At the end of a long day of work, many people like to grab a cold pint of beer. Few of them think about the bubbles in the glass and how much brewers have to pay to put them there. But Robert Zubrin β president of the Mars Society and founder of multiple aerospace technology companies β does.
Zubrin and his companies have worked with Johnson Space Centerβs In Situ Resource Utilization (ISRU) team for years, developing technologies that could take existing substances on Mars β especially Martian air, which is 96 percent carbon dioxide (CO2) β and turn them into fuel, oxygen, drinkable water and other crucial resources.
The systems also have a range of applications on Earth, including an oil and natural-gas recovery technology Zubrin has developed and commercialized.
But when heβs not working to change this world or colonize others, Zubrin also enjoys a good microbrew. Now, heβs found a way to use space technology to recycle fermentation-created CO2 to help cut costs for brewers.
Air on Mars, Bubbles on Earth
βWhen you ferment beer, the process that produces alcohol also produces carbon dioxide,β explains Zubrin, noting that CO2 is also necessary later, to carbonate the beverage. Major breweries have multi-million dollar systems that capture and purify the CO2 produced during fermentation so it can be used later for carbonation and other functions, such as purging tanks.
These expensive systems, however, arenβt economical for the vast majority of craft breweries proliferating in the United States. Instead of capturing, processing, and storing CO2, small brewers instead let the gas dissipate into the air during fermentation, only to have more of it trucked in from supply companies later on, paying an average of $200 to $300 per ton.
Enter Lakewood, Colorado-based Pioneer Energy, with its CO2 Craft Brewery Recovery System, developed from technologies created to harvest, liquefy and store the gas on Mars. The mobile cart gives small brewers capabilities similar to those enjoyed by their large-scale competitors.
βOur system produces about five tons of carbon dioxide per month,β says Zubrin, adding that this amount could supply a brewery that makes up to 60,000 barrels of beer per year. For those making more, the units can be stacked to increase capacity.
Automated Success
A typical proposal for a mission to the Red Planet includes plans to send the return vehicle two years in advance of the crew, during which time the vehicle would autonomously produce resources both for the mission and the journey home. Any system for mixing and matching molecules on Mars, therefore, would also have to be fully automated using techniques like those Zubrin has worked out during his years of ISRU work.
Similarly, the CO2 Craft Brewery Recovery System can only save money if it doesnβt require an employeeβs attention, Zubrin says. βOn a smaller scale, this thingβs got to be totally automated, too. The robotic control you would need for a system on Mars is key to this.β
By mid-2015, the company had received more than a dozen orders for the system, which went into production late last year. Pioneer also has a unit that it brings around the country for demonstrations. Zubrin says the market potential is considerable: βWithin the United States, there are several thousand breweries that would be targets for this, and probably 20,000 worldwide.β
He credits his NASA work as the foundation for the project, which he hopes will save breweries around the world money and greenhouse gas emissions.
βThe intellectual capital being developed in NASAβs research and development programs is playing out across the economy, and this is just a small example,β Zubrin says. βThe intellectual capital is the big spinoff.β
To learn more about this NASA spinoff, read the original article from Spinoff 2016.
For more information on how NASA is bringing its technology down to Earth, visit: http://technology.nasa.gov.
