|
Product Details:
Payment & Shipping Terms:
|
| Wind Speed Accuracy: | 0.1m/s | Temperature Range: | -40℃ ~ +60℃ |
|---|---|---|---|
| Size: | 554*430*581mm³ (with Handle) | Sampling Rate: | 1Hz |
| Powered By: | 24V±5%DC, 100~230V AC | Wind Speed Range: | 0~75m/s |
| Measurement Layer: | 12 Or 24 | Wind Direction Accuracy: | 1° |
The Molas B300 functions based on the Doppler frequency shift principle, utilizing DBS-scanning vector synthesis technology to accurately measure wind speed and wind direction. It is capable of operating at various heights, ranging from 30 meters up to 350 meters above the lidar device.
This series consists of four essential components: a fiber laser lidar transmitter, a laser transceiver system, a high-speed data acquisition unit, and sophisticated high-precision data processing software. Each component is meticulously designed and optimized to work together seamlessly, guaranteeing excellent system coordination.
Moreover, the integration of these modules ensures robust data security and reliability. The Molas B300 series delivers performance that matches international advanced standards, making it a competitive solution in wind measurement technology.
Our technology offers a convenient and rapid non-contact measurement solution, setting the standard in the industry.
Achieve precise measurements with accuracy levels up to 0.1 meters per second and 1 degree.
Maintenance is straightforward and quick, ensuring there are no risks to safety during production.
Our system guarantees data protection, eliminating economic and policy risks related to data leakage.
Supports a broad range from 20 to 350 meters, with options for 12 or 24 custom levels to suit various needs.
There is no need for land acquisition or infrastructure construction, which reduces both hassle and effort.
The equipment is compact and lightweight, allowing it to adapt easily to diverse terrain environments.
Designed to operate reliably even in harsh outdoor environments without any performance degradation.
With user-friendly operation, the system can be quickly deployed, saving valuable time and reducing costs.
Wireless connectivity enables flexible configuration delivery and seamless data transmission.
| Wind Speed Range | 0~75 m/s |
| Powered By | 24V±5% DC, 100~230V AC |
| Wind Speed Accuracy | 0.1 m/s |
| Size | 554*430*581 mm³ (with Handle) |
| Humidity Range | 0% To 100% |
| Wind Direction Accuracy | 1° |
| Power | ≤60W |
| Distance | Ordinary Type 30~350 m |
| Sampling Rate | 1 Hz |
| Measurement Layer | 12 Or 24 |
Evaluating the availability and quality of wind resources is a crucial step in the development of wind energy projects. This process involves measuring wind speed, direction, and other meteorological factors to determine the potential energy that can be harnessed from a specific location.
Advanced systems are designed to forecast wind power generation accurately. These prediction tools utilize historical data, weather models, and real-time observations to provide reliable estimates, thereby optimizing the integration of wind power into the energy grid.
Monitoring weather conditions plays a vital role in managing and operating wind energy installations. Accurate weather detection helps in anticipating changes that may affect power generation and ensures the safety and efficiency of wind turbines.
Selecting an optimal micro site requires a detailed analysis of local terrain, wind patterns, and environmental factors. This review process ensures that wind turbines are positioned in locations that maximize energy output while minimizing potential impacts.
Evaluating the overall performance of wind farms is essential for maintaining efficiency and identifying areas for improvement. Performance assessments include analyzing energy production, operational data, and maintenance records to enhance the productivity of wind power facilities.
Contact Person: Miss. ivyyao
Tel: +86 13072523225
Fax: 86-025-86800073