Green plastics thanks to Artificial Intelligence
Text: Jorn Lelong
It is not just for the sake of our energy supply that we are still largely dependent on fossil fuels. The chemical industry almost exclusively uses fossil fuels as raw materials as well, for example in the production of plastics. That is why the Groningen start-up BioBTX wants to blast a new, green gust of fresh air through the chemical industry. The company is counting on artificial intelligence of the Data Science Team of the CIT to be able do this.
A half-opened garage door conceals a tangle of aluminium colored vats, switches and pipes. Except for one technician, the BioBTX workshop is unmanned. It is tucked away somewhat, right at the back of the Energy Academy on the Zernike campus in Groningen. Little suggests that five people are working here on a machine which could turn the entire chemical industry upside down. “What we want to do here is to start a revolution,” says Chief Technology Officer Niels Schenk.
Converting biomass into chemicals
BioBTX has developed a pilot plant for extracting chemicals from biomass. The Groningen start-up does this by breaking down glycerine, a waste product released during the production of biodiesel, into small fundamental building blocks, namely benzene, toluene and xylene – better known as BTX. These in turn form the basis for all kinds of aromatics, which are used for many chemical applications. Examples are amino acids, sweeteners or antidepressants, but also polymers (from which wind turbines or cars are made) and aramids (extremely strong fibers that are used in bulletproof vests, for instance).
Optimization with AI
At the moment, we are extracting almost all of these chemicals from fossil fuels, resulting in massive pollution and CO2emissions. By converting biomass into chemicals, BioBTX will be able to make a significant contribution towards making the chemical sector more sustainable.
But that’s not all. The company wants to accelerate that process using artificial intelligence. In a lab at the Faculty of Science & Engineering of the University of Groningen (RUG), researchers are using test tubes to simulate the operation of the larger BioBTX pilot plant. There they can experiment with different set-ups in order to determine the most efficient production process for BTX.
There are more than enough possibilities, because by combining different raw materials, catalysts and temperatures, you are easily able to perform 5 million different experiments. Add to this the fact that carrying out such an experiment takes half a day, and you will understand why such technology developments usually happen on the basis of a targeted selection of experiments.
Call for Proposals Data Science
Not so for BioBTX. Together with researchers from the Chemical Engineering department, the Groningen start-up approached the data science team of the CIT of the University of Groningen. Based on data from a small number of experiments carried out, data scientist Dimitrios Soudis developed an algorithm for predicting what would have been the outcome of the millions of experiments that were not carried out.
"From the huge database I chose a limited sample of conducted experiments, and I built a machine learning model to find out what would have come out of the other millions of experiments. For example, what if we had performed the same experiment with a different catalyst. Would we then get more or less BTX?"
So far that goes smoothly: the error margin of the algorithm approximates the observation error, the slight difference that you encouter when you perform the same experiment multiple times. "Now we have to see if that error margin remains as low as we apply it to the rest of the data. If that turns out, I will jump through the roof with happiness," laughs Soudis.
Interesting connections
According to project leader Erik Heeres from the Faculty of Chemical Engineering, the contribution of data science ‘makes a huge difference’. “We have discovered interesting links between the type of catalyst or reactor temperature and the amount of BTX produced. That way we occasionally enter domains that I hadn’t thought of myself.”
By unleashing artificial intelligence on the data, you can simulate the real world and discover patterns in it that would otherwise slip by unnoticed. But it also offers additional advantages. “By using AI you are also able to make very accurate predictions,” says Niels Schenk. “Instead of drawing up an experimental plan, they are now coming up with their own suggestions based on their algorithm. Then they say, for example: if you have this raw material, it is best to work with this type of catalyst, or with a higher temperature. So you come up with information that you would otherwise have had to do millions of experiments for. In the long term, this gives an enormous amount of added value.”
Chemicals from waste plastic
The application of AI by the data science team ensures that uses glycerine in the BTX production process is considerably more efficient. But BioBTX doesn’t want to stop there. This summer, the company from Groningen also wants to recycle chemicals from waste plastics.
This involves laminated or mixed plastics, which are now mostly burned, dumped in the sea or exported to third world countries. By processing these plastics into chemicals, BioBTX wants to redefine the concept of ‘waste’, says Schenk. “In our view, waste plastics should become so valuable that they can no longer be simply thrown away.”
Make the difference
In the meantime, Dimitrios Soudis is already busy imitating the recycling of waste plastics through machine learning. "That is the idea behind data science: you imitate the real world, and you make suggestions. Doing physical tests is expensibe, especially for a start-up. But if you perform a few and you give us the data, we can imitate the rest. Once the model has been set up, it will take us literally a few seconds to perform 5 million experiments. That is where we can make the difference.".
Last modified: | 04 October 2024 12.16 p.m. |
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