OCTOBER 25, 2021
Jonathan Lun wants to make satellites mobile. – Elna Schultz
Mr. Lun and his Cape Town-based company, Hypernova Space Technologies, are keen to give these tumbling satellites a little bit more autonomy.
The firm has developed a thruster system that could give even the smallest types of satellites the capacity to move around.
The company is hopeful that their technology could be applied to nano satellites which are small satellites weighing under 10kg and, even applied to the tiniest of them all, the 10cm cubes known as cubesats.
There are an estimated 3,200 nano satellites floating around in orbit already, and that number is expected to grow rapidly in the near future: SpaceX alone is in the process of launching a constellation of around 42,000 satellites.
But experts are concerned that this explosion in numbers may lead to problems.
Without maneuverability – the capacity to change direction – nano satellites risk colliding with each other, causing space debris which might cause problems for other missions.
A SpaceX rocket lifts off in May carrying the company’s latest batch of nano satellites. – Getty Images
But as nano satellites are deliberately designed to be small and cheap, any new thruster technology needs to be simple to be commercially viable.
Around a decade ago, Mr Lun came across an interesting thruster technology that had previously been researched by Nasa but never fully pursued. He found that an electric reaction could be used to vaporize solid metal fuel, a process which then created a jet of fast-moving plasma that could propel a satellite along.
One big advantage to using solid fuels in this way would be that the material would be stable enough to add to a thruster-system prior to launch – removing the need for any last-minute fueling before sending satellites off into space.
“They don’t have to worry about filling it up, they don’t have to worry about [the material] being toxic, they don’t have to worry about it during launch, something breaking and leaking,” adds Stephen Tillemans, the head of engineering at Hypernova.
Mr. Tillemans confirms the company has successfully run several environmental tests, such as, running the thruster in a vacuum, in extreme temperatures, and with high vibration. Hypernova’s first mission in space will be in early 2022 with EnduroSat, a company based in Bulgaria.
Together, the companies are aiming to assess the performance of the thruster technology in space, including measuring its force and demonstrating that it can successfully change the orbit of a satellite.
An illustration of the Hypernova system on a nano satellite. – Endurosat
Hypernova is also collaborating with other players in the South African space industry, such as the Electrical and Electronic Engineering department at Stellenbosch University, which is currently developing a technology that would allow satellites to dock with each other.
The European Space Agency is developing its own plasma thruster. – ESA
He is even hopeful that using metal as a fuel will facilitate bigger opportunities for the industry as a whole because thrusters could potentially be powered using substances found in space – both substances mined in-situ, or collected from space debris, for instance.
“So, if we can now switch over from rare expensive liquids and gases as fuel sources, to move stuff around in space with cheap and abandoned iron ore or other metals, it changes the game completely.”
