Drones

Cloud-seeding drones to bring the rain

Cloud-seeding drones to bring the rain
The Desert Research Institute (DRI) has gained approval from the Federal Aviation Administration to test its aircraft at altitudes of up to 1,200 ft (365 m)
The Desert Research Institute (DRI) has gained approval from the Federal Aviation Administration to test its aircraft at altitudes of up to 1,200 ft (365 m)
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By relying on drones for cloud-seeding, the process could potentially become cheaper and safer, according to DRI
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By relying on drones for cloud-seeding, the process could potentially become cheaper and safer, according to DRI
The drone flew to an altitude of 400 ft (122 m)
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The drone flew to an altitude of 400 ft (122 m)
The Desert Research Institute (DRI) has gained approval from the Federal Aviation Administration to test its aircraft at altitudes of up to 1,200 ft (365 m)
3/3
The Desert Research Institute (DRI) has gained approval from the Federal Aviation Administration to test its aircraft at altitudes of up to 1,200 ft (365 m)
View gallery - 3 images

Firing particle-loaded rockets into the sky and spraying chemicals from airplanes are just a couple of ways scientists are already attempting to boost rainfall in drier regions of the world. But they may soon have a new tool at their disposal, with researchers in the US successfully testing a cloud-seeding drone aimed at offering a cheaper and safer alternative.

Built by manufacturer Drone America, the "Sandoval Silver State Seeder" recently took to the skies over Nevada, carrying cloud-seeding gear along for the ride. The flight is claimed to be the first time fixed-wing unmanned aircraft has been successfully tested with such a payload on board.

The drone flew to an altitude of 400 ft (122 m) in an 18-minute flight, deploying two silver-iodide flares in the process. Silver iodide is a material commonly used in cloud-seeding programs as it has a hexagonal crystalline structure is very similar to ice that triggers freezing nucleation, a process whereby smaller droplets gather around the particles to form blocks of ice.

The drone flew to an altitude of 400 ft (122 m)
The drone flew to an altitude of 400 ft (122 m)

China used this method of weather control in preparation for the opening ceremony of the 2008 Olympic Games, with organizers firing rockets into the sky to trigger downfalls around, but not over, the Olympic stadium. Australia disperses silver iodide by manned aircraft to manage dam water levels, while the technique is also used in many other locations around the world, from Los Angeles to India.

But by relying on drones to do the job, this process could potentially become cheaper and safer, according to the Desert Research Institute (DRI), which is carrying out the research. It has gained approval from the Federal Aviation Administration to test its aircraft at altitudes of up to 1,200 ft (365 m) as it looks to one day make it rain by way of flying robots.

"We have reached another major milestone in our effort to reduce both the risks and the costs in the cloud seeding industry and help mitigate natural disasters caused by drought, hail and extreme fog," says Mike Richards, President and CEO of Drone America. "With a wingspan of 11-feet, 10-inches (3.6 m) and its light weight design (less than 55 pounds (25 kg)) the Savant is the perfect vehicle to conduct this type of operation due to its superior flight profile, long flight times and its resistance to wind and adverse weather conditions."

Source: Desert Research Institute

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2 comments
2 comments
CarolynR
Hey, guys, you are stealing what might otherwise have been my rain.....how can that be right, or legal?
Jay R
A height of 122 meters is nowhere close to what it would have to make to seed a cloud as you would probably need to seed from a height of 7,000 meters at least. Dropping a payload from a radio control plane at 122 meters has been going on for decades. I used to do it with sweets (Candies) at the local model show 30 years ago. In addition to this, even if the drone could reach that sort of height, it couldn't carry enough silver iodine to make any measurable amount of rain. You'd have to send it up hundreds of times to make any sort of significant rainfall which would take weeks.