The profitability of a wind farm will be directly proportional to the reduction of uncertainty in the assessment of wind resources. The risk factor of the projects depends on the nature of the site, its size, and its complexity. Also, there will be different risk factors for onshore and offshore projects. However, you can now use the latest LiDAR technology for risk management.
Assessment is necessary
The performance of wind turbines depends on the power curve measurement. The power curve is the relationship between the wind turbine power output owing to the different wind speeds. So before setting up the farm, it is almost mandatory to have accurate information about the wind conditions at the site.
- Light detection and ranging technology, more popular as LiDAR is an emerging technology, aiding in the future predictions by evaluating the presence of wind parameters. It will allow the wind turbine controls and the blades to adjust accordingly.
- The components of the LiDAR turbines function by bouncing off the laser light beams using the airborne particles that come in contact with it. A telescope collects the reflected wave and calculates the difference in the frequency using the Doppler effect to the seed of the particles.
Thus, the technology succeeds in capturing multi-dimensional wind information and the resulting calculations.
Accuracy increases
The turbine-mounted wind LiDAR systems will aid in measuring the wind speed and direction that will validate the performance of the wind farm. When you Visit This Site Right Here, you will come across the new systems that combine with the latest technology to optimize the real-time operation of the wind farm.
- The accuracy level of the data coming from the LiDAR system is accurate as the LiDAR-assisted turbine control technology can overcome the limitations of turbine designs to increase the energy capture.
- There is a reduction in loads too as you can also add large rotors to the turbines in specific projects to enable notable reductions in energy consumption levels.
The lighter towers reduce the cost of wind turbines and improve overall power generation to maximize the ROI.
Enhancing durability
One of the surprising impacts of the application of LiDAR technology is the stretch of the durability of turbine components. As the components have to bear less load, it’s natural to function well over a longer stretch.
Improvement in grid management
Wind forecasting is possible with the application of this technology, so, it will allow for a better grid management system. For instance, during a massive storm. the system needs to shut down on the offshore wind farms but the application of LiDAR will allow the grid infrastructure management to have a couple of minutes necessary to spin up the win or hydro-pumped hydro energy storage to suffice for the loss of the load by using renewable energy.
Cost reduction
And finally, nothing can beat the significance of the cost-reduction effect owing to the technology. LiDAR has actively reduced the cost of maintenance and operations of the asset lifetime.
- Lesser repair costs
- Minimum chances of secondary damage expenses
- Lower component’s cost
- Less mobilization cost for the personnel and equipment like cranes and vessels offshore.
Thus, the technology is a boon to the wind farms.