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The core component of a drone is the fuel stack. Generally, the lifespan of the fuel stack is the same as that of the entire drone, usually around 1,500 hours. The exact duration depends on operational habits. If a drone is used for a long time in a high-altitude and low-oxygen environment, its lifespan will be greatly reduced.
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If you have a CAAC pilot certificate and apply for airspace, you can operate. At the same time, before the product delivery, we will conduct specialized training on the characteristics of the fuel cell system, daily inspections, safety regulations and emergency response related contents.
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We have dedicated pressurizing equipment that can pressurize canned hydrogen to 35MPA.
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It is especially suitable for scenarios that require long flight time, large-scale and high-frequency operations
Industrial inspection: Ultra-long-distance inspection of power lines, natural gas pipelines, photovoltaic wind farms, forestry scenarios, and water conservancy scenarios.
Security patrol: Large-scale continuous monitoring of borders, parks, and major events.
Logistics and distribution: Medium and long-distance medical emergency rescue and special materials transportation.
Surveyin
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Support. We can provide customized solutions in terms of load capacity, endurance, communication links, and mission payloads (such as dual-light pods, multispectral cameras, loudspeaker devices, etc.) integration based on your specific needs. Please contact our sales engineer directly for detailed discussion.
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Hydrogen-powered unmanned aerial vehicles (UAVs) are a type of UAV that uses hydrogen fuel cells as its power source. The core difference between it and lithium battery drones lies in the energy source and energy storage method.
Lithium battery drones: They use lithium batteries to store all energy, and usually have short battery life and weak environmental adaptability.
Hydrogen-powered unmanned aerial vehicles (UAVs) : Through hydrogen fuel cells, hydrogen in the hydrogen storage tank
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Our advantages are mainly reflected in three aspects:
1. Ultra-long battery life: The battery life is 3 to 4 times that of lithium battery drones of the same level. Models like XC02/XC04 can operate continuously for more than 2 to 4 hours, greatly expanding the working range and efficiency.
2. Strong environmental adaptability: Its self-developed hydrogen fuel hybrid system adopts a cold start strategy and low-temperature resistant battery technology, which can operate stably within a wide tem
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The main difference between the two lies in the heat dissipation method.
Water-cooled fuel cells: They dissipate heat through the circulation of coolant. They have a complex structure and are heavy, but they have a high heat dissipation efficiency and are commonly found in high-power vehicle scenarios.
Air-cooled fuel cells: They dissipate heat through fans and air flow, featuring a simple and compact structure, light weight, and quick start-up.
Hydrogen Peng chose air-cooling technology beca
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Our drones have excellent environmental adaptability, with a typical operating temperature range of -40℃ to 40℃. They can withstand winds of up to level 6 and fly in moderate rain. However, for safety reasons, it is not recommended to fly in bad weather conditions.
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Although hydrogen is a flammable and explosive substance, its safety risks are controllable. Under the condition of ensuring safe and standardized operations, the safety of hydrogen is much higher than that of flammable liquids such as liquid gasoline. In terms of gas cylinder safety, our custom-developed Type Four hydrogen cylinders use high-molecular polymers as the inner liner, which has extremely high strength. It has passed rigorous tests such as fire, gunshot, drop, explosion and fatigue,
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