ponedeljak, 22 jan 2018

Baner
Baner
Baner
Baner
Original Scientific paper
UDC: 697.329:519.677
DOI: 10.7251/afts.2017.0917.001S
COBISS.RS-ID 6817048
 
 
STRATEGIC ORIENTATATION TO SOLAR ENERGY
PRODUCTION AND LONG TERM FINANCIAL BENIFITS
 
Stevović S.Ivan1
 
1Faculty of Organizational Sciences, University of Belgrade, Serbia,
 
 

ABSTRACT  Full text (pdf)

The strategy for developing and improving the application of green, clean, renewable and gratis solar energy is a challenge for multidisciplinary teams of scientists. Exquisite examples of positive world practice of the largest solar power plants are presented in this paper, with all the characteristics, starting from the materials of photovoltaic panels and technical performance to the cost and financial benefits. The aim was to analyze the development of solar technologies in the function of defining further perspectives. The techno economic feasibility of the strategic orientation towards solar energy has been demonstrated in the model of the solar power plant, carried out by experiment, profitability calculation and multi-criteria analysis. The conclusion is that long-term financial and holistic benefits can be achieved by investing in solar power plants.
 
 
Key words: Solar energy production, strategy, long-term financial benefits, Electre I method

 

REFERENCES

[1] 
Parida, B., S. Iniyan, and R. Goic, A. (2011). Review of solar photovoltaic technologies. Renewable and Sustainable Energy Reviews, 15(3): p. 1625-1636.
[2] 
Angus, M. (2003). Development centre studies the world economy historical statistics: historical statistics, OECD Publishing.
[3] 
Pérez-Lombard, L., J. Ortiz, and C. Pout. (2008). A review on buildings energy consumption information. Energy and buildings, 40(3): p. 394-398.
[4] 
Barten, H. (2005). International Energy Agency. 
[5] 
Stevovic, S. et al. (2014). Sustainable water resources management of Prokletije region. Industrija, 42(1).
[6] 
Neymark, J. and R. Judkoff, (2004), Building Energy Simulation Test and Diagnostic Method for Heating, Ventilating, and Air-Conditioning Equipment Models (HVAC BESTEST): Volume 2: Cases E300-E545, 
[7] 
Morris, S.S., W.P. Woodworth, and S.R. Hiatt, (2006). The value of networks in enterprise development: Case studies in Eastern Europe and Southeast Asia. Journal of Developmental Entrepreneurship, 11(04): p. 345-356.
[8] 
Chacra, F.A., et al. (2005). Impact of energy storage costs on economical performance in a distribution substation. Power Systems, IEEE Transactions on, 20(2): p. 684-691.
[9] 
Stevovic S, Miloradovic M, and Stevovic I. (2014). Management of environmental quality and Kostolac mine areas natural resources usage. Management of Environmental Quality: An International Journal, 25(3): p. 285-300
[10] 
Harnmeijer, J., M. Parsons, and C. Julian, (2013).The Community Renewables Economy. Starting up, scaling up and spinning out. www. respublica. org. uk/documents/ pdf (29.06. 2017),
[11] 
Jäger-Waldau, A., (2008). PV Status Report Research, Solar Cell Production and Market Implementation of Photovoltaics, Institute for Energy IE, European Commission EC, Petten (Netherlands).
[12] 
Bosi, M. and C. Pelosi, (2007). The potential of III-V semiconductors as terrestrial photovoltaic devices. Progress in Photovoltaics, 15(1): p. 51-68.
[13] 
Wadia, C., A.P. Alivisatos, and D.M. Kammen, (2009). Materials availability expands the opportunity for large-scale photovoltaics deployment. Environmental Science & Technology, 43(6): p. 2072-2077.
[14] 
Prados, M.-J., (2010). Renewable energy policy and landscape management in Andalusia, Spain: The facts. Energy policy, 38(11): p. 6900-6909.
[15] 
Jovanovic, J., et al. (2017). Energy-efficiency gain by combination of PV modules and Trombe wall in the low-energy building design. Energy and buildings, 152(1), p: 568-576
[16] 
Li, Y. and Y. Zou, (2008). Conjugated polymer photovoltaic materials with broad absorption band and high charge carrier mobility. Advanced Materials, 20(15): p. 2952-2958.
[17] 
Nunzi, J.-M., (2002). Organic photovoltaic materials and devices. Comptes Rendus Physique, 3(4): p. 523-542.
[18] 
Goetzberger, A. and C. Hebling, (2000). Photovoltaic materials, past, present, future. Solar energy materials and solar cells, 62(1): p. 1-19.
[19] 
Lee, M.R., et al., (2009). Solar power wires based on organic photovoltaic materials. Science, 324(5924): p. 232-235
[20] 
Bovatsek, J., et al., (2010). Thin film removal mechanisms in ns-laser processing of photovoltaic materials. Thin Solid Films, 518(10): p. 2897-2904.
[21] 
Stevovic, I., J. Jovanovic, and S. Stevovic, (2017). Sustainable management of Danube renewable resources in the region of Iron Gate: Djerdap 1, 2 and 3 case study. Management of Environmental Quality: An International Journal, 28(5): p. 664-680.
[22] 
Turney, D. and V. Fthenakis, (2011). Environmental impacts from the installation and operation of large-scale solar power plants. Renewable and Sustainable Energy Reviews, 15(6): p. 3261-3270.
[23] 
Nikolić, V., M. Ivaniš, and I. Stevović, (2014). Innovation Of Organization Model For Integral Rural Development-Serbia Case Study. Economics of Agriculture, 61(3): p 695-706.
[24] 
del Carmen Torres-Sibille, A., et al., (2009). Aesthetic impact assessment of solar power plants: An objective and a subjective approach. Renewable and Sustainable Energy Reviews, 13(5): p. 986-999.
[25] 
Stevovic I, (2016). Sustainability and profitability of solar energy application with case study, Ecologica, 83(1): p 480-487.
[26] 
Stevovic I., (2017). Strategic management as a concept for sustainable development of solar program, Ecologica, 88(1): p 797-801.
[27] 
Bartula et al., (2016). Local people's attitudes towards quality of environment in Serbia – B&H cross border region, Archive for Technical Sciences, 14(1): p 79-84
[27] 
Crnogorac, Lj. et. al. (2016). The electro filter ash of Gacko thermal power plant as technogenic raw material and the impact of ash waste pileon the environment, Arch. for Technical Sciences, 8(1): p 55– 62
 
Copyright Tehnički institut Bijeljina, 2010.
Web dizajn : Stanko Zarić

uređuje: www.asteh.com