Lifestyle Environment 06 May 2019 Air conditioning sys ...

Air conditioning system to produce synthetic fuel

ANI
Published May 6, 2019, 9:13 am IST
Updated May 6, 2019, 9:13 am IST
Synthetic fuel can be produced from air-conditioning systems: Study.
The conversion of CO2 would require large amounts of electrical power to produce hydrogen or synthesis gas. (Photo: Representational/Pixabay)
 The conversion of CO2 would require large amounts of electrical power to produce hydrogen or synthesis gas. (Photo: Representational/Pixabay)

Washington: Researchers have proposed an innovative method that enables air conditioning and ventilation systems to produce synthetic fuels, crowd oil, from carbon dioxide (CO2) and water from the ambient air.

According to the study published in Nature Communications compact plants are to separate CO2 from the ambient air directly in buildings and produce synthetic hydrocarbons which can then be used as renewable synthetic oil.

 

To prevent the disastrous effects of global climate change, human-made greenhouse gas emissions must be reduced to "zero" over the next three decades. The necessary transformation poses a huge challenge to the global community: entire sectors such as power generation, mobility, or building management must be redesigned.

In a future climate-friendly energy system, synthetic energy sources could represent an essential building block: "If we use renewable wind and solar power as well as carbon dioxide directly from the ambient air to produce fuels, large amounts of greenhouse gas emissions can be avoided," said Roland Dittmeyer, one of the researchers.

Due to the low CO2 concentration in the ambient air large quantities of the air have to be treated in large filter systems in order to produce significant quantities of synthetic energy sources.

A research team led by Dittmeyer and Geoffrey Ozin, one of the researchers, proposes to decentralise the production of synthetic energy sources in the future and to link them to existing ventilation and air conditioning systems in buildings.

According to Dittmeyer, the necessary technologies are essentially available, and the thermal and material integration of the individual process stages is expected to enable a high level of carbon utilisation and high energy efficiency.

"We want to use the synergies between ventilation and air-conditioning technology on the one hand and energy and heating technology on the other to reduce the costs and energy losses in synthesis. In addition, 'crowd oil' could mobilise many new actors for the energy transition. Private photovoltaic systems have shown how well this can work," said Dittmeyer.

"However, the conversion of CO2 would require large amounts of electrical power to produce hydrogen or synthesis gas. This electricity must be CO2-free, i.e. it must not come from fossil sources," added Dittmeyer.

"An accelerated expansion of renewable power generation, including through building-integrated photovoltaics, is, therefore, necessary," explained Dittmeyer.

The scientists' quantitative analyses of office buildings, supermarkets and energy-saving houses to demonstrate the CO2 saving potential of their vision of decentralised conversion plants coupled to building infrastructure. They reckon that a significant proportion of the fossil fuels used for mobility in Germany could be replaced by 'crowd oil'.

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