╌>

This Bacteria Can Turn CO2 Into Biodegradable Plastic

  
Via:  al Jizzerror  •  last year  •  4 comments

By:   Maddie Bender (The Daily Beast)

This Bacteria Can Turn CO2 Into Biodegradable Plastic
A new spin on carbon capture that meets many needs at once.

Sponsored by group SiNNERs and ButtHeads

SiNNERs and ButtHeads


S E E D E D   C O N T E N T



ENERGIZING

A new spin on carbon capture that meets many needs at once.

Maddie Bender


Innovation Reporter

Published Mar. 27, 2023 3:21PM ET

Marcin Jozwiak via Unsplash


Last week's report from the United Nations' Intergovernmental Panel on Climate Change contained a dire warning: Radical action is needed to cut worldwide carbon emissions 60 percent by 2035 and avert the worst effects of a climate disaster. The report raised the stakes in the ongoing race to decarbonize the world's industries, with technologies that can produce energy without releasing carbon dioxide or that can directly remove carbon dioxide from the atmosphere.

It's clear that a solution to the climate crisis will necessitate combining existing strategies with future ones, including wind and solar energy production with carbon capture techniques. New research from chemical engineers at the Korea Advanced Institute of Science and Technology may result in us adding another tool to our decarbonization arsenal: a microscopic bacterium named Cupriavidus necator that can turn CO2 gas into a biodegradable plastic.

Their work, published on March 27 in the Proceedings of the National Academy of Sciences, shows that with the right setup and ingredients, C. necator can continuously produce a bioplastic from CO2 in the air. If the method is able to be scaled up, such a system could be a two-in-one solution, converting excess CO2 into a biodegradable plastic that obviates the need for energy-inefficiant plastic production.

Over a decade ago, scientists realized that C. necator can ferment a range of carbon sources to produce poly-3-hydroxybutyrate (PHB), a polyester that is biodegradable and compatible with living organisms. But for years, bacterial PHB production could only be batched, since electricity needed at the start of the process and an accumulation of toxic byproducts would kill the bacteria. These factors limited researchers' ability to scale up C. necator fermentation outside the laboratory.

In the new study, the scientists figured out a workaround. They added a synthetic membrane to their setup that separated the bacteria from the toxic byproducts. On one side of their system, a chemical reaction prepared CO2 gas for fermentation, and the membrane let the ingredients flow to the other side where C. necator transformed them into granules of PHB.

Best of all, the process could operate continuously and independently, with researchers removing PHB-filled bacteria and adding an equal amount of fresh microbes once a day. As a proof of concept, the scientists ran the system continuously for 18 days, finding that it could produce 11.5 mg of PHB every hour—more than 16 times the output of existing systems.

The PHB production process still requires electricity at the beginning to convert the CO2 gas into a product that the bacteria can ferment, but even this step was made more energy efficient. The researchers calculated that the cost for converting carbon dioxide with renewable energy would be 34 cents cheaper per kilogram than purchasing the ingredients.

The researchers wrote in their study that these advances open the door for scaling up bacterial PHB production, something that had not been possible previously. The PHB can be used to replace plastic ubiquity in our world, from food packaging to surgical devices. Taking the IPCC report to heart and overhauling our energy systems sounds radical, and it is. We'll need all the help we can get—and the tiniest microbes might be able to lend us a hand.


Tags

jrGroupDiscuss - desc
[]
 
al Jizzerror
Masters Expert
1  seeder  al Jizzerror    last year

Microbes may help us with climate change.

512

 
 
 
Buzz of the Orient
Professor Expert
2  Buzz of the Orient    last year

Good news, if it is taken seriously.  Between photosynthesis and this new method, it could stall the doomsday clock for a little while.  

 
 
 
TᵢG
Professor Principal
3  TᵢG    last year

Another avenue for good bacteria?   Another way to use the latent powers of nature.  Seems like a win-win if we can make it work.   

 
 
 
al Jizzerror
Masters Expert
3.1  seeder  al Jizzerror  replied to  TᵢG @3    last year
the latent powers of nature

Lots of interesting experiments are going on in some of the most unlikely venues.

512

 
 

Who is online



GregTx


447 visitors