Technical training
Basic Technical Training Standard / V11 10032026
flash injuries. It ensures equipment is fully isolated and safe to touch before work starts. For supporting guidance on good working practices on establishing an electrically safe work condition refer to Annex 5 Electrical components or parts capable of being inadvertently touched or approached nearer than a safe distance by a person, due to not being properly enclosed or insulated (e.g. IP0X, IP1X). Critical components used to securely join different parts of the turbine, ensuring structural stability and reliability. Fasteners can include bolts, nuts, washers, and other hardware that hold together parts like the tower segments, nacelle components, rotor blades, and hub Instructor’s feedback should focus on what the participant must adjust to perform correctly. Feedback may involve dialogue, where the participant reflects on his/her understanding or performance Learning activity involving all participants. Group discussions may be conducted in smaller groups. The instructor should step back and only interfere to facilitate the experience exchange between participants. Optimal group size is 4 participants
Exposed electrical parts
Fasteners
Feedback
Group discussion
Hand tools
Manually operated tools
Handheld tools
Powered and manually operated tools
Hazard
A hazard is any source of potential damage, harm or adverse health effect on something or someone Any energy (electrical, mechanical, hydraulic, pneumatic, chemical, thermal, gravitational force etc.) that could cause injuries to personnel. Indication of which tool will provide the safest grip, fit, or attachment to the fastener to be tightened or loosened In this GWO training standard, the term High Voltage is used for voltages normally exceeding low voltage. The exact voltage designation varies globally depending on where you work.
Hazardous energy
Hierarchy of Tooling
High Voltage
Use of the term High Voltage:
Terms for low, medium and high voltage may be applied in different ways in different regions and in other working contexts, such as at the electrical distribution and transmission network levels. For example, IEC defines high voltage as a voltage which exceeds 1000 V AC or 1500 V DC., while NFPA 70E and OSHA defines on or above 600V as high voltage working. At the electrical network level, IEC defines high voltage lines
Global Wind Organisation / www.globalwindsafety.org
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