The ALPHAPEC 9401 is a nuclear reconnaissance unmanned aerial vehicle (UAV). It utilizes the DJI industry-level Phantom UAV as its flight platform, equipped with advanced technologies including Time-of-Flight Mass Spectrometry, array-based multisensor fusion, and Time-to-Count nuclear detection technology in its payload. This enables the UAV to detect trace chemical agents, industrial toxic gases, and radioactive contamination quickly, accurately, and in real-time.
The detection results from the nuclear reconnaissance can be displayed in real-time on the UAV control terminal through transparent transmission. The professional visualization analysis software seamlessly integrates with the UAV, providing second-level response capability and real-time mapping of nuclear and chemical contamination areas. This allows for easy visualization of the three-dimensional distribution of contamination, facilitating rapid source identification.
The nuclear reconnaissance UAV serves as an ideal equipment for emergency rescue personnel to conduct advance reconnaissance and warning. Prior to entering dangerous areas such as firefighting and hazardous chemical explosion scenes, the UAV can be used for on-site reconnaissance and detection to conduct safety assessments in advance. The UAV can also search for and locate leakage sources, and then map the area to facilitate rapid arrival of emergency personnel.
The nuclear detection reconnaissance UAV is the preferred equipment for inspecting nuclear-sensitive areas and industrial parks. The UAV conducts mobile reconnaissance of the inspection area, offering high flexibility and extensive coverage. It can also locate and trace the source of detected pollutants, significantly enhancing the efficiency of safety inspection personnel.
This nuclear detection reconnaissance UAV is a critical asset in the field of environmental monitoring. It can access hard-to-reach areas, detecting nuclear leaks and clandestine discharge from chemical plants.
- Unmanned reconnaissance of nuclear radiation and chemical hazards.
- Conduct safety assessments of dangerous areas from a safe distance in advance.
- Qualitative and quantitative detection of pollutants and mapping of pollution distribution ranges.
- The gimbal rapidly maps the surrounding area from the air to assess hazards upon entry.
- Gain comprehensive understanding of the area's scene, including visual and nuclear contamination.
- Quickly formulate protective measures, travel directions, and response methods before entering dangerous sites.
- Supports positioning and navigation functions such as Beidou, GPS, GLONASS, and GALILEO.
Ø - Significantly reduces reconnaissance time before taking action.
- High-end integration: Integrates world-class nuclear reconnaissance equipment with industry-leading UAV platforms.
- Unmanned operation: Conducts beyond visual line of sight operations, conducting reconnaissance of nuclear radiation and chemical hazards in dangerous areas from a safe distance.
- Intelligence: Intelligent six-axis positioning and obstacle avoidance, one-key return; qualitative and quantitative detection of pollutants, combined with neural network algorithms to form a pollution situation awareness map.
- Visualization: Visual assistance for flight, rapid mapping of surrounding maps, integration of visual and nuclear contamination information.
- Informatization: Remote transmission of reconnaissance data, combined with backend informatization decision-making platforms, significantly reduces reconnaissance time, quickly formulating protective measures and response methods for dangerous sites.
Responsive interface
Specifications
Name |
Technical Specifications |
System Specifications: |
|
Control Distance: |
≥5km |
Maximum Flight Time: |
≥30 minutes |
Maximum Altitude: |
5km |
Maximum Flight Speed: |
21 meters/second |
Maximum Ascent Speed: |
6 meters/second |
Operating Temperature: |
-20°C to 40°C |
Nuclear Detection Specifications: |
|
Detection Range: |
1uSv/h-10mSv/h |
Detection Accuracy: |
±10% |
Energy Response: |
±10% |
Detection Source Types: |
35KeV-1.5MeV |
Detector Technology Type: |
GM tube counts per second |
Chemical Detection Specifications: |
|
Sarin: |
0.2mg/m3 |
VX: |
0.5mg/m3 |
Mustard Gas: |
2mg/m3 |
Hydrogen Cyanide: |
10mg/m3 |
Phosgene: |
10mg/m3 |
Ammonia: |
20mg/m3 |
Sulfur Dioxide: |
10mg/m3 |
Hydrogen Sulfide: |
10mg/m3 |
Application scenarios
It can be widely used in chemical defense reconnaissance, hazardous chemical explosion sites, industrial park inspections, nuclear power plant leak detection, and environmental protection.