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IP67 Feed-forward control system built for survival temperature minus 40 degrees Celsius to 65 degrees Celsius power outage scenarios

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China Nanjing Movelaser Co., Ltd. certification
China Nanjing Movelaser Co., Ltd. certification
Customer Reviews
I am very satisfied with the after-sales service attitude, the product quality is excellent, and I hope to continue to maintain it

—— Liyong Xiong

Your company's products have shown excellent performance and excellent quality during operation, providing strong support in scenarios such as early project wind measurement and operational project evaluation; Your team provides timely response, effective communication, and thoughtful service in equipment installation, maintenance.

—— Yunda Li

After the product finds problems, it can be quickly dealt with after the sale. It is recommended to make the product suitable for more environments。

—— Jiemin Fu

Overall I am very satisfied and hope to continue to provide us with more advanced, reliable and stable radar equipment.

—— Fan Yang

It is hoped that the products will continue to be optimized, updated and iterated, the quality will be more stable, and the service, delivery and after-sales will continue to maintain high quality, and achieve the industry-leading level.

—— Yuwei Wang

The delivery of the product, the processing of the equipment is very timely

—— Long Chen

Positive attitude of marketing personnel, timely after-sales service

—— Kai Zhao

Continue to work hard, win-win cooperation

—— Yuyan Xie

The equipment and service are very good, and I look forward to continuing cooperation in the future.

—— Mingjie Zhou

The equipment is easy to install and suitable for unit testing.

—— Luke Wang

The ground-based wind lidar has good performance and has been recognized by our internal and complete machine manufacturers, and there is no objection to the test results. The sales staff have extensive technical knowledge and professional answers. The on-site staff are active and look forward to cooperating again.

—— Kunpeng Lu

In the radar installation service, the marketing personnel have good attitude, strong technical ability, and solve problems in place, which provides a solid guarantee for the transportation and installation of lidar.

—— Liang Gao

This wind measurement system has completely transformed our data collection. The accuracy and stability are outstanding, even under harsh conditions. The technical support team is exceptionally professional!

—— James M.

Since deploying your LiDAR devices, our wind farm assessment efficiency has increased by at least 40%. It’s not only reliable but also user-friendly. Highly recommended to anyone in the field!

—— Sophia Chen

Outstanding precision and incredible durability! Our field stations have relied on this equipment long-term, and it has never let us down. A perfect blend of cutting-edge technology and practical design.

—— Ahmed Al-Farsi

As a researcher, I demand the highest data accuracy. This system has exceeded all expectations—its low power consumption and easy integration have significantly accelerated our project.

—— Elena Rossi

Stable, precise, and nearly maintenance-free—exactly the industrial-grade solution we needed. It has helped us optimize energy output while reducing operational costs substantially.

—— Tomás Herrera

From pre-sales consulting to technical training, the service experience has been impeccable. The equipment performs excellently and provides critical insights for our clients' wind energy projects.

—— Priya Sharma

We have tested several similar products, but this system stands out for its long-term stability and data consistency. It truly is the silent partner in environmental monitoring.

—— Björn Lundgren

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IP67 Feed-forward control system built for survival temperature minus 40 degrees Celsius to 65 degrees Celsius power outage scenarios

IP67 Feed-forward control system built for survival temperature minus 40 degrees Celsius to 65 degrees Celsius power outage scenarios
IP67 Feed-forward control system built for survival temperature minus 40 degrees Celsius to 65 degrees Celsius power outage scenarios

Large Image :  IP67 Feed-forward control system built for survival temperature minus 40 degrees Celsius to 65 degrees Celsius power outage scenarios

Product Details:
Brand Name: Movelaser
Model Number: Molas NL
Payment & Shipping Terms:
Minimum Order Quantity: 1 Set
Packaging Details: Flight Case
Supply Ability: Annual Production Capacity: 20,000 Units
Detailed Product Description
Weight(Optical Head): ≤17.5kg Temperature Range: -40°C ~ 60°C
IP(Optical Head): IP67 Survival Wind Speed: 75m/s
Weight(Data Unit): ≤3.6kg Survival Temperature: -40°C ~ 65°C (power Outage) / -45°C ~ 65°C (power Ups)
Acceleration Range: -0.5g ~ 0.5g Range: 70m ~ 750m (NL750)

Product Description:

The Molas NL series represents an advanced nacelle wind lidar system independently developed by our company, specifically engineered for intelligent wind power applications. This innovative device is a laser-based remote sensing solution that is installed on top of the wind turbine nacelle. Utilizing a coherent detection architecture based on the principle of laser Doppler frequency shift, it emits laser pulses and analyzes the backscattered signals from atmospheric aerosols. This process enables highly accurate vector wind field measurements at various distances ahead of the rotor plane, ranging from 50 m to 200 m for the NL200 model, 400 m for NL400, 500 m for NL500, and from 70 m to 750 m for the NL750.

The system is capable of supporting up to 10 simultaneous measurement layers with a data refresh rate of 4 Hz. It offers impressive wind speed accuracy of 0.1 m/s and wind direction accuracy within ±0.5°, allowing for precise tracking of dynamic wind changes. Four beam configurations are provided: all models have a horizontal angle of 30°, while the vertical angle varies—25° or 10° for the NL200 and 10° for the NL400, NL500, and NL750 models. This ensures optimal spatial coverage tailored to different turbine designs and site conditions.

Integration with the wind turbine’s main control system is seamless, facilitated by multiple industrial communication protocols such as Profibus DP, Modbus TCP, Modbus RTU, and CANOPEN. This extensive connectivity supports sophisticated feed-forward control strategies that utilize real-time wind preview data. Consequently, turbines can proactively adjust pitch and yaw before the wind impacts the rotor, significantly reducing both extreme and fatigue loads. Additionally, these adjustments contribute to increased annual energy production (AEP). Beyond feed-forward control, the Molas NL series plays a vital role in yaw misalignment correction, power curve validation (serving as a replacement for traditional met masts), wake detection and analysis, as well as intelligent cooperative control across wind farm fleets.

Designed to withstand harsh environmental conditions, the system boasts an IP67-rated optical head and an IP65-rated data processing unit. Its anti-corrosion protection meets ISO C5 standards, making it suitable for offshore, onshore, and high humidity or salt-spray environments. The operating temperature range spans from -40 °C to +60 °C, with survival temperatures between -40 °C and +65 °C during power outages and -45 °C to +65 °C under normal powered operation. It endures survival wind speeds up to 75 m/s and can function at altitudes as high as 3,500 m. The optical head weighs no more than 17.5 kg, and the data unit is under 3.6 kg, allowing for straightforward installation and reduced crane expenses.

Offering a robust design, exceptional measurement accuracy, and versatile communication options, the Molas NL series transcends a mere wind measurement device. It serves as a fundamental element in smart wind farm operations, empowering operators to achieve enhanced efficiency, lower maintenance costs, and a sustainable competitive advantage in the renewable energy industry.


Features:

Advanced Wind Measurement Technology

Our system provides true front wind measurement, ensuring precise and reliable data acquisition. It supports real-time data transmission coupled with local storage capabilities, allowing seamless monitoring and recording of wind conditions.

Exceptional Accuracy and Performance

With an accuracy reaching up to 0.1 meters per second and 0.5 degrees, the device guarantees highly precise wind data. The high sampling rate enables detailed and continuous measurements, capturing subtle changes efficiently.

Versatile Measurement Layers and Range

Featuring multiple distance layers, the system can monitor wind characteristics at various altitudes simultaneously. Additionally, its large operational range makes it suitable for extensive applications in diverse environments.

Innovative Design and Compatibility

The four-beam three-dimensional measurement approach enhances data accuracy and robustness. Intelligent configuration options simplify setup procedures, while easy maintenance ensures minimal downtime. Its high applicability and compatibility make it adaptable to a wide range of scenarios.


Technical Parameters:

IP (Data Unit) IP65
Temperature Range -40°C ~ 60°C
Survival Temperature -40°C ~ 65°C (power Outage) / -45°C ~ 65°C (power Ups)
Measurement Layer 10
Weight (Data Unit) ≤3.6kg
Survival Wind Speed 75m/s
Weight (Optical Head) ≤17.5kg
Maximum Humidity 100% (extravaginal) / 95% (inside The Cabin)
Acceleration Range -0.5g ~ 0.5g
IP (Optical Head) IP67

Applications:

Blade Load Analysis

Blade load analysis focuses on evaluating the forces acting on wind turbine blades during operation. This analysis is crucial to ensure structural integrity, optimize blade design, and improve overall turbine performance under various wind conditions.

Power Curve Test

The power curve test is conducted to determine the relationship between wind speed and the power output of a wind turbine. This test helps in assessing turbine efficiency and performance, enabling operators to maximize energy production.

Wake Analysis

Wake analysis examines the effects of airflow disturbances caused by upstream turbines on downstream units. Understanding wake effects is essential for optimizing turbine placement within a wind farm to minimize energy losses and mechanical stress.

Yaw Correction

Yaw correction involves adjusting the orientation of a wind turbine rotor to face the wind direction accurately. Proper yaw alignment enhances energy capture and reduces wear on turbine components, thereby extending the turbine’s operational life.

Intelligent Farm Group Control

Intelligent farm group control refers to the coordinated management of multiple wind turbines within a wind farm. Utilizing advanced algorithms and real-time data, this approach optimizes energy production, enhances reliability, and minimizes maintenance costs across the entire farm.


Contact Details
Nanjing Movelaser Co., Ltd.

Contact Person: Miss. ivyyao

Tel: +86 13072523225

Fax: 86-025-86800073

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