But
Contractor, a mechanical engineer with a background in 3D
printing, envisions a much more mundane—and ultimately more
important—use for the technology. He sees a day when every kitchen has a
3D printer, and the earth’s 12 billion people feed themselves
customized, nutritionally-appropriate meals synthesized one layer at a
time, from cartridges of powder and oils they buy at the corner grocery
store. Contractor’s vision would mean the end of food waste, because the
powder his system will use is shelf-stable for up to 30 years, so that
each cartridge, whether it contains sugars, complex carbohydrates,
protein or some other basic building block, would be fully exhausted
before being returned to the store.
Ubiquitous food synthesizers
would also create new ways of producing the basic calories on which we
all rely. Since a powder is a powder, the inputs could be anything that
contain the right organic molecules. We already know that eating meat is
environmentally unsustainable, so why not get all our protein from insects?
If eating something spat out by the same kind of 3D printers that are currently being used to make everything from jet engine parts to fine art
doesn’t sound too appetizing, that’s only because you can currently
afford the good stuff, says Contractor. That might not be the case once
the world’s population reaches its peak size, probably sometime near the end of this century.
“I
think, and many economists think, that current food systems can’t
supply 12 billion people sufficiently,” says Contractor. “So we
eventually have to change our perception of what we see as food.”
There will be pizza on Mars
The ultimate in molecular gastronomy. (Schematic of SMRC’s 3D printer for food.)SMRC
If
Contractor’s utopian-dystopian vision of the future of food ever comes
to pass, it will be an argument for why space research isn’t a complete
waste of money. His initial grant from NASA, under its Small Business
Innovation Research program, is for a system that can print food for
astronauts on very long space missions. For example, all the way to
Mars.
“Long distance space travel requires 15-plus years of shelf
life,” says Contractor. “The way we are working on it is, all the carbs,
proteins and macro and micro nutrients are in powder form. We take
moisture out, and in that form it will last maybe 30 years.”
Pizza
is an obvious candidate for 3D printing because it can be printed in
distinct layers, so it only requires the print head to extrude one
substance at a time. Contractor’s “pizza printer” is still at the
conceptual stage, and he will begin building it within two weeks. It
works by first “printing” a layer of dough, which is baked at the same
time it’s printed, by a heated plate at the bottom of the printer. Then
it lays down a tomato base, “which is also stored in a powdered form,
and then mixed with water and oil,” says Contractor.
Finally, the
pizza is topped with the delicious-sounding “protein layer,” which could
come from any source, including animals, milk or plants.
The prototype for Contractor’s pizza printer (captured in a video,
above) which helped him earn a grant from NASA, was a simple chocolate
printer. It’s not much to look at, nor is it the first of its kind, but at least it’s a proof of concept.
Replacing cookbooks with open-source recipes
SMRC’s prototype 3D food printer will be based on open-source hardware from the RepRap project.RepRap
Remember
grandma’s treasure box of recipes written in pencil on yellowing note
cards? In the future, we’ll all be able to trade recipes directly, as
software. Each recipe will be a set of instructions that tells the
printer which cartridge of powder to mix with which liquids, and at what
rate and how it should be sprayed, one layer at time.
This will
be possible because Contractor plans to keep the software portion of his
3D printer entirely open-source, so that anyone can look at its code,
take it apart, understand it, and tweak recipes to fit. It would of
course be possible for people to trade recipes even if this printer were
proprietary—imagine something like an app store, but for recipes—but
Contractor believes that by keeping his software open source, it will be
even more likely that people will find creative uses for his
hardware. His prototype 3D food printer also happens to be based on a
piece of open-source hardware, the second-generation RepRap 3D printer.
“One
of the major advantage of a 3D printer is that it provides personalized
nutrition,” says Contractor. “If you’re male, female, someone is
sick—they all have different dietary needs. If you can program your
needs into a 3D printer, it can print exactly the nutrients that person
requires.”
Replacing farms with sources of environmentally-appropriate calories
2032: Delicious Uncle Sam’s Meal Cubes are laser-sintered from granulated mealworms; part of this healthy breakfast.TNO Research
Contractor
is agnostic about the source of the food-based powders his system uses.
One vision of how 3D printing could make it possible to turn just about
any food-like starting material into an edible meal was outlined by TNO
Research, the think tank of TNO, a Dutch holding company that owns a
number of technology firms.
In TNO’s vision of a future of 3D printed meals, “alternative ingredients” for food include:
algae
duckweed
grass
lupine seeds
beet leafs
insects
From astronauts to emerging markets
While
Contractor and his team are initially focusing on applications for
long-distance space travel, his eventual goal is to turn his system for
3D printing food into a design that can be licensed to someone who wants
to turn it into a business. His company has been “quite successful in
doing that in the past,” and has created both a gadget that uses microwaves to evaluate the structural integrity of aircraft panels and a kind of metal screw that coats itself with protective sealant once it’s drilled into a sheet of metal.
Since
Contractor’s 3D food printer doesn’t even exist in prototype form, it’s
too early to address questions of cost or the healthiness (or not) of
the food it produces. But let’s hope the algae and cricket pizza turns
out to be tastier than it sounds.