Welcome back to Concrete Corner! This the second blog post of the two part series on CO2 supply written by Diane Praught, CarbonCure’s Director of Technical Services. Be sure to check out part one, too!
A very common question CarbonCure team members encounter is: “Why is it important to have high purity merchant CO2? Can’t we just use any old CO2?”
The short answer: We could technically use lower purity sources for CarbonCure, however, right now, the same CO2 that goes into concrete, also goes into your food!
For some context: The merchant CO2 market primarily supplies the food and beverage industry.
Any time you open a can of soda or pick up a bag of frozen peas at the grocery store, there’s a high likelihood that merchant, high purity, captured CO2 has been used somewhere in its manufacturing process. “Food grade” merchant CO2 can be used to carbonate the beverages we love or to quickly freeze food products for transport and storage.
Merchant CO2 is also heavily regulated due to its use in the products we consume, and in order to maintain their certification as a source of food-grade CO2, capture plants are required to submit regular test reports showing the purity of their end product.
While this level of purity and regulation is critical for the food and beverage industry, it is not necessarily required in concrete. However, since this high-purity CO2 is the source that is readily available—it is what CarbonCure customers currently use.
“Why does this CO2 come from ethanol plants and refineries instead of cement plants?”
Industrial gas supply companies are on the hunt for the “closest to pure” and highest production sources CO2 they can get. In this context, “closest to pure source” means that the waste CO2 emitted from the plant effluent is primarily made up of CO2 molecules, as it lacks other trace elements (or has a very low concentration of them).
Effluent streams that contain a lot of impurities, or components that are not CO2, are more difficult to process and purify. Therefore the purification process would require more energy, increasing the length and cost of the process, which is currently less desirable to companies in this competitive landscape.
Unfortunately, effluent streams from cement plants is not considered a high purity-high concentration source of CO2 when compared to many other available options. As a result, cement plants aren’t generally on the radar for the larger industrial gas suppliers as a capture option—because at the end of the day, they need to choose a supply option that makes business sense to support their largest industry—food processing.
Interestingly, the majority of industries that will use these waste sources of merchant CO2 will not be putting the product to beneficial reuse. When a can of soda is opened, the CO2 that was used to carbonate will escape—when the peas thaw, the CO2 used to freeze them will be released back into the atmosphere. Although merchant CO2 is a safe, cost effective and an important part of our food and beverage supply chain, it lacks a net positive environmental impact.
CarbonCure provides customers an opportunity to have a net positive environmental impact that these other industries lack. The waste CO2 recovered from ethanol and fertilizer plants can now be permanently trapped in concrete as a mineral—making a lasting environmental impact that concrete producers can feel proud of.
A reduced carbon future for the cement and concrete industry?
There is a strong and growing demand from the construction industry to source CO2 from cement plants. To address this need, CarbonCure and its partners have been working together on reliable, cost effective, and efficient CO2 capture from cement plants—with the goal of closing the carbon loop to elevate the environmental image of the cement and concrete industry. With the growing global trend of beneficial re-use of waste CO2, new uses for industrial grade CO2 are entering the commercial market every day— opening up exciting business opportunities for CO2 captured from cement plants.
Learn more about CarbonCure’s efforts in integrated cement plant CO2 capture.
Until next time,
Director of Technical Services
LinkedIn | Twitter
For more information on CO2 for CarbonCure Technologies applications, or for requesting topics for future posts, please contact Diane at email@example.com.