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Product Details:
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| Distance: | Ordinary Type 30~350m | Temperature Range: | -40℃ ~ +60℃ |
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| Power: | ≤60W | Wind Speed Accuracy: | 0.1m/s |
| Humidity Range: | 0% To 100% | Weight: | ≤50kg |
| Wind Direction Accuracy: | 1° | Size: | 554*430*581mm³ (with Handle) |
The Molas B300 functions based on the Doppler frequency shift principle and utilizes DBS-scanning vector synthesis technology. This allows it to accurately measure wind speed and wind direction at various altitudes, specifically from 30 meters up to 350 meters above the lidar device.
The Molas B300 series is composed of four essential modules. These include a fiber laser lidar transmitter, a laser transceiver system, a high-speed data acquisition system, and highly precise data processing software. Each component is meticulously optimized to ensure smooth integration within the system.
Thanks to this careful optimization, the modules work together harmoniously to provide superior system coordination and maintain strong data security. As a result, the Molas B300 series delivers performance that matches leading international standards in the field.
Our solution offers a convenient and rapid non-contact measurement method, setting a new standard in the industry. This technology enhances efficiency by eliminating the need for direct physical interaction during the measurement process.
Achieving precision up to 0.1 m/s and an angular accuracy of 1°, our system ensures highly reliable measurements. This level of accuracy supports detailed analysis and decision-making processes.
Designed for straightforward and fast maintenance, our system minimizes downtime and eliminates safety risks associated with production. Maintenance tasks can be performed efficiently without compromising operational safety.
We prioritize the security of your data, effectively preventing economic and policy-related risks such as data breaches or leaks. Our system guarantees confidentiality and integrity in data handling.
Supporting a wide measurement range from 20 to 350 meters with options for 12 or 24 customized levels, the system provides versatile coverage suitable for various applications.
There is no requirement for land acquisition or infrastructure development, significantly reducing hassle and effort. This feature simplifies deployment and lowers overall project costs.
Compact and lightweight, the equipment adapts seamlessly to diverse terrain conditions. Its flexible deployment capabilities ensure effective operation in multiple environments.
Built to withstand harsh and unpredictable outdoor environments, the system remains reliable under all weather conditions. This robustness ensures uninterrupted performance in the wild.
With an easy-to-operate design, the system can be quickly activated, saving valuable time and reducing operational costs. Its efficiency accelerates project timelines without compromising quality.
Wireless connectivity enables flexible configuration setups, facilitating seamless delivery and data transmission. This adaptability enhances system integration and operational convenience.
| Size | 554*430*581mm³ (with Handle) |
| Powered By | 24V±5%DC, 100~230V AC |
| Temperature Range | -40℃ ~ +60℃ |
| Humidity Range | 0% To 100% |
| Wind Direction Accuracy | 1° |
| Distance | Ordinary Type 30~350m |
| Measurement Layer | 12 Or 24 |
| Sampling Rate | 1Hz |
| Power | ≤60W |
| Weight | ≤50kg |
Evaluating the availability and quality of wind resources is a crucial step in the development of wind energy projects. This process involves measuring wind speeds and patterns over a period to determine the potential for energy generation at a given location.
Advanced systems are deployed to forecast wind power generation accurately. These prediction tools help operators optimize the performance of wind farms by anticipating fluctuations in wind energy output, enabling better grid integration and energy management.
Monitoring weather conditions plays an essential role in ensuring the safety and efficiency of wind energy operations. Real-time weather detection systems provide valuable data on atmospheric phenomena that may impact turbine performance and maintenance schedules.
Choosing the most suitable micro-sites within a larger area involves detailed analysis and review. This step takes into account local terrain, wind flow characteristics, and environmental factors to maximize the energy yield and minimize risks.
After installation, continuous assessment of wind farm performance ensures that the facility operates at optimal levels. This evaluation encompasses monitoring energy production, identifying inefficiencies, and implementing improvements to enhance overall productivity.
Contact Person: Miss. ivyyao
Tel: +86 13072523225
Fax: 86-025-86800073