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Product Details:
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| Weight: | ≤50kg | Wind Direction Accuracy: | 1° |
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| Sampling Rate: | 1Hz | Power: | ≤60W |
| Wind Speed Range: | 0~75m/s | Wind Speed Accuracy: | 0.1m/s |
| Measurement Layer: | 12 Or 24 | Size: | 554*430*581mm³ (with Handle) |
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 various altitudes, specifically ranging from 30 meters up to 350 meters above the lidar unit.
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 sophisticated high-precision data processing software. Each component is meticulously optimized to ensure smooth integration within the system.
This careful design guarantees excellent coordination across all modules and provides strong data security. As a result, the Molas B300 series delivers performance that meets or exceeds international advanced standards, making it a reliable solution for wind measurement applications.
Non-contact Measurement
This method offers a convenient and rapid solution, setting a new benchmark in the industry.
High Accuracy
Achieve precise measurements with accuracy reaching up to 0.1 meters per second and 1 degree.
Easy Maintenance
Maintenance is straightforward and swift, ensuring no risks to production safety.
Data Security
Protect your information from economic and policy risks including data leaks.
Large Range
Covers distances from 20 to 350 meters, with customizable levels of 12 or 24.
No Infrastructure Construction
Eliminates the need for land acquisition and infrastructure building, reducing hassle and effort.
Flexible Deployment
Compact and lightweight design allows adaptation to diverse terrain environments.
All-Weather Capability
Reliable performance regardless of harsh outdoor conditions.
Time-saving and Efficient
Easy to operate and quickly deployable, saving valuable time and costs.
Flexible Configuration
Wireless connectivity provides adaptable configuration delivery and seamless data transmission.
| Measurement Layer | 12 Or 24 |
| Size | 554*430*581mm³ (with Handle) |
| Weight | ≤50kg |
| Wind Direction Accuracy | 1° |
| Distance | Ordinary Type 30~350m |
| Power | ≤60W |
| Sampling Rate | 1Hz |
| Powered By | 24V±5%DC, 100~230V AC |
| Wind Speed Accuracy | 0.1m/s |
| Wind Speed Range | 0~75m/s |
Evaluating the availability and consistency of wind at a potential site is crucial for successful wind energy projects. Wind resource assessment involves the collection and analysis of wind data to determine the site's suitability for wind power generation.
Advanced systems designed to forecast wind power output help optimize energy management. These prediction models utilize meteorological data and historical patterns to estimate short-term and long-term wind energy production.
Accurate detection of weather conditions supports safe and efficient operation of wind turbines. This includes monitoring variables such as temperature, humidity, wind speed, and direction to anticipate changes that may impact turbine performance.
Selecting the optimal micro site within a larger area ensures maximum energy generation and minimal environmental impact. This process involves detailed analysis of local terrain, wind patterns, and accessibility to assess potential locations.
Assessing the performance of an operational wind farm is essential to maintain efficiency and identify areas for improvement. Performance evaluation considers power output, turbine availability, and environmental factors to optimize overall operations.
Contact Person: Miss. ivyyao
Tel: +86 13072523225
Fax: 86-025-86800073