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DNVGL-ST-0376 - ROTOR BLADES FOR WIND TURBINES Organization: DNVGL
Date: 2015-12-01
Description: Scope and application This standard is, in principle, applicable to all types of wind turbines and rotor blades, even though many requirements have been formulated specifically for blades made from fibre-reinforced plastics for operation on horizontal axis wind turbines.
DNVGL - DNV-DS-J102 - DESIGN AND MANUFACTURE OF WIND TURBINE BLADES, OFFSHORE AND ONSHORE WIND TURBINES - INCORPORATES AMENDMENT: NOVEMBER 2010 Organization: DNVGL
Date: 2010-10-01
Description: Scope of document This Standard: — describes D...
DNVGL - DNV-OS-J102 - DESIGN AND MANUFACTURE OF WIND TURBINE BLADES, OFFSHORE AND ONSHORE WIND TURBINES - INCORPORATES AMENDMENT: APRIL 2007 Organization: DNVGL
Date: 2006-10-01
DS/EN 61400-23 - WIND TURBINES - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: DS
Date: 2014-06-16
Description: Is a technical specification providing guidelines for the full-scale structural testing of wind turbine blades and for the interpretation or evaluation of results, as a possible part of a design verification of the integrity of the blade.
IEC 61400-23 - WIND TURBINES – PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES - EDITION 1.0 Organization: IEC
Date: 2014-04-01
Description: At the time this standard was written, full-scale tests were carried out on blades of horizontal axis wind turbines. The blades were mostly made of fibre reinforced plastics and wood/epoxy.
CEI EN 61400-23 - WIND TURBINE PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: CEI
Date: 2014-11-01
Description: At the time this standard was written, full-scale tests were carried out on blades of horizontal axis wind turbines. The blades were mostly made of fibre reinforced plastics and wood/epoxy.
CENELEC - EN 61400-23 - WIND TURBINES - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: CENELEC
Date: 2014-05-01
Description: At the time this standard was written, full-scale tests were carried out on blades of horizontal axis wind turbines. The blades were mostly made of fibre reinforced plastics and wood/epoxy.
NTIS CONF820489-1 - NATURAL LAMINAR-FLOW BLADES FOR WIND TURBINES Organization: NTIS
IEC/TS 61400-23 - WIND TURBINE GENERATOR SYSTEMS - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES - EDITION 1.0 Organization: IEC
Date: 2001-04-01
Description: At the time this technical specification was drawn up, full-scale tests were carried out on blades of horizontal axis wind turbines. The blades were mostly made of fibre reinforced plastics and wood/epoxy.
DS/IEC/TS 61400-23 - WIND TURBINE GENERATOR SYSTEMS - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: DS
Date: 2002-12-10
Description: This technical specification provides guidelines for the full-scale structural testing of wind turbine blades and for the interpretation or evaluation of results, as a possible part of a design verification of the integrity of the blade.
NTIS DE83001816 - NATURAL LAMINAR-FLOW BLADES FOR WIND TURBINES ***SAME AS SAND 82-2378 AND NTIS CONF820489-1*** Organization: NTIS
AENOR - UNE-EN 61400-23 - WIND TURBINES - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: AENOR
Date: 2014-12-17
BSI - 11/30256746 DC - DRAFT BS EN 61400-23 WIND TURBINES - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: BSI
Date: 2011-12-09
BSI - BS EN 61400-23 - WIND TURBINES PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: BSI
Date: 2015-01-31
AENOR - UNE-EN 61400-23 - WIND TURBINES - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: AENOR
Date: 2014-12-17
BSI - BS DD IEC/TS 61400-23 - WIND TURBINE GENERATOR SYSTEMS - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES Organization: BSI
Date: 2002-01-24
VDE 0127-23 - WIND TURBINES - PART 23: FULL-SCALE STRUCTURAL TESTING OF ROTOR BLADES (IEC 61400-23:2014); GERMAN VERSION EN 61400-23:2014 Organization: VDE
Date: 2014-12-01
DNVGL-ST-0361 - MACHINERY FOR WIND TURBINES Organization: DNVGL
Date: 2016-09-01
Description: Scope and application This standard is the DNV GL standard for the design of machinery components and structures for the complete wind turbine. The standard assumes a typical wind turbine and a design lifetime of 20 years.
WILEY - INNOVATION IN WIND TURBIN - INNOVATION IN WIND TURBINE DESIGN Organization: WILEY
Date: 2011-01-01
Description: Innovation in Wind Turbine Design is divided into four main sections covering design background, technology evaluation, design themes and innovative technology examples: Section 1 reviews aerodynamic theory and the optimization of rotor design, discusses wind energy conversion systems, drive trains, scaling issues, offshore wind turbines, and concludes with an overview of technology trends with a glimpse of possible future technology Section 2 comprises a global view of the multitude of design options for wind turbine systems and develops evaluation methodology, including cost of energy assessment with some specific examples Section 3 discusses recurrent design themes such as blade number, pitch or stall, horizontal or vertical axis Section 4 considers examples of innovative technology with case studies from real-life commercial clients.
NASA-LLIS-0235 - LESSONS LEARNED - WIND TURBINE GENERATOR Organization: NASA
Date: 1993-07-02
Description: Description of Driving Event: A wind turbine was lowered from its tower and secured to a ground level assembly stand. A blade tip was then removed and the work crew broke for lunch.

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