By
Luke Dormehl
—
We might sometimes talk about eating crap on a night in, but that’s
nothing compared to the more literal crap future astronauts could well
find themselves chowing down on. That’s thanks to researchers at Penn
State University, who have been using a research grant from NASA
to develop technology for breaking down solid and liquid waste, and
transforming it into food that’s hygienic and safe for humans — albeit
something you probably won’t be serving at a dinner party anytime soon.
The resulting foodstuff is high in both protein and fat, and apparently
not dissimilar to savory British sandwich spread, Marmite.
“This is not the typical research direction for my laboratory, but among other things we do work with unusual microorganisms,” Christopher House,
professor of geosciences at Penn State, told Digital Trends. “In 2009,
NASA had a call for proposals for educational research projects that
advance the topic of space colonization. Lisa Steinberg, who is an
environmental engineer, and I proposed to that call the general concept
here of coupling anaerobic digestion to microbial growth of
non-pathogenic microbes.”
The proof-of-concept system the Penn State researchers built involves
sending human waste through a fixed-film, plug-through anaerobic
reactor which converts the organic matter into methane and carbon
dioxide. The reactor uses a plastic media with a high surface
area-to-volume ratio, and is typically used in aquariums and ponds to
treat ammonium from fish waste.
“In our reactor, this plastic media provided a surface for the
bacteria to attach so the waste material could flow through the reactor
and past these microbial biofilms, where the attached microbes would
remove organic matter and other nutrients,” Steinberg told Digital
Trends. “A special group of bacteria in the reactor, named methanogens,
produce methane which we used to grow methylococcus capsulatus, a
methane-consuming microbe. Using the gas from the anaerobic reactor
allowed us to prevent the transfer of potential pathogens or other
unwanted microbes into the reactor growing M. capsulatus.”
Sadly, the project is currently concluded and Steinberg says “there
is nothing else planned,” although she noted that it could be picked up
by another research team wanting to continue the work.
“Deep-space flight is really difficult with food production being one
of many tough to tackle issues,” House concluded. “I am most excited by
the concept that remarkable, and sometimes extreme, microorganisms
might help make deep space flight more practical. Naturally, this paper is only a small step, and I think that we have not necessarily found the optimal solution with respect to which microbes are used and how.”
https://www.digitaltrends.com/cool-tech/penn-state-astronaut-waste/
Snow shoveling heart attack warning
3 hours ago
No comments:
Post a Comment