LONDON (Reuters) – Spraying sun-dimming chemicals high above the Earth to slow global warming could be “remarkably inexpensive”, costing about $2.25 billion a year over a 15-year period, according to a study by U.S. scientists.
FILE PHOTO: Sun rays shine through trees in a forest on an autumn morning near Biere, Switzerland, September 26, 2018. REUTERS/Denis Balibouse/File Photo
Some researchers say the geo-engineering technique known as stratospheric aerosol injection (SAI) could limit rising temperatures that are causing climate change.
As yet unproven and hypothetical, it would involve the use of huge hoses, cannons or specially designed aircraft to spray large quantities of sulphate particles into the upper layer of the atmosphere to act as a reflective barrier against sunlight.
Total costs to launch a hypothetical SAI effort 15 years from now would be $3.5 billion, scientists at Harvard University said in a report published in the journal Environmental Research Letters, adding that average annual operating costs would be about $2.25 billion a year over 15 years.
Discounting other methods of deployment because of cost and feasibility, the research assumes a special aircraft can be designed to fly at an altitude of about 20km and carry a load of 25 tonnes.
After direct input from several aerospace and engine companies, the scientists said they have developed a design that could be suitable and could be ready to be deployed in 15 years, aiming to cut the rate of temperature change in half.
The scientists emphasized that this is merely a hypothetical scenario.
“We make no judgment about the desirability of SAI. We simply show that a hypothetical deployment program commencing 15 years hence, while both highly uncertain and ambitious, would indeed be technically possible from an engineering perspective. It would also be remarkably inexpensive,” the report said.
There are risks to such unproven potential technologies. Scientists have said SAI could result in negative consequences such as causing droughts or extreme weather in other parts of the world, harm crop yields as well as potential public health and governance issues.
It also does not address the issue of rising carbon dioxide emissions, the main greenhouse gas blamed for global warming.
Commenting on the study, Phil Williamson at the University of East Anglia said: “Such scenarios are fraught with problems – and international agreement to go ahead with such action would seem near-impossible to achieve.”
Reporting by Nina Chestney; Editing by David Goodman