PRIMENA SOFTVERA INSEL ZA REŠENJA FN SISTEMA U SRBIJI
Ključne reči:
Fotonaponski sistemi, obnovljivi izvori energije, solarna energija, INSEL softver
Apstrakt
U radu je obrađena solarna energija kao generalni pojam, kao i solarni potencijal za Republiku Srbiju. Pomoću INSEL softvera napravljen je virtuelni FN sistem za jedno domaćinstvo u Beogradu.
Reference
[1] M. Burgess, D. Pimentel, „World Human Population Problems“, Earth Systems and Environ. Scien., 2018
[2] M. Akbari, A. Shahsavari, „Potential of solar energy in Developing countries for reducing energy related emissions“, Renew. and Sust. Energy Rev., 90, 2018, pp. 275-291.
[3] European Commision, „Strategic Energy Technology (SET) Plan“.
[4] D. Djurdjevic, „Perspectives and assessments of solar PV power engineering in the Republic of Serbia“, Renew. and Sust. Energy Rev., 15, 2011, pp. 2431-2446.
[5] Y. Goswami, „Solar Energy“, Inter. Energy Society, 2017, https://www.journals.elsevier.com/solar-energy
[6] E. Kabir, P. Kumar „Solar energy: Potential and future prospects“, Renew. and Sust. Energy Rev., 82, 2018, pp.894–900
[7] W.H. Terjung, „A global classification of solar radiation“, Solar Energy, 2003.
[8] M. Milošević J. Brankov, “Geografija Srbije”, BIGZ Školstvo, 2016.
[9] D. Milosavljevic. T. Pavlovic, „Possibility of electricity generation using PV solar plants in Serbia“
Renew. and Sust. Energy Rev., 20, 2013, pp.201–218.
[10] A. P. Kirk, „Solar Photovoltaic Cells“, Elsevier, USA, 2015.
[11] K. Mertens, „Photovoltaic: fundamentals, technology and practice“, J. Wiley & Sons, 2014.
[12] V. Katic, I. Kapetanovic, N. Sarajlić, „Obnovljivi izvori električne energije“, CEFES, Novi Sad, 2007.
[13] P. Manimekalai, R. Harikumar „An Overview of Batteries for Photovoltaic (PV) Systems“, Intern. Journal of Computer Applic., Vol. 82, No. 12, 2013.
[2] M. Akbari, A. Shahsavari, „Potential of solar energy in Developing countries for reducing energy related emissions“, Renew. and Sust. Energy Rev., 90, 2018, pp. 275-291.
[3] European Commision, „Strategic Energy Technology (SET) Plan“.
[4] D. Djurdjevic, „Perspectives and assessments of solar PV power engineering in the Republic of Serbia“, Renew. and Sust. Energy Rev., 15, 2011, pp. 2431-2446.
[5] Y. Goswami, „Solar Energy“, Inter. Energy Society, 2017, https://www.journals.elsevier.com/solar-energy
[6] E. Kabir, P. Kumar „Solar energy: Potential and future prospects“, Renew. and Sust. Energy Rev., 82, 2018, pp.894–900
[7] W.H. Terjung, „A global classification of solar radiation“, Solar Energy, 2003.
[8] M. Milošević J. Brankov, “Geografija Srbije”, BIGZ Školstvo, 2016.
[9] D. Milosavljevic. T. Pavlovic, „Possibility of electricity generation using PV solar plants in Serbia“
Renew. and Sust. Energy Rev., 20, 2013, pp.201–218.
[10] A. P. Kirk, „Solar Photovoltaic Cells“, Elsevier, USA, 2015.
[11] K. Mertens, „Photovoltaic: fundamentals, technology and practice“, J. Wiley & Sons, 2014.
[12] V. Katic, I. Kapetanovic, N. Sarajlić, „Obnovljivi izvori električne energije“, CEFES, Novi Sad, 2007.
[13] P. Manimekalai, R. Harikumar „An Overview of Batteries for Photovoltaic (PV) Systems“, Intern. Journal of Computer Applic., Vol. 82, No. 12, 2013.
Objavljeno
2019-06-10
Sekcija
Elektrotehničko i računarsko inženjerstvo