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Author
Soliman Mohamed Hassan (VSB-Technical University of Ostrava, Czech Republic), Nesser Bassel I. (VSB-Technical University of Ostrava, Czech Republic), Pytel Krzysztof (AGH University of Science and Technology Kraków, Poland)
Title
Local Benefits Factored in Utility Scale Wind Energy for a Remote Location
Source
New Trends in Production Engineering, 2019, vol. 2(1) cz.II, s. 549-554, rys., tab., bibliogr. 9 poz.
Issue title
Part II: Selected Organizational Problems in the Mining Industry
Keyword
Energia słoneczna, Elektrownie wiatrowe, Produkcja energii
Solar energy, Windfarms, Energy production
Note
streszcz., summ.
Country
Liban
Lebanon
Abstract
The publication presents the results of analysis of possible local benefits factored in utility scale wind energy for a remote location. Electricity is one of the most vital problems on the Earth, thus utility scale wind and solar energy devices are boosting economic development. Energy demand is constantly increasing, despite efforts to ensure the energy efficiency of devices. People are looking for more energy and electricity to consume. Although wind energy is still being researched and improved, modern generation of wind energy is becoming more and more effective and desirable. This publication presents an effective solution to this issue. It deals with the generation of green environment friendly electricity from wind turbine. The genuine idea is to provide energy for remote location using onshore wind turbines. An analysis of the demand for energy at a remote location and electricity consumption was made to provide preliminary calculations of the wind farm. The number of required turbines is determined taking into account all related factors. A specific wind turbine has been selected and proposed to provide the necessary location with the necessary amount of energy. The analysis carried out showed that the produced energy is environment friendly since there is no carbon dioxide emission. (original abstract)
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Bibliography
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  1. Burton, T. (2011). Wind Energy Handbook. John Wiley and Sons Ltd.
  2. Letcher, T.M. (2017). Wind Energy Engineering. Elsevier Science Publishing Co Inc.
  3. Gipe, P. (2016). Wind Energy for the Rest of Us: A Comprehensive Guide to Wind Power and How to Use It. wind-works.org.
  4. Gumula, S. Hudy, W. Piaskowska-Silarska, M. and Pytel, K. (2015). The effect of greenhouse gases and natural factors on the changes in Earth temperature. Przemysł Chemiczny, 94 (9), pp. 1515-1517.
  5. Fthenakis, V. and Alsema, E. (2006), Photovoltaics energy payback times, greenhouse gas emissions and external costs: 2004-early 2005 status, Progress in Photovoltaics, 14, pp. 275-280.
  6. Walker, R.P. and Swift, A. (2015). Wind Energy Essentials: Societal, Economic, and Environmental Impacts 1st Edition. Wiley.
  7. meteoblue corporation. (2019). Available at: https://www.meteoblue.com/en/weather/historyclimate/climatemodelled/isle-of-mull_united-kingdom_7290043 [Accessed 11 May, 2019].
  8. Price, G.D. (2014). Power Systems and Renewable Energy: Design, Operation, and Systems Analysis (Power Generation Collection). Momentum Press.
  9. Sanz, M.G. and Houpis, C.H. (2012). Wind Energy Systems. Control Engineering Design. CRC Press.
Cited by
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ISSN
2545-2843
Language
eng
URI / DOI
http://dx.doi.org/10.2478/ntpe-2019-0059
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