Product Description:
Molas 3D is an advanced three-dimensional scanning Doppler wind measurement lidar. It operates on the principle of pulsed laser coherent Doppler frequency shift, allowing it to accurately capture wind speed data.
This sophisticated device supports multiple scanning modes, including P-Pl, RHI, DBS, and program scanning. Its versatility makes it suitable for various customized wind speed measurement applications.
The Molas 3D lidar can be utilized in a wide range of scenarios such as offshore wind resource assessment, research in complex terrain environments, and detection of wind turbine wakes. Additionally, it plays a crucial role in airport glide path wind shear warnings, urban meteorological observations, and high-altitude turbulence detection.
Features:
Rich Measurement Information
This system offers refined 3D wind field measurements with the capability to customize up to 300 distance layers, providing detailed and comprehensive data for various applications.
Large Detection Range
It supports a sight detection distance of up to 10 kilometers, functioning effectively at altitudes below 600 meters, ensuring broad coverage for diverse environments.
High Precision
The device boasts a pointing accuracy of 0.005 degrees and a visual direction wind speed accuracy of 0.1 meters per second, delivering highly reliable and accurate measurements.
Multiple Scanning Methods
Equipped with various scanning modes including PPl, RHl, DBS, and programmable arbitrary scan methods, this product offers flexibility to adapt to different scanning requirements.
Flexible Deployment
Its compact and lightweight design facilitates easy transition and installation, making it suitable for a wide range of deployment scenarios.
All-Weather Durability
Built to withstand harsh outdoor conditions, the system is durable in environments categorized as LPz0 and is equipped with lightning protection, ensuring reliable operation under adverse weather.
Safe and Secure Usage
Featuring GPS location reporting, geo-fencing capabilities, and data encryption measures, the device guarantees security and minimizes the risk of data leakage.
Multiple Configuration Options
Users can select from four different distance resolutions and five accumulation times, allowing tailored performance to meet specific needs.
Technical Parameters:
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Data Output
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Profibus DP/Modbus TCP/CAN Optional
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Sight Detection Distance
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10km
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Scanning Method
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PPI, RHI, DBS And Program Scan
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Distance Resolution
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15m/30m/75m/120m
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Distance Layers
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Up To 300
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Maximum Acquisition Distance
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15km
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Size
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756mm * 735mm * 1000mm
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Weight
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≤100kg
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Accumulation Time
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0.2~10s Optional
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Storage Humidity
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0%~100% RH no condensation
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Applications:
Wind resource assessment involves measuring wind field information over large geographic areas. This process helps in minimizing the risks associated with site selection for wind energy projects by providing valuable data on wind availability and consistency.
Long-distance power curve measurements and wake eddy current assessments are crucial for optimizing the utilization of wind energy. These measurements allow for improved unit efficiency by understanding and managing the effects of wake turbulence on wind turbines.
Detecting and providing early warnings for hazardous meteorological phenomena, such as wind shear and microbursts, enhances aviation safety and operational planning.
Additionally, measuring wake vortices helps optimize flight separation at airports, ensuring smoother and safer air traffic management.
Providing comprehensive wind field data is essential for understanding wind behaviors within the atmospheric boundary layer. Delivering accurate and high-resolution spatiotemporal wind profiles near the surface fills an important gap in low-altitude meteorological observations.
Real-time three-dimensional information on plume dispersion is vital for tracking emission sources efficiently. This capability supports environmental monitoring and pollution control.
Moreover, optimizing dust emission control in the mining industry benefits from detailed dispersion data, helping to reduce environmental impact and improve workplace safety.
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