels area to minimize the primary energy consumption
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Nov 2, 2017
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Apstrakt
Solarna fotonaponska (PV) tehnologija predstavlja atraktivno rešenje za čistu proizvodnju električne energije iz obnovljivih energetskih izvora. U ovom radu analizirane su mogućnosti za smanjenje potrošnje energije kod srpskih porodičnih zgrada. Istraživana je zgrada sa PV sistemom za generisanje elektične energije. Istraživane su porodične kuće sa različitom debljinom izolacije, različitom potrošnjom električne energije i različitom potrošnjom tople vode, sa ciljem postizanja koncepta neto-nulte energetske zgrade (zero net-energy building - ZNEB). Zgrade su simulirane u okruženju softvera EnergyPlus. Open Studio plug-in u Google SketchUp-u je korišćen za dizajniranje zgrade, Hooke-Jeeves algoriam za optimizaciju, a GENOPT softver za izvršnu kontrolu softvera pri optimizaciji. Dobijeni rezultati su dali optimalne vrednosti površine PV panela.
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Kako citirati
NIKOLIĆ, Danijela et al.
Electricity generetion at Serbian zneb – sizing of required pv panels area to minimize the primary energy consumption.
Zbornik Međunarodnog kongresa o KGH, [S.l.], v. 44, n. 1, p. 1-8, nov. 2017.
Dostupno na: <https://izdanja.smeits.rs/index.php/kghk/article/view/3093>. Datum pristupa: 15 mar. 2025
Sekcija
Program za studente, mlade inženjere i profesionalni razvoj – kombinovano sa prezentacijama glavnih sponzora
Reference
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[2] Kapsalaki M., Leal V., Santamouris M., A methodology for economic efficient design of Net Zero Energy Buildings, Energy and Buildings 55, 2012, pp. 765 - 778
[3] Bojić M., Nikolić N., Nikolić D., Skerlić J., Miletić I., Toward a positive-net-energy residential building in Serbian conditions, Applied Energy, 88–7 (2011), p. 2407- 2419
[4] Marszal A.J., Heiselberg P., Bourrelle J.S., Musall E.,. Voss K, Sartori I., Napolitano A., Zero energy building – a review of definitions and calculation methodologies, Energy and Buildings 43 (2011), pp. 971–979
[5] Anonymous, ENERGYPLUS, Input Output Reference - The Encyclopedic Reference to EnergyPlus Input and Output, University of Illinois & Ernest Orlando Lawrence Berkeley National Laboratory, 2009
[6] Henninger R.H., Witte M.J., Crawley D.B., Analytical and comparative testing of EnergyPlus using IEA HVAC BESTEST E100-E200 test suite, Energy and Buildings 36 (8), (2004), p. 855–863.
[7] Lawrence Berkeley National Laboratory. EnergyPlus - Engineering documentation: the reference to EnergyPlus calculations. University of Illinois & Ernest Orlando Lawrence Berkeley National Laboratory; 2001.
[8] Bojić M., Skerlić J., Nikolić D., Cvetković D., Miletić M, Toward future: positive net- energy buildings, Proceedings 4 th IEEE International Symposium on Exploitation of Renewable Energy Sources, EXPRES 2012, March 9-10, 2012., Subotica, Serbia, p. 49-54
[9] Wetter, M., 2004. GenOpt, Generic Optimization Program. User Manual, Lawrence Berkeley National Laboratory, Technical Report LBNL- 54199, p. 109.
[10] Audet C.,. Dennis J.E Jr., Analysis of generalized pattern searches, SIAM Journal on Optimization 13 (3) (2003), pp. 889–903.
[11] Wetter M., Polak E., Building design optimization using a convergent pattern search algorithm with adaptive precision simulations, Energy and Buildings 37 (2005), pp. 603–612.
[12] Hooke R., Jeeves T.A., Direct search solution of numerical and statistical problems, Journal of the Association for Computing Machinery 8 (1961), pp. 212–229.
[13] Alsema, E.A., Nieuwlaar, E., Energy viability of photovoltaic systems, Energy Policy 28(14) (2000), pp. 999–1010
[14] Alsema E.A., Energy pay-back time and CO2 emissions of PV systems, Progress in Photovoltaics: Research and Applications 8(1), (2000), pp. 17–25
[15] Nikolić D., Skerlić J., Miletić M., Radulović J., Bojić M., Energy optimization of PV panels size at Serbian ZNEB and PNEB, Proceedings 23th Confernita Nationala cu Participare Internationala
[16] INSTALATII PENTRU CONSTRUCTII SI CONFORTUL AMBIENTAL, 11-12 April, Timisoara, Romania, pp.267-278
[17] Bojić M., Djordjević S., Malešević J., Miletić M., Cvetković D., A simulation appraisal of a switch of district to electric heating due to increased heat efficiency in an office building, Energy and Buildings 50 (2012), pp. 324–330
[18] Justine Sanchez, PV Energy Payback, www.homepower.com
Bojić M., Miletić M., Marjanović V., Nikolić D., Skerlić J., Optimization of thermal insulation to achieve energy savings, 25. International conference on efficiency, cost, optimization, simulation and environmental impact of energy systems-ECOS 2012, Perugia, Italy, Jun 26-29.2012, paper174, p. 174-1-174-10
[2] Kapsalaki M., Leal V., Santamouris M., A methodology for economic efficient design of Net Zero Energy Buildings, Energy and Buildings 55, 2012, pp. 765 - 778
[3] Bojić M., Nikolić N., Nikolić D., Skerlić J., Miletić I., Toward a positive-net-energy residential building in Serbian conditions, Applied Energy, 88–7 (2011), p. 2407- 2419
[4] Marszal A.J., Heiselberg P., Bourrelle J.S., Musall E.,. Voss K, Sartori I., Napolitano A., Zero energy building – a review of definitions and calculation methodologies, Energy and Buildings 43 (2011), pp. 971–979
[5] Anonymous, ENERGYPLUS, Input Output Reference - The Encyclopedic Reference to EnergyPlus Input and Output, University of Illinois & Ernest Orlando Lawrence Berkeley National Laboratory, 2009
[6] Henninger R.H., Witte M.J., Crawley D.B., Analytical and comparative testing of EnergyPlus using IEA HVAC BESTEST E100-E200 test suite, Energy and Buildings 36 (8), (2004), p. 855–863.
[7] Lawrence Berkeley National Laboratory. EnergyPlus - Engineering documentation: the reference to EnergyPlus calculations. University of Illinois & Ernest Orlando Lawrence Berkeley National Laboratory; 2001.
[8] Bojić M., Skerlić J., Nikolić D., Cvetković D., Miletić M, Toward future: positive net- energy buildings, Proceedings 4 th IEEE International Symposium on Exploitation of Renewable Energy Sources, EXPRES 2012, March 9-10, 2012., Subotica, Serbia, p. 49-54
[9] Wetter, M., 2004. GenOpt, Generic Optimization Program. User Manual, Lawrence Berkeley National Laboratory, Technical Report LBNL- 54199, p. 109.
[10] Audet C.,. Dennis J.E Jr., Analysis of generalized pattern searches, SIAM Journal on Optimization 13 (3) (2003), pp. 889–903.
[11] Wetter M., Polak E., Building design optimization using a convergent pattern search algorithm with adaptive precision simulations, Energy and Buildings 37 (2005), pp. 603–612.
[12] Hooke R., Jeeves T.A., Direct search solution of numerical and statistical problems, Journal of the Association for Computing Machinery 8 (1961), pp. 212–229.
[13] Alsema, E.A., Nieuwlaar, E., Energy viability of photovoltaic systems, Energy Policy 28(14) (2000), pp. 999–1010
[14] Alsema E.A., Energy pay-back time and CO2 emissions of PV systems, Progress in Photovoltaics: Research and Applications 8(1), (2000), pp. 17–25
[15] Nikolić D., Skerlić J., Miletić M., Radulović J., Bojić M., Energy optimization of PV panels size at Serbian ZNEB and PNEB, Proceedings 23th Confernita Nationala cu Participare Internationala
[16] INSTALATII PENTRU CONSTRUCTII SI CONFORTUL AMBIENTAL, 11-12 April, Timisoara, Romania, pp.267-278
[17] Bojić M., Djordjević S., Malešević J., Miletić M., Cvetković D., A simulation appraisal of a switch of district to electric heating due to increased heat efficiency in an office building, Energy and Buildings 50 (2012), pp. 324–330
[18] Justine Sanchez, PV Energy Payback, www.homepower.com
Bojić M., Miletić M., Marjanović V., Nikolić D., Skerlić J., Optimization of thermal insulation to achieve energy savings, 25. International conference on efficiency, cost, optimization, simulation and environmental impact of energy systems-ECOS 2012, Perugia, Italy, Jun 26-29.2012, paper174, p. 174-1-174-10