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Product Details:
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| Humidity Range: | 0% To 100% | Power: | ≤60W |
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| Wind Speed Accuracy: | 0.1m/s | Sampling Rate: | 1Hz |
| Wind Speed Range: | 0~75m/s | Weight: | ≤50kg |
| Size: | 554*430*581mm³ (with Handle) | Measurement Layer: | 12 Or 24 |
The Molas B300 functions based on the Doppler frequency shift principle, utilizing DBS-scanning vector synthesis technology. This allows it to accurately measure both wind speed and wind direction at heights between 30 meters and 350 meters above the lidar device.
The Molas B300 series is composed of four key components: a fiber laser lidar transmitter, a laser transceiver system, a high-speed data acquisition system, and precision data processing software. Each component is meticulously designed to work seamlessly together, guaranteeing strong overall system coordination and reliable data security.
With these integrated features, the Molas B300 series delivers performance that aligns with internationally recognized advanced standards, making it a leading solution in its field.
Offering a convenient and rapid solution, our technology leads the industry in non-contact measurement methods.
Achieve precision with measurements accurate up to 0.1 meters per second and an angular accuracy of 1 degree.
Designed for simple and quick maintenance procedures, ensuring safety with no risks during production operations.
Our system guarantees protection against economic and policy risks, effectively preventing any data leakage.
Supports a broad operational range from 20 to 350 meters, with options for 12 or 24 customizable levels.
Eliminates the need for land acquisition and building additional infrastructure, reducing effort and concerns.
Compact and lightweight design makes it easy to deploy across various terrain types and environments.
Reliable performance regardless of harsh weather conditions encountered in outdoor settings.
User-friendly operation allows quick setup and deployment, saving both valuable time and costs.
Wireless connectivity offers adaptable configuration options for seamless delivery and data transmission.
| Humidity Range | 0% To 100% |
| Power | ≤60W |
| Powered By | 24V±5% DC, 100~230V AC |
| Size | 554*430*581mm³ (with Handle) |
| Wind Speed Range | 0~75m/s |
| Sampling Rate | 1Hz |
| Distance | Ordinary Type 30~350m |
| Temperature Range | -40℃ ~ +60℃ |
| Weight | ≤50kg |
| Wind Direction Accuracy | 1° |
Evaluating the availability and consistency of wind in a particular area is crucial for successful wind energy projects. Wind resource assessment involves measuring wind speeds and patterns over time to determine the potential for energy production.
Advanced systems have been developed to forecast wind power generation accurately. These prediction tools use historical data, weather models, and real-time monitoring to estimate the output of wind turbines, helping optimize energy integration and grid management.
Monitoring weather conditions is essential for both the safety and efficiency of wind farms. Weather detection technologies provide real-time information on atmospheric conditions such as temperature, humidity, and wind direction, allowing for better operational decisions.
Identifying the optimal locations for individual wind turbines within a larger site can significantly improve overall performance. Micro site selection and review involve detailed analysis of terrain, wind flow, and obstacles to ensure the best placement of turbines.
Assessing the performance of an entire wind farm is key to maximizing energy output and operational efficiency. Performance assessments examine factors such as turbine health, energy yield, and environmental conditions to guide maintenance and improvement strategies.
Contact Person: Miss. ivyyao
Tel: +86 13072523225
Fax: 86-025-86800073