Space: Astronauts burn up to 3,000 calories on seven-hour spacewalk to prepare for ISS power boost 

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    If you’re still looking to lose those lockdown pounds, you might do worse than a seven-hour spacewalk — which burns off up to 3,000 calories, according to NASA.

    Astronauts Akihiko Hoshide of the Japan Aerospace Exploration Agency and Thomas Pesquet of the European Space Agency got their orbital exercise in on Sunday.

    The spacewalk — which began at 08:15 ET (13:15 BST) — was to help prepare the International Space Station (ISS) for a power boost in the form of new solar arrays.

    The pair installed a new support bracket on the outside of the orbiting laboratory, near the living spaces, on the inward port side of the ‘P4’ truss structure.

    The bracket will support the third of six new ‘roll-out’ solar arrays — so-called because they are transported into orbit furled up like a stored carpet.

    The first of the new arrays was successfully deployed on the station back in June.

    Alongside the installation of the support bracket, the astronauts also found the time for a ‘get ahead’ task — replacing part of one of the ISS’s three airlocks.

    The excursion represented Mr Pesquet’s sixth spacewalk and Mr Hoshide’s fourth — and the 244th to construct, maintain and upgrade the space station overall.

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    Astronauts Akihiko Hoshide of the Japan Aerospace Exploration Agency and Thomas Pesquet of the European Space Agency got their orbital exercise in on Sunday. Their spacewalk — which began at 08:15 ET (13:15 BST) — was to help prepare the International Space Station (ISS) for a power boost in the form of new solar arrays. Pictured:  Mr Hoshide works to install a support bracket on the ISS's 'P4' truss structure, near the space station's living spaces

    Astronauts Akihiko Hoshide of the Japan Aerospace Exploration Agency and Thomas Pesquet of the European Space Agency got their orbital exercise in on Sunday. Their spacewalk — which began at 08:15 ET (13:15 BST) — was to help prepare the International Space Station (ISS) for a power boost in the form of new solar arrays. Pictured:  Mr Hoshide works to install a support bracket on the ISS’s ‘P4’ truss structure, near the space station’s living spaces

    The excursion was the sixth spacewalk for Mr Pesquet (pictured) of the European Space Agency — and the 244th to construct, maintain and upgrade the ISS overall

    Sunday's spacewalk was Akihiko Hoshide of the Japan Aerospace Exploration Agency's fourth

    The excursion represented Mr Pesquet’s sixth spacewalk and Mr Hoshide’s fourth — and the 244th to construct, maintain and upgrade the International Space Station (pictured) overall

    Alongside the installation of the support bracket, the astronauts also found the time for a'get ahead' task — replacing part of an airlock on the International Space Station (pictured)

    Alongside the installation of the support bracket, the astronauts also found the time for a ‘get ahead’ task — replacing part of an airlock on the International Space Station (pictured)

    HOW A SMOKE ALARM ON THE ISS CAUSED NASA TO DECLARE A ‘SPACE EMERGENCY’ 

    NASA also provided an update on Sunday regarding reports of a smoke alarm going off in the Russian Zvezda module on Wednesday last week.

    Investigation by Russian cosmonauts appears to have traced the issue to a malfunctioning piece of equipment which has since been turned off. 

    ‘Everything is returned back to normal, and they haven’t had any recurrence of any issues,’ NASA’s ISS Program deputy manager Dana Weigel said. 

    ‘So everything is stable and great onboard.’

    The solar arrays on the ISS have been supplying power to the station now for 20 years — no mean feat, given that they were only rated for 15 — and are beginning to show signs of degradation thanks to long-term exposure to the space environment.

    According to NASA’s ISS Program deputy manager, Dana Weigel, the solar arrays are eroded in part by thruster plumes, derived both from the station itself as well as from the crew and cargo vehicles that visit it on supply runs. 

    ‘The other factor that affects our solar arrays is micrometeorite debris. The arrays are made of a lot of small power strings, and over time those power strings can degrade if they’re hit by debris,’ she told CNN News. 

    According to NASA, the new solar arrays — which will be placed in front of the existing ones — will boost the station’s available power from 160 to 215 kilowatts. 

    ‘The exposed portion of the old arrays will still be generating power in parallel with the new arrays, but those new Iris arrays have solar cells on them that are more efficient than our original cells,’ said Ms Weigel.

    ‘They have a higher energy density and together in combination may generate more power than what our original array, when it was new, did on its own.’

    Like their existing counterparts, the new arrays have been built to last 15 years — yet there is a chance that they will similarly have a longer working life in practice.

    The upgrade will also provide a test of the design of the new array, which is also planned for use in the moon-orbiting Gateway station which NASA hopes to use as ‘a half-way house’  for humanity’s return to the moon in the coming years. 

    During their spacewalk, astronauts Akihiko Hoshide (JAXA) and Thomas Pesquet (ESA) installed a new support bracket on the outside of the orbiting laboratory, near the living spaces, on the inward port side of the'P4' truss structure (pictured, top right)

    During their spacewalk, astronauts Akihiko Hoshide (JAXA) and Thomas Pesquet (ESA) installed a new support bracket on the outside of the orbiting laboratory, near the living spaces, on the inward port side of the ‘P4’ truss structure (pictured, top right)

    According to NASA, the new solar arrays — which will be placed in front of the existing ones — will boost the station's available power from 160 to 215 kilowatts. Pictured: one of the new roll-out solar arrays which are being installed on the ISS

    According to NASA, the new solar arrays — which will be placed in front of the existing ones — will boost the station’s available power from 160 to 215 kilowatts. Pictured: one of the new roll-out solar arrays which are being installed on the ISS

    The bracket installed on Sunday's spacewalk will support the third of six new'roll-out' solar arrays (depicted in this artist's impression, overlapping the original arrays) — so-called because they are transported into orbit furled up like a stored carpet

    The bracket installed on Sunday’s spacewalk will support the third of six new ‘roll-out’ solar arrays (depicted in this artist’s impression, overlapping the original arrays) — so-called because they are transported into orbit furled up like a stored carpet

    Sunday’s spacewalk had originally been intended to take place on August 24 — and would have involved US  astronaut Mark Vande Hei instead of Mr Pesquet.

    However, NASA was forced to announce the postponement of the exercise the day before it was due to take place, citing a ‘minor medical issue’.

    Mr Vande Hei subsequently revealed on Twitter that had pinched a nerve in his neck. 

    ‘Thanks for everyone’s concern,’ he wrote.

    ‘The support from family, friends, and NASA leadership has been fantastic.’ 

    While he was ultimately unable to undertake the planned work himself — and is still recovering from his injury — Mr Vande Hei was able to provide support to his colleagues during the spacewalk from inside the space station. 

    EXPLAINED: THE $100 BILLION INTERNATIONAL SPACE STATION SITS 250 MILES ABOVE THE EARTH

    The International Space Station (ISS) is a $100 billion (£80 billion) science and engineering laboratory that orbits 250 miles (400 km) above Earth.

    It has been permanently staffed by rotating crews of astronauts and cosmonauts since November 2000. 

    Crews have come mainly from the US and Russia, but the Japanese space agency JAXA and European space agency ESA have also sent astronauts. 

    The International Space Station has been continuously occupied for more than 20 years and has been expended with multiple new modules added and upgrades to systems

    The International Space Station has been continuously occupied for more than 20 years and has been expended with multiple new modules added and upgrades to systems 

    Research conducted aboard the ISS often requires one or more of the unusual conditions present in low Earth orbit, such as low-gravity or oxygen.

    ISS studies have investigated human research, space medicine, life sciences, physical sciences, astronomy and meteorology.

    The US space agency, NASA, spends about $3 billion (£2.4 billion) a year on the space station program, with the remaining funding coming from international partners, including Europe, Russia and Japan.

    So far 244 individuals from 19 countries have visited the station, and among them eight private citizens who spent up to $50 million for their visit.

    There is an ongoing debate about the future of the station beyond 2025, when it is thought some of the original structure will reach ‘end of life’.

    Russia, a major partner in the station, plans to launch its own orbital platform around then, with Axiom Space, a private firm, planning to send its own modules for purely commercial use to the station at the same time. 

    NASA, ESA, JAXA and the Canadian Space Agency (CSA) are working together to build a space station in orbit around the moon, and Russia and China are working on a similar project, that would also include a base on the surface. 

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