Authors: Chang-Hsien Tai, Uzu-Kuei Hsu, Jr-Ming Miao, Yong-Jhou Lin

Abstract:

The development and application of wind power for renewable energy has attracted growing interest in recent years. Renewable energy sources are attracting much alteration as they can reduce both environmental damage and dependence on fossil fuels. With the growing need for sustainable energy supplies, a case is made for decentralized, stand-alone power supplies (SAPS) as an alternative to power grids. In the era which traditional petroleum energy resource decreasing and the green house affect significant increasing, the development and usage of regenerative resources is inevitable. Due to the contribution of the pioneers, the development of regenerative resources already has a remarkable achievement; however, in the view of economy and quantity, it is still a long road for regenerative energy to replace traditional petroleum energy. In our prospective, in stead of investigate larger regenerative energy equipment, it is much wiser to think about the blind side and breakthrough of the current technique.

Keywords: regenerative resources, hybrid system, transfer, storage, phase change

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1070583

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1618

References:

[1] Kreith F, Kreider JF. Principle of sutainable energy. 1st ed. CRC Press:Taylor & Francis Group; 2011.
[2] Khan BH. Non-conventional energy resources. 2nd ed. Tata McGraw Hill; 2009.
[3] Chauhan DS, Srivastava SH. Non--conventional energy resources. New age International Pub; 2004.
[4] Gullison RE, Frumhoff PC, Canadell JG et al. Tropical forests and climate policy. Science 2007;316:985-986.
[5] Twiidell JW, Weir AD. Renewable energy resources. CRC Press:Taylor & Francis Group; 2006.
[6] Koonsrisuk A, Chitsomboon T. Accuracy of theoretical models in the prediction of solar chimney performance. Solar Energy 2009;83:1764-1771.
[7] Dennis C. Solar energy: radiation nation. Nature 2006;443:23-24.
[8] Negm HM, Maalawi KY. Structural design optimization of wind turbine towers. Computers and Structures 2000;74:649-666.
[9] Hayashi T, Li Y, and HARA Y. Wind tunnel test on a different phase three-stage Savonius rotor. JSME International Journal, Series B 2005;48(1):9-16.
[10] Biswas S, Sreedhar BN, Singh YP. A new analysis of vertical axis wind turbines. Wind Engineering Journal 1995;19:107-119.
[11] Rosas P. Dynamic influences of wind power on the power system. Ph.D. thesis: Orsted Institute and Technical University of Denmark; 2003.
[12] Rados K et al. Comparison of wake models with data for offshore windfarms. Wind Engineering 2001;25:271-280.
[13] Kreith F, West RE. Fallacies of hydrogen economy: a critical analysis of hydrogen production and utilization. Journal of Energy Resources Technology 2004;126:249-257.
[14] Paish O. Small Hydropower: technology and current status. Renewable and Sustainable Energy Review 2002;6(6):537-556.