Sunday, October 31, 2021

SpaceX's Dragon space toilet is off limits for astronauts returning to Earth soon

The next astronauts to return to Earth on a SpaceX Dragon won't be able use a crucial system on their trip home next month: the space potty. SpaceX's toilet on its Crew Dragon Endeavour will be off limits for the four Crew-2 mission astronauts once they leave the International Space Station in early November, NASA officials said late Friday (Oct. 29). That's because of a possible urine leak in the toilet like one seen on SpaceX's all-civilian Inspiration4 flight in September. SpaceX has since redesigned its toilet to avoid leaks on future flights. "Our intent is to not use the system at all for the return leg home because of what we've seen with the fluids we are talking about," Steve Stitch, NASA's Commercial Crew program manager, told reporters Friday in a prelaunch briefing for SpaceX's Crew-3 astronaut launch, now set for next week. "We have other means to allow the crew to perform the functions they need." Those other means? An "undergarment" for waste management that astronauts have long used to relieve themselves when clad in spacesuits for launches, landings or spacewalks. "Anytime the crew is suited they use an undergarment in that suit, and it's a short mission coming home," Steve Stitch said. "So, it's pretty typical to have an undergarment on and they can use that on the way home." It's been a backup for any spaceflight, he added.


SpaceX's Crew Dragon Endeavour (bottom center) and a visiting uncrewed Cargo Dragon supply ship (foreground), are seen docked at the International Space Station's Harmony module in September 2021. (Image credit: NASA)

The astronauts returning to Earth on the Crew-2 mission are NASA's Shane Kimbrough and Meghan McArthur, Japan Aerospace Exploration Agency astronaut Akihiko Hoshide and astronaut Thomas Pesquet of the European Space Agency. They launched to the station in April were expected to return home on Nov. 4 with a splashdown off the Florida coast, NASA officials said late Friday. 


European Space Agency astronaut Thomas Pesquet shared this image of Crew Dragon's toilet on Twitter while flying to the International Space Station on the Endeavour Dragon in April 2021. (Image credit: Thomas Pesquet)

That landing date may now change after SpaceX and NASA delayed the launch of the Crew-2's relief mission, Crew-3, until Nov. 2 due to bad weather. The Crew-2 astronauts will return after a handover with their incoming crewmates.

Stitch said SpaceX and NASA have worked to shorten the length of time it takes a Dragon crew to return to Earth after leaving the space station.

In August 2020, when SpaceX's first crewed flight Demo-2 returned to Earth, it took just over 19 hours for its two-person crew to splashdown after undocking from the station. SpaceX's recovery team reached them shortly after they landed. SpaceX's Crew-1 splashdown on May 2 of this year cut that time down to just under 6.5 hours. SpaceX recovery teams aim to unload a crew from their capsule within an hour of splashdown.

"We are working to try to always minimize that time from undocking to landing, so that's what we'll do with this flight," Stitch said.

In the meantime, SpaceX and NASA are focused on the imminent launch of the next astronaut flight to the space station: the Crew-3 mission. That flight, originally scheduled to launch on Oct. 31, is now scheduled to lift off Nov. 3 from Pad 39A of NASA's Kennedy Space Center in Florida. Liftoff is at 1:10 a.m. EDT (0510 GMT).

That mission will launch NASA astronauts Raja Chari, Tom Marshburn, Kayla Barron and European Space Agency astronaut Matthias Maurer on their own six-month trip to the space station. They will launch on the Crew Dragon Endurance, a new Dragon capsule. The Crew-2's Endeavour capsule is older and is flying its second crewed mission.

You'll be able to watch the Crew-3 launch live on Space.com, courtesy of NASA TV and SpaceX, starting on Tuesday, Nov. 2, at 8:45 p.m. EDT (0045 GMT).

Monday, October 25, 2021

Can biofuels make spaceflight greener? UK space startups reveal plans for cleaner rocket launches

Rocket launches can inject huge amounts of soot into higher layers of Earth's atmosphere, depending on their fuel, possibly contributing to climate change. A pair of British rocket startups now claim their rocket technology can reduce spaceflight's environmental footprint by switching to renewable fuel. Both of these startups plan to launch their rockets from different spaceports located in Scottish wilderness, and being green has been part of their pitch from the start. While Edinburgh-based Skyrora plans to fly their rockets using rocket fuel made from non-recyclable plastics. Their counterpart, the Inverness-based Orbex, is betting on biopropane, a natural gas made as a byproduct during biodiesel production. Last week, Orbex released a study by experts from the University of Exeter in the U.K., which claims that the company's bio-propane-powered rocket Prime, a micro-launcher, will produce 86% less emissions than a similar-sized fossil fuel launcher. The comparison was made with launchers that burn RP-1, or Rocket Propellant 1, a refined form of aviation fuel kerosene. RP-1 is widely used by rocket builders all over the world. SpaceX's Falcon 9 uses this fuel in both of its stages. The fossil fuel also powers Russia's workhorse Soyuz rockets and the first stages of America's Atlas V.

The U.K. rocket startup Skyrora tested its Skylark Micro suborbital rocket last year. In the future, the company's rockets will be powered by a renewable fuel made from non-recyclable plastics. (Image credit: Skyrora)

Most of the carbon dioxide emissions reductions achieved by Orbex come from the negative carbon footprint of the biofuel production rather than by the launcher emitting considerably less, according to the report's executive summary. The company that supplies the biopropane, U.K.-based Calor, makes the fuel from a mixture of waste residues and "sustainably sourced materials", according to Calor's website.

However, most experts are not that concerned with the carbon dioxide emissions of spaceflight, simply because there are currently not that many rocket launches. In an earlier interview this year, Martin Ross, of the U.S. Aerospace Corporation, a leading expert on atmospheric effects of rocket launches, told Space.com that the space industry burns only about 1% of the fossil fuel consumed by aviation.

There is another component of rocket exhaust that climate experts are concerned about: soot. Rockets inject huge amounts of it into the otherwise pristine upper layers of Earth's atmosphere, where it could trigger possibly far-reaching changes.

And here, technology such as Orbex's biopropane-fueled Prime rocket could make a difference. The University of Exeter study says that the Prime vehicle, which is 62 feet (19 meters) long and designed to carry small payloads of up to 330 lbs. (150 kilograms) to low Earth orbit, will emit much less soot than a similar micro-launcher using RP-1. The company added in a statement that Prime "almost entirely eliminates" soot emissions.

Soot in the atmosphere can absorb heat and affect the temperature of the higher layers of the atmosphere — the mesosphere and the stratosphere. Orbex said in its statement that 120 rocket launches emit as much soot as the entire global aviation industry emits in a year.

Overall, a single Orbex rocket launch will generate a total of 15 tons (13.8 tonnes) of greenhouse gas emissions, which is equivalent to the annual carbon footprint of an average U.K. citizen, Orbex said in the statement.

The Prime micro-launcher of U.K. company Orbex uses sustainably sourced biopropane that emits much less soot compared to rocket fossil fuel RP-1. (Image credit: Orbex) 

Orbex expects to fly its reusable 3D-printed Prime rocket for the first time next year from the Space Hub Sutherland on the northern coast of Scotland. The spaceport recently received planning permission after winning a court case against a billionaire landowner who questioned its environmental impact.

Orbex's counterpart Skyrora hasn't launched its three-stage Skyrora XL orbital rocket yet either but has performed several successful test flights of their sub-orbital missile Skylark Micro, which reached the altitude of up to 17 miles (27 kilometers). In 2020, the company tested a small prototype of its engine, which runs on fuel made from non-recyclable plastics. According to the company's website, the new fuel, called Ecosene, showed a 1- 3% better energy profile compared to RP-1.

Derek Harris, CEO of Skyrora's Ecosene division, told Space.com that Ecosene comes much cheaper than RP-1, at about $2 per gallon.

"The plastics that we are using actually come from waste disposal," Harris said. "We even get paid to take it, so feedstock is a negative value."

Harris said the company's experiments show the Ecosine-fuelled rocket engine, which uses hydrogen peroxide as an oxidizer to burn with the fuel, produces about 40% less emissions overall, including carbon dioxide, carbon monoxide, soot and sulfur.

Harris said the company hopes to fly its rocket prototype in late 2022 from a spaceport on the Shetland Islands north off the coast of Scotland.

Orbex and Skyrora are not the only ones pursuing biofuel. In February this year, American start-up bluShift Aerospace flew its first stage rocket prototype Stardust 1.0, which uses proprietary solid biofuel made from agricultural waste. The test rocket reached less than one mile in altitude.