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Clean Technologies and Environmental Policy
Erschienen in: Clean Technologies and Environmental Policy 4/2013

01.08.2013 | Original Paper

Evaluation of current status and future directions of wind energy in India

verfasst von: A. K. Singh, S. K. Parida

Erschienen in: Clean Technologies and Environmental Policy | Ausgabe 4/2013

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Abstract

Wind energy is the fastest growing electricity generation technology. During the last decade of the 20th century, grid-connected wind capacity worldwide has doubled approximately every 3 years. Climate change is a major challenge to sustainable development worldwide and is increasingly recognized by forward-looking political and business leaders. One of the tasks we are facing is a profound transformation of our energy system over the next few decades of replacing fossil fuels with renewable energies and dramatically increasing energy efficiency. At present, wind energy is receiving considerable attention in the world. In this study, development of wind energy system and the potential of wind energy in India have been investigated. This paper presents the progress made by wind energy in the recent years, and discusses the potential of this technology. The aim of the work is to investigate the wind energy plants and projects in India. It can be concluded from this analysis that wind energy utilization in India and throughout world has sharply increased.
Vorheriger Artikel Studies on biodegradation of vegetable-based fat liquor-containing wastewater from tanneries
Nächster Artikel Performance and leaching analysis of a novel coal sludge-based backfill material

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Literatur
Agarwal RK (2010) Renewable energy programs in India: status and future prospects. IC 077: 1–25
Bowden GJ, Barker PR, Shestopal VO, Twidell JW (1983) The Weibull distribution and wind power statistics. Wind Energy 7:85–98
Burton T, Sharpe D, Jenkins N, Bossanyi E (2001) Wind energy handbook. Wiley, West SussexCrossRef
Chazly NM (1993) Static and dynamic analysis of wind turbine blades using the finite element method. Renew Energy 3(6/7):705–724CrossRef
Dovan JC, Verlwlek MG (1978) A note on the vertical extrapolation formulas for Weibull Velocity Distribution Parameters. J Appl Meteorol 17:410–412CrossRef
Frandsen S, Christensen CJ (1992) Accuracy of estimation of energy production from wind power plants. Wind Eng 16(5):257–268
Freris LL (1990) Wind energy conversion systems. Prentice Hall International (UK) Ltd
Frey-Buness F, Heimann D, Sausen R (1995) A statistical-dynamical downscaling procedure for global climate simulations. Theor Appl Climatol 50:117–131CrossRef
Global Wind Energy Council (2012) http://​www.​gwec.​net/​index.​php?​id=​30&​no_​cache=​1&​tx_​ttnews[tt_news]=340&tx_ttnews[backPid]=97&cHash=cd58c26fe1
Global Wind Energy Council (GWEC) Global Wind Energy Outlook 2010. Brussels, Belgium: Global Wind Energy Council
Hossain J, Sinha V, Kishore VVN (2011) A GIS based assessment of potential for wind farms in India. Renew Energy 36(12):3257–3267CrossRef
Lu X, McElroy M, Kiviluoma J (2009) Global potential for wind-generated electricity. Proc Natl Acad Sci USA 106:10933–10938CrossRef
Mani A, Rangarajan S (1996) Wind Energy Resource Survey in India—IV. New Delhi, Allied Publishers
Miley SJ (1982) A catalog of low Reynolds number airfoil data for wind turbine applications. Department of Aerospace Engineering, Texas A&M University
Mortensen NG, Petersen EL (1997) Influence of topographical input data on the accuracy of wind flow modelling in complex terrain. In: Proceedings of the 1997 European wind energy conference, Dublin, Ireland, 6–9 October, pp 317–320
Mortensen NG, Heathfield D, Landberg L, Rathmann O, Troen I, Petersen E (2004) Getting started with WASP 7.0. Risø-I-1532(EN). Risø National Laboratory, Roskilde
Planning Commission (2009) Integrated energy policy
Planning Commission (2011) Low carbon strategies for inclusive growth. Interim Report of the Expert Group on Low Carbon Strategies for Inclusive Growth
Richardson RD, McNerney GM (1993) Wind energy systems. Proc IEEE 81(3):378–389CrossRef
Sathaye J, Gupta A (2010) Eliminating electricity deficit through energy efficiency in India: an evaluation of aggregate economic and carbon benefits. Lawrence Berkeley National Laboratory‐3381E
Selig MS, Mc Granahan BD (2004) Wind tunnel aerodynamic tests of six airfoils for use on small wind turbines; period of performance. National Renewable Energy Laboratory, Golden, CoCrossRef
Subramanyam G, Ahmed S (2008) Assessment of wind energy potential using topographical and meteorological data of a site in Central India (Bhopal). Int J Sustain Energy 27(3):131–142
World Bank (2010) World development indicators. Washington, DC
World Energy Council Turkish National Committee (WECTNC) (2010) Energy report of Turkey in 2010, Ankara
Metadaten
Titel
Evaluation of current status and future directions of wind energy in India
verfasst von
A. K. Singh
S. K. Parida
Publikationsdatum
01.08.2013
Verlag
Springer Berlin Heidelberg
Erschienen in
Clean Technologies and Environmental Policy / Ausgabe 4/2013
Print ISSN: 1618-954X
Elektronische ISSN: 1618-9558
DOI
https://doi.org/10.1007/s10098-012-0554-6

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