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Product Details:
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| Weight: | ≤50kg | Temperature Range: | -40℃ ~ +60℃ |
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| Size: | 554*430*581mm³ (with Handle) | Wind Speed Accuracy: | 0.1m/s |
| Powered By: | 24V±5%DC, 100~230V AC | Wind Speed Range: | 0~75m/s |
| Sampling Rate: | 1Hz | Humidity Range: | 0% To 100% |
The Molas B300 functions based on the Doppler frequency shift principle and utilizes DBS-scanning vector synthesis technology to accurately measure wind speed and direction. It is capable of performing these measurements at various altitudes, specifically between 30 meters and 350 meters above the lidar device.
This series, known as the Molas B300, consists of four fundamental components. These include a fiber laser lidar transmitter, a laser transceiver system, a high-speed data acquisition system, and sophisticated data processing software that ensures high precision. Each of these modules is meticulously optimized to work together seamlessly.
The integration of these components guarantees excellent overall system coordination and strong data security. Moreover, the Molas B300 series delivers performance that meets or exceeds internationally recognized advanced standards, making it a reliable choice for precise wind measurement applications.
Experience convenience and speed with our non-contact measurement technology, setting the benchmark in the industry.
Achieve precise readings with accuracy up to 0.1 meters per second and an angular precision of 1°.
Maintenance is straightforward and quick, eliminating any risks associated with safe production processes.
Rest assured with robust data protection, avoiding economic and policy risks such as data leakage.
Cover distances from 20 to 350 meters, with options for 12 or 24 customizable levels to suit your needs.
Save time and effort by eliminating the need for land acquisition or additional infrastructure construction.
Designed to be small and lightweight, this solution easily adapts to various terrain and environmental conditions.
Operate confidently in harsh outdoor conditions without any environmental limitations.
Quick to operate and easy to implement, this system helps you save valuable time and reduce costs.
Wireless connectivity allows for flexible configuration, enabling seamless data transmission and delivery.
| Distance | Ordinary Type 30~350m |
| Wind Speed Range | 0~75m/s |
| Power | ≤60W |
| Sampling Rate | 1Hz |
| Temperature Range | -40℃ ~ +60℃ |
| Wind Speed Accuracy | 0.1m/s |
| Size | 554*430*581mm³ (with Handle) |
| Powered By | 24V±5%DC, 100~230V AC |
| Wind Direction Accuracy | 1° |
| Weight | ≤50kg |
One of the fundamental aspects of developing wind energy projects is conducting a thorough wind resource assessment. This process involves analyzing the wind patterns and speeds in a specific area to determine its suitability for wind power generation.
In addition to resource evaluation, implementing a reliable wind power prediction system is crucial. Such systems help forecast the amount of energy that can be generated, enabling better planning and grid management.
Accurate weather detection plays a supporting role in wind energy operations. Monitoring atmospheric conditions ensures optimal performance and safety of wind turbines under varying weather scenarios.
Selecting and reviewing micro sites form another critical step. This involves pinpointing the best locations within a larger area to maximize wind capture and minimize environmental impacts.
Finally, assessing the performance of existing wind farms is essential for ongoing optimization. This evaluation helps identify potential improvements and ensures the wind farm operates at peak efficiency.
Contact Person: Miss. ivyyao
Tel: +86 13072523225
Fax: 86-025-86800073