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CENELEC - EN 61400-2 - WIND TURBINES - PART 2: SMALL WIND TURBINES Organization: CENELEC
Date: 2014-10-01
Description: A small wind turbine system includes the wind turbine itself including support structures, the turbine controller, the charge controller / inverter (if required), wiring and disconnects, the installation and operation manual(s) and other documentation.
CEI EN 61400-2 - WIND TURBINES PART 2: SMALL WIND TURBINES Organization: CEI
Date: 2007-02-01
Description: A small wind turbine system includes the wind turbine itself including support structures, the turbine controller, the charge controller / inverter (if required), wiring and disconnects, the installation and operation manual(s) and other documentation.
DS/EN 61400-2 - WIND TURBINES - PART 2: SMALL WIND TURBINES Organization: DS
Date: 2014-10-28
Description: IEC 61400-2:2013 deals with safety philosophy, quality assurance, and engineering integrity and specifies requirements for the safety of small wind turbines (SWTs) including design, installation, maintenance and operation under specified external conditions.
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.
DS/CLC/TR 50373 - WIND TURBINES - ELECTROMAGNETIC COMPATIBILITY Organization: DS
Date: 2004-10-01
Description: This standard specifies requirements for the electromagnetic compatibility of wind turbines of all sizes, to ensure compliance with the essential requirements of the Electromagnetic Compatibility (EMC) Directive.
DS/EN 61400-27-1 - WIND TURBINES - PART 27-1: ELECTRICAL SIMULATION MODELS - WIND TURBINES Organization: DS
Date: 2015-10-28
Description: The models are described in a modular way which can be applied for future wind turbine concepts. The dynamic simulation models refer to the wind turbine terminals. The validation procedure specified in IEC 61400-27-1 focuses on the IEC 61400-21 tests for response to voltage dips, reference point changes and grid protection.
DS/EN 61400-3 - WIND TURBINES - PART 3: DESIGN REQUIREMENTS FOR OFFSHORE WIND TURBINES Organization: DS
Date: 2009-07-03
Description: This standard focuses on the engineering integrity of the structural components of an offshore wind turbine but is also concerned with subsystems such as control and protection mechanisms, internal electrical systems and mechanical systems. A wind turbine shall be considered as an offshore wind turbine if the support structure is subject to hydrodynamic loading.
BSI - BS EN 61400-3 - WIND TURBINES - PART 3: DESIGN REQUIREMENTS FOR OFFSHORE WIND TURBINES Organization: BSI
Date: 2009-05-31
Description: This standard focuses on the engineering integrity of the structural components of an offshore wind turbine but is also concerned with subsystems such as control and protection mechanisms, internal electrical systems and mechanical systems. A wind turbine shall be considered as an offshore wind turbine if the support structure is subject to hydrodynamic loading.
IEC 61400-3 - WIND TURBINES – PART 3: DESIGN REQUIREMENTS FOR OFFSHORE WIND TURBINES - EDITION 1.0 Organization: IEC
Date: 2009-02-01
Description: This standard focuses on the engineering integrity of the structural components of an offshore wind turbine but is also concerned with subsystems such as control and protection mechanisms, internal electrical systems and mechanical systems. A wind turbine shall be considered as an offshore wind turbine if the support structure is subject to hydrodynamic loading.
IEC 61400-27-1 - WIND TURBINES – PART 27-1: ELECTRICAL SIMULATION MODELS – WIND TURBINES - EDITION 1.0 Organization: IEC
Date: 2015-02-01
Description: The models are described in a modular way which can be applied for future wind turbine concepts. The dynamic simulation models refer to the wind turbine terminals. The validation procedure specified in IEC 61400-27-1 focuses on the IEC 61400-21 tests for response to voltage dips, reference point changes and grid protection.
CENELEC - EN 61400-27-1 - WIND TURBINES - PART 27-1: ELECTRICAL SIMULATION MODELS - WIND TURBINES Organization: CENELEC
Date: 2015-10-01
Description: The models are described in a modular way which can be applied for future wind turbine concepts. The dynamic simulation models refer to the wind turbine terminals. The validation procedure specified in IEC 61400-27-1 focuses on the IEC 61400-21 tests for response to voltage dips, reference point changes and grid protection.
CEI - EN 61400-27-1 - WIND TURBINES PART 27-1: ELECTRICAL SIMULATION MODELS - WIND TURBINES Organization: CEI
Date: 2016-02-01
Description: The models are described in a modular way which can be applied for future wind turbine concepts. The dynamic simulation models refer to the wind turbine terminals. The validation procedure specified in IEC 61400-27-1 focuses on the IEC 61400-21 tests for response to voltage dips, reference point changes and grid protection.
DS/EN 61400-4 - WIND TURBINES - PART 4: DESIGN REQUIREMENTS FOR WIND TURBINE GEARBOXES Organization: DS
Date: 2013-06-10
Description: IEC 61400-4:2012(E) is applicable to enclosed speed increasing gearboxes for horizontal axis wind turbine drivetrains with a power rating in excess of 500 kW.
CSA C61400-3 - WIND TURBINES - PART 3: DESIGN REQUIREMENTS FOR OFFSHORE WIND TURBINES - FIRST EDITION Organization: CSA
Date: 2011-01-01
Description: CSA Preface This is the first edition of CAN/CSA-C61400-3, Wind turbines — Part 3: Design requirements for offshore wind turbines, which is an adoption, with Canadian deviations, of the identically titled IEC (International Electrotechnical Commission) Standard 61400-3 (first edition, 2009-02).
CEI EN 61400-4 - WIND TURBINES PART 4: DESIGN REQUIREMENTS FOR WIND TURBINE GEARBOXES Organization: CEI
Date: 2013-10-01
Description: This part of the IEC 61400 series is applicable to enclosed speed increasing gearboxes for horizontal axis wind turbine drivetrains with a power rating in excess of 500 kW.
CENELEC - EN 61400-4 - WIND TURBINES - PART 4: DESIGN REQUIREMENTS FOR WIND TURBINE GEARBOXES Organization: CENELEC
Date: 2013-03-01
Description: This part of the IEC 61400 series is applicable to enclosed speed increasing gearboxes for horizontal axis wind turbine drivetrains with a power rating in excess of 500 kW.
IEC 61400-4 - WIND TURBINES – PART 4: DESIGN REQUIREMENTS FOR WIND TURBINE GEARBOXES - EDITION 1.0 Organization: IEC
Date: 2012-12-01
Description: This part of the IEC 61400 series is applicable to enclosed speed increasing gearboxes for horizontal axis wind turbine drivetrains with a power rating in excess of 500 kW.
CSA C61400-2 - WIND TURBINES – PART 2: DESIGN REQUIREMENTS FOR SMALL WIND TURBINES - FIRST EDITION Organization: CSA
Date: 2008-02-01
Description: While this part of IEC 61400 is similar to IEC 61400-1, it does simplify and make significant changes in order to be applicable to small turbines. This part of IEC 61400 applies to wind turbines with a rotor swept area smaller than 200 m2, generating at a voltage below 1 000 V a.c. or 1 500 V d.c.
DNVGL - DNV-DSS-904 - TYPE CERTIFICATION OF WIND TURBINES Organization: DNVGL
Date: 2014-01-01
Description: Scope of application This specification applies to type certification of wind turbines.
DNVGL-RP-0440 - ELECTROMAGNETIC COMPATIBILITY OF WIND TURBINES Organization: DNVGL
Date: 2016-03-01
Description: This mainly refers to: rotating electrical machines power transformers frequency converters low-voltage switchgears, control gears and switchboards high-voltage switchgears lightning protection, earthing and bonding electrical equipment for measurement and control use cables, lines and accessories safety-related parts of the control system uninterruptible power systems (UPS) interconnection of electrical equipment installation of the wind turbine and its components and systems. Wind turbines and their electrical components and systems shall be designed concerning EMC as to: reach a specific level of operational safety of the wind turbine during energy production or the event of faults keep the wind turbines’ emission to the environment within tolerable levels avoid that disturbing sources are interfering with other sub-systems or components of the wind turbine leading to malfunction of single components or loss of control.

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