Future Space Business produces technology to help tackle sustainability and climate change issues

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Future Space is part of UWE Bristol’s University Enterprise Zone. They aim to drive the University’s ambitions to prepare students with entrepreneurial skills, spark collaboration between UWE researchers, innovators and entrepreneurs and commercialise the latest research.

Professor Steve West, UWE Bristol Vice-Chancellor and President, said:

“This is the latest venture that sets us apart as a technology-based university focused on generating opportunities for business growth and collaboration.

There is no doubt in my mind that fostering an entrepreneurial atmosphere on our campus is a win for our students and our research community, as we know that by collaborating and nurturing business we create a climate of innovation that has a ripple effect.”

Future Space is part of one of four University Enterprise Zones in the UK. The West of England University Enterprise Zone provides facilities and services to companies specialising in robotics, biosciences, medical technologies and other high tech sectors. 

Albotherm is a member of Future Space and they are focusing on developing technology that provides a solution to address climate change.

Here’s their story:

Albotherm was founded by a team of scientists turned entrepreneurs in 2020 with a vision to bring our planet one step closer to carbon neutral and ensure future food security with their passive cooling technology.

Air conditioning alone currently accounts for 20% of electricity usage from buildings and this is expected to triple by 2050 due to rising global temperatures. Using fossil fuel derived energy for air conditioning traps us in a ‘Catch 22’ as we are further warming our planet, creating even more demand for cooling.

At Albotherm we are developing coatings based on novel polymer chemistry that reversibly transition from transparent to white, passively cooling the structure they coat by reflecting solar radiation in hot weather. We can control the trigger temperature this transition occurs at, between 18 ℃ and 45 ℃ to create optimal conditions in a range of climates. Our technology works without electrical input, cutting down carbon emissions associated with air conditioning and removing our reliance on fossil fuels.

Our first product is a glass coating aimed at the Greenhouse Horticulture market. Greenhouses are designed to extend our growing seasons by increasing growing temperatures during colder months, hence the term “The Greenhouse effect”, however they are consequently prone to overheating in the Summer months.

Currently, greenhouses are painted with chalk based white paints each summer. This is a labour intensive process and also means light levels are reduced even on cooler summer days. Unlike these solutions, our coatings only turn white to shade crops when they risk being damaged by heat. This protects crops while maximising light levels in cooler days, boosting yields in an industry that has historically struggled with razor thin margins.

In the future, we plan to develop products for commercial buildings to reduce carbon emissions associated with air conditioning. At the moment air conditioning accounts for 20% of electricity usage from buildings and 10% of total global electricity usage. By applying our technology to windows and roofs, we can significantly reduce energy usage from these buildings to protect against the impacts of climate change.

Furthermore, another key benefit of our technology is the ease with which it can be retro-fitted. More than half of current global building stock will remain standing in 2050. On top of that, two thirds of UK homes do not meet energy efficiency standards. Is it essential that we improve the sustainability of the buildings we currently have and retrofitting is the only way to do that. As our technology is applied as a coating, it can be easily sprayed onto existing and new buildings.

To get in touch with Albotherm please click here