Scientists make food from thin air & electricity
Protein Reactors Produce
Basic Food From Carbon Dioxide
Food has been created from
carbon dioxide and electricity, according to a team of scientists. The meal of
single-cell protein may not revolutionise cuisine but it could open a way for a
new type of food in the future.
The Food From Electricity
study, funded by the Academy of Finland, was set up with no less an aim than to
alleviate the world hunger.
Using carbon dioxide taken
from the air, researchers from the VTT Technical Research Centre of Finland and
Lappeenranta University of Technology (LUT) succeeded in creating a protein
powder, which could be used to feed people or animals. The “protein reactor“
can be used anywhere with access to electricity. If it was used as an
alternative animal feed, this would allow land to be used for other purposes
such as forestry or more crops for human consumption. Although the technology
is in its infancy , researchers hope the “prote in reactor“ could become a
household item.
Juha-Pekka Pitkanen, a
scientist at VTT, said: “In practice, all the raw materials are available from
the air. In the future, the technology can be transported to, for instance,
deserts and other areas facing famine. One possible alternative is a home
reactor, a type of domestic appliance that the consumer can use to produce the
needed protein.“
According to the
researchers, the process of creating food from electricity can be nearly 10
times as energy efficient as photosynthesis, the process used by plants.
Pitkanen said the powder was a healthy source of protein. “In the long term,
protein created with electricity is meant to be used in cooking and products as
it is. The mixture is very nutritious, with more than 50% protein and 25%
carbohydrates. The rest is fats and nucleic acids. The consistency of the final
product can be modified by changing the organisms used in the production,“ he
said.
The scientists also
stressed that the reactor could produce food with no environmental impact if
the electricity used is derived from renewable sources. Professor Jero Ahola of
the LUT said only fertiliserlike nutrients were used in the process which
avoided “any environmental impacts, such as run-offs into water systems or the
formation of powerful greenhouse gases.“
But before cattle or humans
can be fed with the protein, the technology needs to be made much more
efficient.Currently , the coffee-machine size reactor takes about two weeks to
produce only one gram of protein powder.
The next stage for
researchers is to produce sufficient quantities for testing as an animal feed
and in food products.“The idea is to develop the concept into a mass product,
with a price that drops as technology becomes more common.The schedule for
commercialisation depends on the economy ,“ Ahola said.
|
Chloe
Farand
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THE INDEPENDENT
TOI 2AUGA7
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