Access the full text.
Sign up today, get DeepDyve free for 14 days.
H. Mahfuz, M. Baseer, V. Rangari, S. Jeelani (2005)
Fabrication, characterization and mechanical properties of nanophased carbon prepreg laminatesS.A.M.P.E. journal, 41
F. Resende (2011)
EVOLUÇÃO TECNOLÓGICA DOS SISTEMAS DE CONVERSÃO DE ENERGIA EÓLICA PARA LIGAÇÃO À REDEEngineering and Technology Journal, 2
R. Tennyson, C. Lamontagne (2000)
Hypervelocity impact damage to compositesComposites Part A-applied Science and Manufacturing, 31
T. Palmer (2014)
Record-breaking winters and global climate changeScience, 344
G. Brundtland, M. Khalid (1987)
Our common future
M. Costa, S. Almeida, M. Rezende (2001)
Resistência ao Cisalhamento Interlaminar de Compósitos com Resina Epóxi com Diferentes Arranjos das Fibras na Presença de VaziosPolimeros-ciencia E Tecnologia, 11
(1997)
Desenvolvimento sustentável: da retórica à formulação de políticas públicas [Sustainable development: from rhetoric to the formulation of public policies]
(2000)
Sociedade, cultura e meio ambiente [Society, culture and environment]
M. Araújo, M. Freitas (2008)
Acceptance of renewable energy innovation in Brazil : case study of wind energyRenewable & Sustainable Energy Reviews, 12
M. Costa, J. Paiva, E. Botelho, M. Rezende (2003)
Avaliação térmica e reológica do ciclo de cura do pré-impregnado de carbono/epóxiPolimeros-ciencia E Tecnologia, 13
(2007)
Industrial digital radiography in advanced polymeric wind blade composite
(2013)
citation_publisher=Atlas, S�o Paulo; Sistemas de Log�stica Reversa: criando cadeias de suprimento sustent�veis [Reverse Logistics Systems: Creating Sustainable Supply Chains]
Giancarlo Aquila, L. Rocha, P. Junior, E. Pamplona, A. Queiroz, A. Paiva (2016)
Wind power generation: An impact analysis of incentive strategies for cleaner energy provision in BrazilJournal of Cleaner Production, 137
J. Zimmerling, A. Pomeroy, M. D'entremont, C. Francis (2013)
Canadian Estimate of Bird Mortality Due to Collisions and Direct Habitat Loss Associated with Wind Turbine DevelopmentsAvian Conservation and Ecology, 8
(2001)
Resist�ncia ao cisalhamento interlaminar de comp�sitos com resina ep�xi com diferentes arranjos das fibras na presen�a de vazios [Resistance to interlaminar shear of composites with epoxy resin with different fibre arrangements in the presence of voids]Polímeros: Ciência e Tecnologia, 11
J. Yanaguizawa, L. Leite, A. Shinohara, J.G.V. Xavier, D.A. Maciel (2004)
Study of electrical breakdown voltage in a partially damaged glass insulators chain with polycarbonate protectors2004 IEEE/PES Transmision and Distribution Conference and Exposition: Latin America (IEEE Cat. No. 04EX956)
(2015)
citation_publisher=Routledge, London; Developing Wind Power Projects: Theory and Practice
M. Lenzen, J. Munksgaard (2002)
Energy and CO2 life-cycle analyses of wind turbines—review and applicationsRenewable Energy, 26
J. Kaldellis, D. Zafirakis (2011)
The wind energy (r)evolution: A short review of a long historyRenewable Energy, 36
(2009)
citation_publisher=American Wind Energy Association, ; Wind Turbine Sound and Health Effects: An Expert Panel Review.
M. Pasqualetti (2011)
Social Barriers to Renewable Energy Landscapes*Geographical Review, 101
J. Holmes, P. Brøndsted, B. Sørensen, Zehui Jiang, Zhengjun Sun, Xuhe Chen (2009)
Development of a Bamboo-Based Composite as a Sustainable Green Material for Wind Turbine BladesWind Engineering, 33
O. Thomsen (2009)
Sandwich Materials for Wind Turbine Blades — Present and FutureJournal of Sandwich Structures & Materials, 11
B. Howe, Nick McCabe, I. Bonsma (2011)
Addressing low frequency sound and infrasound from wind turbinesCanadian Acoustics, 39
(2005)
Composite materials for wind power turbine bladesAnnu Rev Mater Res, 35
D. Colby, R. Dobie, Geoff Leventhall, D. Lipscomb, R. McCunney, M. Seilo, B. Søndergaard (2009)
Wind turbine sound and health effects : an expert panel review
C. Brannstrom, A. Gorayeb, Jocicléa Mendes, Caroline Loureiro, A. Meireles, E. Silva, A. Freitas, Rafael Oliveira (2017)
Is Brazilian wind power development sustainable? Insights from a review of conflicts in Ceará stateRenewable & Sustainable Energy Reviews, 67
K. Katnam, A. Comer, D. Roy, L.F.M. Silva, Trevor Young (2015)
Composite Repair in Wind Turbine Blades: An OverviewThe Journal of Adhesion, 91
D. Leung, Yuan Yang (2012)
Wind energy development and its environmental impact: A reviewRenewable & Sustainable Energy Reviews, 16
D. Weisser (2007)
A guide to life-cycle greenhouse gas (GHG) emissions from electric supply technologiesEnergy, 32
(2004)
Polyfmer composites
F. Márquez, A. Tobias, Jesús Pérez, M. Papaelias (2012)
Condition monitoring of wind turbines: Techniques and methodsRenewable Energy, 46
(2017)
Wind power and the structural change of the Brazilian electric sector
(2013)
How the factoid of wind turbines causing ?vibroacoustic disease? came to be ?irrefutably demonstrated?Environment, 37
C. Ciang, Jung‐Ryul Lee, H. Bang (2008)
Structural health monitoring for a wind turbine system: a review of damage detection methodsMeasurement Science and Technology, 19
P. Brøndsted, H. Lilholt, A. Lystrup (2005)
Composite Materials for Wind Power Turbine BladesRenewable Energy
(2003)
Avalia��o t�rmica e reol�gica do ciclo de cura do pr�-impregnado de carbono/ep�xi [Thermal and rheological evaluation of the curing cycle of carbon/epoxy prepreg]Polímeros: Ciência e Tecnologia, 13
(2013)
Solar and wind energy production in relation to the electricity load curve and hydroelectricity in the northeast region of BrazilRenew Satain Energy Rev, 23
(2011)
Evolu��o tecnol�gica dos sistemas de convers�o de energia e�lica para liga��o � rede [Technological developments of wind energy conversion systems for grid connection]Rev Lusófona Educ, 2
(2004)
citation_publisher=IEEE/PES Transmission and Distribution Conference and Exposition, S�o Paulo: IEEE, Latin America; Study of Electrical Breakdown Voltage in a Partially Damaged Glass Insulators Chain with Polycarbonate Protectors
V. Dubey, R. Bajpai, S. Datt (1992)
Effect of gamma and electron irradiation on the mechanical strength of glass fibre reinforced polymer (GFRP)Polymer Testing, 11
(2002)
Caracteriza��o mec�nica de comp�sitos de poliamida/fibra de carbono via ensaios de cisalhamento interlaminar e de mec�nica da fratura [Mechanical characterization of polyamide/carbon fibre composites using interlaminar shear tests and fracture mechanics]Polímeros: Ciência e Tecnologia, 12
B. Sovacool, C. Watts (2009)
Going Completely Renewable: Is It Possible (Let Alone Desirable)?The Electricity Journal, 22
T. Wizelius (2006)
Developing Wind Power Projects: Theory and Practice
(2005)
Desenvolvimento sustentável: um conceito multidisciplinar [Sustainable development: a multidisciplinary concept]
(1987)
citation_author=World Commission on Environment and Development (WCED).; citation_publisher=Oxford University Press, Oxford; Our Common Future.
Mouna Zaidani, M. Omar, S. Kumar (2015)
Coupling of injection molding process to mechanical properties of short fiber composites: A through process modeling approachJournal of Reinforced Plastics and Composites, 34
Ronnie Reyes-Arriagada, Luciano Hiriart-Bertrand, V. Riquelme, Alejandro Simeone, K. Pütz, Benno Lüthi, A. Rey (2013)
Population Trends of a Mixed-Species Colony of Humboldt and Magellanic Penguins in Southern Chile after Establishing a Protected AreaAvian Conservation and Ecology, 8
S. Chapman, Alexis George (2013)
How the factoid of wind turbines causing ‘vibroacoustic disease’ came to be ‘irrefutably demonstrated’Australian and New Zealand Journal of Public Health, 37
O. Al-Qabandi, A. Silva, S. Al-Enezi, M. Bassyouni (2014)
Synthesis, fabrication and mechanical characterization of reinforced epoxy and polypropylene composites for wind turbine bladesJournal of Reinforced Plastics and Composites, 33
Petrobras will generate wind power at sea
J. Good (2006)
The Aesthetics of Wind Energy
(2018)
Energia eólica gera riquezas no Nordeste [Wind energy generates wealth in the Northeast]
D. Abraham, S. Matthews, R. McIlhagger (1998)
A comparison of physical properties of glass fibre epoxy composites produced by wet lay-up with autoclave consolidation and resin transfer mouldingComposites Part A-applied Science and Manufacturing, 29
(2009)
Primeiras intervenções [First interventions]
(2007)
Massive offshore wind turbines safe for birds
(1998)
citation_publisher=Springer, New York; Composites Materials: Science and Engineering
Shilpa Rao, Z. Klimont, Steven Smith, R. Dingenen, F. Dentener, L. Bouwman, K. Riahi, M. Amann, B. Bodirsky, D. Vuuren, L. Reis, K. Calvin, L. Drouet, Oliver Fricko, S. Fujimori, D. Gernaat, P. Havlík, M. Harmsen, T. Hasegawa, C. Heyes, Jérôme Hilaire, Gunnar Luderer, T. Masui, E. Stehfest, J. Strefler, S. Sluis, M. Tavoni (2017)
Future air pollution in the Shared Socio-economic PathwaysGlobal Environmental Change-human and Policy Dimensions, 42
(2005)
Fabrication, characterization and mechanical properties of nanophased carbon prepeg laminates
Fiona Crichton, S. Chapman, T. Cundy, K. Petrie (2014)
The Link between Health Complaints and Wind Turbines: Support for the Nocebo Expectations HypothesisFrontiers in Public Health, 2
J. Paiva, S. Mayer, M. Rezende (2005)
Evaluation of mechanical properties of four different carbon/epoxy composites used in aeronautical fieldMaterials Research-ibero-american Journal of Materials, 8
M. Jacobson, M. Delucchi (2011)
Providing all global energy with wind, water, and solar power, Part I: Technologies, energy resources, quantities and areas of infrastructure, and materialsEnergy Policy, 39
E. Botelho, M. Rezende (2002)
Caracterização Mecânica de Compósitos de Poliamida/Fibra de Carbono Via Ensaios de Cisalhamento Interlaminar e de Mecânica da FraturaPolimeros-ciencia E Tecnologia, 12
Lawrence Al (1985)
Wind Power
P. Jong, A. Sánchez, Karla Esquerre, R. Kalid, E. Torres (2013)
Solar and wind energy production in relation to the electricity load curve and hydroelectricity in the northeast region of BrazilRenewable & Sustainable Energy Reviews, 23
M. Jacobson, M. Delucchi (2009)
A path to sustainable energy by 2030.Scientific American, 301 5
L. Seghezzo (2009)
The five dimensions of sustainabilityEnvironmental Politics, 18
Ulrich Riedel, B. Köhnke, T. Mahrholz, Jürgen Mosch, D. Röstermundt, L. Herbeck, M. Sinapius (2006)
Advanced-fibre-reinforced nanocomposites
Low frequency sound and infrasound from wind turbines
F. Krug, B. Lewke (2009)
Electromagnetic Interference on Large Wind TurbinesEnergies, 2
In recent years, Brazilian wind energy has been growing on a fast trajectory, with the prospect of being the second main source of energy in the year 2019 after hydroelectricity. It should be reaching an installed capacity of more than 20 GW by 2022. In this context, this work presents the evolution and the current scenario of wind energy in Brazil, bringing a discussion on the issues surrounding wind energy and the environmental, social and economic pillars of the sustainability. This study highlights the Northeast region because it has more than 85% of the wind capacity in the country and, at the same time, it contains the cities with the lowest human development indexes. Rotor-blade manufacturing methods and composite materials recycling after the turbine lifetime are considered. Construction, operation and maintenance aspects of wind turbines are also discussed. Wind-energy concepts are described from a bibliographic survey and previous experiences of the authors.
Clean Energy – Oxford University Press
Published: Mar 2, 2019
Keywords: renewable source; sustainable development; wind power; wind turbines
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.