British start-ups are developing graphene technology to enhance their ability to regulate satellite temperatures.
The universe is full of amazing extremes, and so is the temperature of the universe. Between the sun-facing side and the earth-facing side, satellites can experience temperature changes in excess of 400 ° C.
The effects of satellites getting too hot or cold can range from disruption of the applications we use every day to dramatic impacts on emergency services. Currently, thermal management options are not optimal. They are large, heavy, consume high power, and can rapidly reduce satellite reserves.
Today, the University of Manchester spin-out SmartIR is building a cost-effective solution. satellite You can control the heat radiation as needed.
The SmartIR team has developed a graphene-based smart coating for satellites that allows them to manage thermal energy in real time, depending on whether the surface of the satellite is in the shadow of the Earth or closest to the Sun. ..
This graphene technology is a much better solution because it is lightweight, consumes less power, responds quickly to temperature changes, operates over the entire infrared spectrum, and has no moving parts.
Funding for space technology
SmartIR is currently participating in the European Space Agency Business Incubation Center in the United Kingdom (ESA BIC UK) At the Daresbury Institute of the Science and Technology Facilities Council (STFC).
This will allow the company to take full advantage of the funding and support available in space and satellite technology to facilitate this commercial development.
ESA BIC UK is part of the world’s largest business incubation program for space technology start-ups. We have helped more than 100 companies reach their goal of developing innovative products and services for the increasingly competitive global market.
Commercial development of space
Professor Coskun Kobacas, Science Director and Co-Founder of SmartIR, explains:
“Applying graphene technology to the space industry is a great opportunity to take the capabilities of current thermal management systems to a new level while significantly reducing satellite power consumption and costs.
“Our current main focus is on testing and validating patented technologies to meet the requirements of the space industry. We are part of ESA BIC UK and take advantage of funding, space facilities, business support and valuable collaboration opportunities. What we can do is very important to us. “
Paul Vernon, Head of STFC’s Dare’s Berry Laboratory, said: It’s really exciting to see SmartIR incorporating graphene-based technology into satellite technology. “
“We are particularly pleased that the University of Manchester (Graphene-based) spinout will be able to join ESA BIC UK in Daresbury to provide the basic support needed to commercialize game-changing technology.
“The space industry is a priority for regional economic growth across the UK and we are thrilled to be able to support SmartIR in the development of such pioneering technologies. hoping.”
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