Tdworld 19710 20190606 Lidar Offshore Wind Farm Tcm8 154394
Tdworld 19710 20190606 Lidar Offshore Wind Farm Tcm8 154394
Tdworld 19710 20190606 Lidar Offshore Wind Farm Tcm8 154394
Tdworld 19710 20190606 Lidar Offshore Wind Farm Tcm8 154394
Tdworld 19710 20190606 Lidar Offshore Wind Farm Tcm8 154394

DNV GL Project Aims to Cut Wind Energy Costs With LiDAR 

Sept. 14, 2019
DNV GL calls on industry stakeholders to jointly develop acceptance criteria for LIDAR-measured Turbulence Intensity and develop a new recommended practice.

DNV GL is calling on wind energy stakeholders to join a Joint Industry Project (JIP) to explore the potential of using light detection and ranging (LiDAR) to measure wind speed Turbulence Intensity (TI) for various applications in the wind industry.

Measuring meteorological conditions such as wind speed and TI is essential for assessing and verifying the feasibility of new wind energy projects, according to the company. For example, the data is used in the assessment of the wind resources at potential sites as well as to validate both turbine loads and power performance that are required for type certification of new wind turbines.

Currently, industry standards from DNV GL and the IEC specify that these measurements must be made using so-called meteorological masts (met masts) – tall towers equipped with cup and sonic anemometers. However, installing met masts is very costly, particularly on offshore sites.

Recent advances in LiDAR technology offer a new way to carry out the meteorological measurements needed for turbine certification and site assessment at a much lower cost. The use of floating LiDARs also makes it possible to carry out measurements in previously inaccessible locations such as deep-water sites and enable more accurate energy yield assessment. As a result, LiDAR has the potential to help deliver significantly cheaper wind energy – both onshore and offshore.

Consequently, LiDAR is becoming the preferred technology for wind resource measurements, and various methods for deriving TI information from LiDAR measurements have been proposed in research settings. However, none of these methods has yet been verified and adopted within international standards, therefore, LiDAR measurements are not widely accepted by certification bodies, insurers or authorities. By creating a Recommended Practice for LIDAR that is supported by players throughout the industry, the DNV GL-driven JIP aims to drive acceptance of LiDAR measurements and help reduce costs for turbine OEMs and wind project developers.

“Launching this Joint Industry Project is an important step in making LIDAR-measured Turbulence Intensity certifiable and accepted by different wind energy stakeholders,” says Kim Mørk, Executive Vice President Renewables Certification at DNV GL. “As a certification body, it is our goal to support the wind industry in enabling cost-effective and reliable measurement of TI based on LIDAR data. The positive feedback we have already received from potential partners shows the strong desire within the industry for a new guideline.”

The JIP is intended for wind turbine and LIDAR manufacturers, wind farm developers, universities and research facilities, consultants and measurement institutes that are looking for guidelines to use LiDAR TI measurements for different applications. The call for partner’s phase is now open. Organizations interested in joining should contact project managers Nikolai Hille and Frank Scheurich at DNV GL, Renewables Certification.

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