-
Not Synced
So can I get a show of hands
how many of you in this room
-
Not Synced
have been on a plane
in this past year?
-
Not Synced
That's pretty good.
-
Not Synced
Well, it turns out that
you share that experience
-
Not Synced
with more than 3 billion people
every year.
-
Not Synced
And when we put so many
people in these metal tubes
-
Not Synced
that fly all over the world,
-
Not Synced
sometimes, things like this
can happen
-
Not Synced
and you get a disease epidemic.
-
Not Synced
I first actually got into this topic
-
Not Synced
when I heard about
the Ebola outbreak last year.
-
Not Synced
And it turns out that although Ebola
spreads through
-
Not Synced
these more range-limited,
more tropical routes,
-
Not Synced
There's all these other sorts
of diseases
-
Not Synced
that can be spread through
the airplane cabin.
-
Not Synced
The worst part is
-
Not Synced
when we take a look at some
of the numbers,
-
Not Synced
it's pretty scary.
-
Not Synced
So with H1N1,
-
Not Synced
there was this guy who decided
to go on the plane
-
Not Synced
and in the matter of a single flight,
-
Not Synced
actually spread the disease
to 17 other people.
-
Not Synced
And then there was
this other guy with SARS
-
Not Synced
who managed to go
on a 3-hour flight
-
Not Synced
and spread the disease
to 22 other people.
-
Not Synced
That's not exactly my idea
of a great super power.
-
Not Synced
When we take a look at this,
what we also find is that
-
Not Synced
it's very difficult to
pre-screen for these diseases.
-
Not Synced
So, when someone actually
goes on a plane,
-
Not Synced
they could be sick
-
Not Synced
and they could be in this latency period
-
Not Synced
in which they could actually
have the disease.
-
Not Synced
And they could, in turn,
spread the disease
-
Not Synced
to so many other people
in the cabin.
-
Not Synced
And how that actually works is that
right now
-
Not Synced
we have air coming in from
the top of the cabin
-
Not Synced
and from the side of the cabin
as you can see in the blue.
-
Not Synced
And then also, that air goes out
throught hese very efficient filters
-
Not Synced
that eliminate 99.97 percent
of pathogens near the outlets.
-
Not Synced
And what happens right now,
though,
-
Not Synced
is that we have this
mixing air-flow pattern.
-
Not Synced
So if someone were to actually sneeze,
-
Not Synced
that air would get swirled
around multiple times
-
Not Synced
before it even has a chance
to go out through the filter.
-
Not Synced
So I thought, clearly,
this is a pretty serious problem.
-
Not Synced
I didn't have the money
to go out and buy a plane,
-
Not Synced
so I decided to build
a computer instead.
-
Not Synced
It actually turns out that with
Computational Fluid Dynamics,
-
Not Synced
what we're able to do is create
these simulations
-
Not Synced
that give us higher resulutions
-
Not Synced
than actually physically going in
and taking readings in the plane.
-
Not Synced
And how, essentially, this works
is
-
Not Synced
you would start out with
these 2D drawings --
-
Not Synced
these are floating around
in technical papers around the Internet.
-
Not Synced
I take that and I put it into
these 3D-modeling software,
-
Not Synced
really building that 3D model.
-
Not Synced
And then I divide that model
that I just built into these tiny pieces.
-
Not Synced
And then I tell the computer where
the air goes in and out of the cabin,
-
Not Synced
throw in a bunch of physics,
-
Not Synced
and basically sit there and wait until
the computer calculates the simulation.
-
Not Synced
So what we get with the conventional cabin
is this:
-
Not Synced
you'll notice the middle person sneezing,
-
Not Synced
and we go "Splat!",
right into people's faces.
-
Not Synced
It's pretty disgusting.
-
Not Synced
And from the front, you'll notice
those two passengers
-
Not Synced
sitting next to the central passenger,
-
Not Synced
not exactly having a great time.
-
Not Synced
And when we take a look
at that from the side,
-
Not Synced
you'll also notice those pathogens
-
Not Synced
spreading across the lenth of the cabin.
-
Not Synced
The first thing that I thought was,
"This is no good."
-
Not Synced
So I actually conducted
more than 32 different simulations
-
Not Synced
and ultimately, I came up
with this solution right here.
-
Not Synced
This is what I call a
patent-pending Global Inlet Director.
-
Not Synced
With this, we're able to reduce
pathogen transmission
-
Not Synced
by about 55 times
-
Not Synced
and increase fresh air- inhalation
by about 190 percent.
-
Not Synced
So how this actually works is
-
Not Synced
we would install this piece
of composite material
-
Not Synced
into these existing spots
that are already in the plane.
-
Not Synced
So it's very cost-effective
to install
-
Not Synced
and we can do this directly overnight.
-
Not Synced
All we have to do is put
a couple of screws in there
-
Not Synced
and you're good to go.
-
Not Synced
And the results that we get
are absolutely amazing.
-
Not Synced
Instead of having those problematic
swirling air patterns,
-
Not Synced
what we have is we can create
these walls of air
-
Not Synced
that come down in between
the passengers
-
Not Synced
to create these
personalized breathing zones.
-
Not Synced
So you'll notice that if the
middle passenger here
-
Not Synced
is sneezing again,
-
Not Synced
but this time, we're able to
effectively push that down
-
Not Synced
to the filters for elimination.
-
Not Synced
And the same thing form the side,
-
Not Synced
we're able to directly
push those pathogens down.
-
Not Synced
So if you take a look again now
at the same scenario
-
Not Synced
but with this innovation installed,
-
Not Synced
you'll notice the middle passenger
sneezes,
-
Not Synced
and this time, we're pushing
that straight down into the outlet
-
Not Synced
before it gets a chance
to infect any other people.
-
Not Synced
So you notice the two passengers
sitting next to the middle guy
-
Not Synced
are breathing virtually
no pathogens at all.
-
Not Synced
Take a look at that
from the side as well,
-
Not Synced
it's a very efficient system.
-
Not Synced
And in short, with this system,
we win.
-
Not Synced
When we take a look
at what this means,
-
Not Synced
what we also see is that
this not only works
-
Not Synced
if the middle passenger sneezes,
-
Not Synced
but also if the window seat
passenger sneezes
-
Not Synced
or if the aisle seat
passenger sneezes.
-
Not Synced
And so with this solution, what does
this mean for the world?
-
Not Synced
When we take a look
at this from the computer simulation
-
Not Synced
into real life,
-
Not Synced
we can see from with this
3D model that I built over here
-
Not Synced
essentially using 3D printing,
-
Not Synced
we can see those same air flow patterns
coming down right to the passengers.
-
Not Synced
In the past, the SARS epidemic
actually cost the world
-
Not Synced
about 40 billion dollars,
-
Not Synced
and in the future, a big disease
outbreak could actually
-
Not Synced
cost the world an excess
of 3 trillion dollars.
-
Not Synced
So before, it used to be that
you had to take an airplane
-
Not Synced
out of service for one-to-two months,
-
Not Synced
spend tens fo thousands
of man hours,
-
Not Synced
and several million dollars
to try to change something.
-
Not Synced
But now, we're able to install
something, essentially overnight,
-
Not Synced
and see results right away.
-
Not Synced
So it's really now a matter of taking
this through to cetification,
-
Not Synced
flight testing, and going through
all of these regulatory app
closed TED
