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Wind Energy
Humidity issues and dry-air solutions for wind turbines onshore, offshore and nearshore.
Humidity issues inside wind turbines
- What are the most common reasons for wind turbines failures?
- What kind of humidity-induced problems can I face in a wind turbine?
- When is salt a problem, and why is it a problem?
- Is mould a problem in a wind turbine?
- Is there any difference between onshore and offshore humidity issues in wind turbines?
Designing wind turbine dry-air strategy
- What are the overall strategies to protect a wind turbine from unwanted humidity?
- What are the industry standards and requirements for the preparation of steel surfaces for surface treatment for corrosion protection in wind turbines?
- Why is surface treatment (internal and external) for corrosion protection important for wind turbines?
- What are the industry standards and requirements for surface treatment for corrosion protection of wind turbines?
- What are the most relevant industry definitions related to corrosion protection by surface treatment used in the production of wind turbine towers?
- What are the benefits of controlling humidity and salt in a wind turbine?
- Can I get specific areas of the turbines protected against moisture and salt?
- What corrosion class can I achieve in my wind turbine with a CWO (adsorption dehumidifier) installed in the turbine under good sealing?
- Why can't I add more ventilation to the wind turbine? Will that not solve my issues with humidity?
- How dense is the structure of the turbine?
- Does dry-out time after grid-loss cause loss in production?
- Besides in the turbine itself, can other parts of a wind farm be protected with a dehumidifier?