-
Huge fire in Bangkok bar kills at least 27
-
Oil prices spike on fresh US-Iran attacks, tech weighs on stocks again
-
'Indispensable' Xiaohongshu app fuels Chinese tourism
-
Spaniard's rare skin disorder ups danger of summer heat
-
NFL seeks to break into Africa with Kenya competition
-
Protected but deported anyway, as Trump goes after 'dreamers'
-
Yamal aims to steal Mbappe's World Cup thunder in semi-final showdown
-
Dodgers face Ohtani knee issues in MLB three-peat bid
-
Fisk outlasts Pendrith in playoff to win PGA Tour Louisville title
-
Warriors forward Green details LeBron recruiting pitch
-
US strikes Iran as Gulf states targeted in flareup over Hormuz
-
Massive fire in Bangkok bar kills at least 27
-
'Final before final': France face Spain in World Cup blockbuster
-
Zverev vows to chase down Wimbledon champion Sinner in trophy charge
-
England's Ecclestone glad to get 'one-up' on brother with five-wicket Lord's haul
-
Five classic France v Spain clashes before World Cup semi-final
-
Major fire rages in Fontainebleau forest near Paris
-
World Cup gets set for pair of blockbuster semi-finals
-
Sinner enjoying 'very rare' Wimbledon triumph
-
Venezuela quake death toll rises to 4,490
-
England open door to Flower return after McCullum axed as Test coach
-
McGregor says knee fine before first-kick injury, vows return
-
South Korea's Tom Kim wins Scottish Open to end three-year title drought
-
Hundred heroine Bhatia says its's 'unbelievable' to be on Lord's honours board
-
'It's amazing': Sinner revels in Wimbledon glory after Zverev battle
-
Irrepressible Sinner outlasts Zverev to win second straight Wimbledon title
-
Fresh attacks hit Iran, Kuwait as Tehran and US square off over Hormuz
-
Ryu defeats Henderson in play-off to win back-to-back majors in Evian
-
Argentina football great Rattin dies at 89
-
Spain ex-PM draws criticism with 'xenophobic' remark on French team
-
Argentina great Rattin dies at 89
-
Israel elections to be held on October 27: parliament
-
Bellingham drags England into World Cup semis but Tuchel demands more
-
Zelensky orders new PM in major government reshuffle
-
Pogacar calls for cycling calendar overhaul due to heatwave
-
Van der Poel stays calm in the heat to win Tour de France stage nine
-
Van der Poel wins shortened Tour de France ninth stage
-
Iran declares Hormuz strait closed, US military insists traffic flowing
-
McCullum sacked as England Test coach but retains white-ball role
-
Marc Marquez cruises to Germany MotoGP victory, enters title race
-
Bhatia first woman to score Lord's Test century as India run riot
-
Mladenovic and Guo win Wimbledon women's doubles title
-
'Insane heat': Durbridge calls for earlier Tour de France starts
-
McCullum stands down as England Test cricket coach
-
McCullum stand downs as England Test cricket coach
-
Marc Marquez cruises to Germany MotoGP Grand Prix victory
-
India's Bhatia becomes first woman to score Lord's Test century
-
Ukraine's Zelensky orders government reshuffle, new PM
-
India's Bhatia in sight of becoming first woman to score Lord's Test century
-
Iran, US trade more strikes as fighting escalates
What happens when fire ignites in space? 'A ball of flame'
When fire breaks out in the low-gravity, high-stakes conditions inside spacecraft or space stations, it behaves very differently than back here on Earth.
So, as humans aim to set foot on Mars in the coming decades, researchers are seeking to learn how flames spark and spread in space -- and how best to stamp them out.
The deadly threat fire poses in space goes all the way back to the first mission of NASA's Apollo programme, which would go on to put the first humans on the Moon.
Just days before the Apollo 1 mission was scheduled to launch in January 1967, its three crew members were killed by a fire that broke out in the spacecraft's cabin during a training exercise on the ground.
"At that time, the capsules were filled with 100 percent pure oxygen at low pressure, instead of atmospheric pressure, so the astronauts could breathe," explained Serge Bourbigot, a researcher at France's Centrale Lille institute.
"However the more oxygen you have, the more it burns," he told AFP.
Since the Apollo 1 disaster, the oxygen levels in spacecraft carrying astronauts have been set to 21 percent -- the same amount as here on Earth.
But fire still acts differently in these cramped conditions hurtling through the vastness of space.
- A spherical flame -
When you light a candle on Earth, the heat rises because hot air is less dense than cold air.
However if you lit that candle inside a spacecraft or a station orbiting our planet, the heat would stay put because of the lack of gravity.
So instead of seeing a feather-shaped plume rise from the candle's wick, "you get a ball of flame," Bourbigot said.
"This ball will create and radiate heat, sending heat into the local environment -- the fire will spread that way," expanding in every direction, he added.
To find out more, Bourbigot and three other scientists have been awarded a grant from the European Research Council.
Their work has proved particularly timely because NASA recently recommended that oxygen levels be increased to 35 percent in new spacecraft and space stations, mainly to cut costs.
"With 35 percent oxygen, less pressure is needed inside the spacecraft, so the structure can be lighter," Bourbigot explained.
Heavier spacecraft require bigger rockets to launch them into space, making them more expensive.
But when oxygen levels rise, so does the risk of fire. So the grantees are investigating different ways to track and stamp out any space blazes in the future.
- Lighting a fire on a rocket -
Guillaume Legros of France's Sorbonne University is trying to use acoustic waves to smother the flames.
Tests have already been carried out on parabolic flights, which simulate the weightless conditions of space for 22 seconds.
Bourbigot is meanwhile looking into flame retardants. While these chemicals work well here on Earth, low gravity again throws up new hurdles.
Because smoke does not rise in the same way, it is more dense and "poses an opacity problem", Bourbigot said.
Florian Meyer from Germany's University of Bremen is developing sensors to closely monitor temperatures and track how fires would spread in space.
And fire safety researcher Bart Merci from Belgium's Ghent University is planning to digitally simulate how flames behave in low gravity.
To test their theories, a rocket is planned to launch within the next four years that will provide six minutes of microgravity to investigate how fire behaves in these conditions.
European aerospace manufacturer Airbus will build the rocket, which is set to launch from northern Sweden.
For their research, which is grouped under the Firespace programme, the four scientists have received 14 million euros ($16 million) -- enough to fund their work for the next six years.
J.AbuHassan--SF-PST