Help Us: What Are the Results of Our Efforts to Cool the Planet in the Stratosphere?

This is not an article but our request for your help. However, we are not interested in your money but in something more valuable – your time.

We are looking for information that will help us move forward and – as we believe – even closer to a functional solution to our common problems. If you find the answer to this question, we will be grateful if you write this information, including the source, in the comments below or send it to our email helpus@piqaso.com.

Thank you!

PIQASO team

Why do we ask this question?

One controversial idea gaining traction among scientists is injecting small particles, known as aerosols, into the stratosphere to block the sun’s radiation. Aerosols reflect solar radiation back into space, lowering Earth surface temperatures. They can also provide “seeds” around which water droplets coalesce to form clouds, thus further increasing the planet’s reflectivity. The particles are fairly long-lived in the stratosphere, a stable region of the atmosphere that begins five to six miles up. This makes the idea of aerosols’ use as a worldwide planet-cooler fairly attractive.

The effects of aerosol injections are at least somewhat known, since volcanic eruptions produce aerosols naturally and have produced cooling in the past. Mount Pinatubo, a volcano in the Philippines that erupted in 1991, spewed so much sulfur dioxide into the stratosphere that the planet cooled by 1 degree Fahrenheit (0.55 degrees Celsius) and stayed cool for more than two years.

Stratospheric Aerosol Injection (SAI) is a theoretical solar geoengineering proposal to spray large quantities of tiny reflective particles into the stratosphere, an upper layer of the Earth’s atmosphere, in order to cool the planet by reflecting sunlight back into space. Proposals range from spraying reflective particles, such as sulphur dioxides, finely powdered salt or calcium carbonate, from aircraft, shooting particles from artillery guns, or using large hoses to reach the sky. None of those solar geoengineering approaches address the underlying causes of climate change. In stead they aim to control the amount of incoming solar radiation by emulating the sulphur-rich dust cloud that remains in the atmosphere after large volcanic eruptions.

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