If We Built It Today (2019–…): Season 2, Episode 4 - Resurrecting the Titanic - full transcript
NARRATOR: The Titanic, the
most famous ocean liner in history.
The story is so unbelievably jaw dropping.
She pushed the boundaries
more than anybody else.
NARRATOR: Titanic was
built to be the biggest, fanciest,
and fastest ocean liner ever.
We were so proud of our progress
and all of a sudden we have
this wake up call that, you know,
things can go wrong.
Unfortunately, we lost over 1,500 people.
It's something that you would think
would only be in the
world of fiction and fantasy,
but it's actually historically true.
NARRATOR: What if we
could build a new Titanic?
Could 21st century engineers
use the latest materials
and technology to make the
fastest, safest transatlantic
ocean liner ever?
It would be a very, very
expensive vehicle to build.
With the technology that we have here,
it's absolutely possible.
NARRATOR: What will it take
to make the Titanic 2.0 happen?
I am confident we can pull this off.
It's not going to be an easy one.
NARRATOR: Now we're
wondering how long would it take?
How much would it cost?
How many workers would we need?
Could we even do it?
"If We Built It Today."
[music playing]
NARRATOR: This is history's deadliest race
course the North Atlantic
route between Europe
and North America.
At the turn of the century, the main mode
of transport across the Atlantic was
the transatlantic ocean liner.
NARRATOR: The route had settled
between Liverpool and New York.
They were pushing the
speed envelope at the time
to make the boats quicker.
Just taking an hour or two off and arriving
a little better in New York really makes
a big difference to people.
NARRATOR: Technology and fierce competition
drove innovation, making
the crossing faster and safer.
Well, the Titanic was a race to be
the premier ship on the water.
Every citizen in the world
was waiting for Titanic to set
sail on her maiden voyage.
NARRATOR: Everyone
knows what happened next.
It's a part of our global shared history.
Even the word Titanic is
known in every language.
It means disaster of epic proportion.
BLAIR BEED: Titanic is the disaster.
I mean story is probably one
of the most popular stories of
history from the 20th century.
NARRATOR: And today,
over 100,000 people a year
travel here to Pigeon Forge, Tennessee
to visit the Titanic Museum,
owned and operated
by Mary Kellogg-Joslyn.
Well, Titanic was found in 1985.
And in 1987, a second
expedition was put together,
and that expedition was led
by my husband John Joslyn.
They did retrieve over 1,800 artifacts.
He made a decision to
build permanent museums.
He was able to show all
these artifacts for the first time.
NARRATOR: Decades later
those artifacts continue to captivate
the public as the last vestiges of the most
famous shipwreck in history.
But before Titanic was a
legendary disaster story
this massive luxury liner was the pinnacle
of seagoing technology.
MARY KELLOGG-JOSLYN:
She pushed the boundaries
more than anybody else.
And at the time, people
were like mesmerized
how big she was.
And that really would amaze passengers
to see this enormous ship.
NARRATOR: At over 880 feet, it was as
long as three football fields.
Turn it upright, it was
almost 200 feet longer
than the MetLife Tower in
New York City, the world's
tallest building at the time.
At near 58,000, tons Titanic was twice as
heavy as the Statue of
Liberty and five times heavier
than the Eiffel Tower.
It was the largest moving
structure of all time.
But what if we wanted to
build a new Titanic today?
I don't think you could
ever build Titanic again.
Unfortunately, I have
to believe that that era
has very much come to an end.
It would be a very, very
expensive vehicle to build,
and that's assuming that the
technology is there to actually
build what you need to build.
NARRATOR: To design a new Titanic,
we'll need to call in the experts.
ROBERT CLIFFORD: Shipbuilding has always
been one of moving on to
lighter, better ships, faster
ships, bigger ships, and the Titanic
started that ball rolling.
NARRATOR: Bob Clifford is the chairman
of a massive Australian
shipbuilding operation.
He's dedicated his life to building
boats that are big and fast.
ROBERT CLIFFORD: There's definitely
an argument for fast boats.
When you're competing against
aircraft you have to be fast.
NARRATOR: But just what kind of speeds
can modern oceangoing vessels reach?
Welcome to the world of
offshore powerboat racing.
With a sleek twin hull
design, these speed machines
fly above the waterline at
top speeds over 3 times faster
than the average highway speed limit.
They're fast enough to cross
the Atlantic in just eight hours.
But offshore power boats can only carry
enough fuel for a 60 mile race.
So what's a more realistic time
frame for our passenger ship
to cross the Atlantic?
It would be very nice to be able to cross
the Atlantic in two days.
NARRATOR: Titanic's maiden voyage
was supposed to take six
days to travel over 3,000 miles.
Well, if we wanted to do
the journey in two days,
we'd have to do about 54 knots.
Now, that's an aiming point.
NARRATOR: 54 knots on water
is about the same as the speed
limit on most of the world's highways.
If we can reach that speed,
we could shatter existing
transatlantic crossing records.
With the technology that
we have here with the vessels
that we're building,
it's absolutely possible.
NARRATOR: But Naval architect Tony
Thompson's not so confident.
A transatlantic vessel
making a trip in two days...
It might be a great competition...
But I'm not so sure that it
could be commercially viable.
NARRATOR: To up the appeal
we'll need luxury features to rival
the original Titanic's.
You had a swimming
pool, you had a gymnasium.
It was a beautiful ship, and
it had luxuries that people
had never seen before.
NARRATOR: Of course,
the latest safety features
will put passengers at ease
and avert any potential disasters.
BLAIR BEED: They head out to
sea and head to the open ocean.
And life on board the
ship is what is expected.
And all of a sudden iceberg ahead.
37 seconds later they hit that iceberg.
And two hours and 40
minutes later she was gone.
NARRATOR: Can we rewrite
history and rebuild the most
famous boat of all time?
We're imagining building
a brand new Titanic.
A record breaking ocean liner to cross
the Atlantic fast and in style.
But the original model
was also born of necessity.
ROBERT CLIFFORD: Well, that
era, of course, it was the only way
of getting across the Atlantic.
And of course, there was a
great deal of competition to have
the fastest, biggest ships.
TONY THOMPSON: A number
of countries, in fact, we're using
it to support their
shipbuilding industries,
which were big industries in those days,
and just the National pride
of having the fastest vehicle
that can cross the Atlantic.
JEREMY DUCHOW: When it came to the ships,
you really had Cunard, White
Star, and also the French lines
and the two German lines,
which are all competing
in this booming market.
NARRATOR: It was the White Star Line
that commissioned the Titanic
as part of their Olympic Class.
MARY KELLOGG-JOSLYN: The White Star Line
decided that they were going to be the most
beautiful and luxurious ship.
BLAIR BEED: They really
were going for the luxury angle.
Boy, you were going to
really enjoy your travel on it.
NARRATOR: The White Star Line understood
the science of psychology.
Time flies when you're having fun, a trick
that's still in use today.
The cruise ship industry is
worth over $55 billion a year.
Always striving to provide their passengers
with the latest amenities.
You want to keep people entertained
during their crossing, so
you've got to think of things
that will entertain them.
Will there be cinema rooms?
Will there be quiet spaces?
Will there be gaming areas, beauty salons?
You've got to think creatively
how you can entertain
people on such a long crossing.
NARRATOR: Over 100
years after the Titanic sank,
passengers still crave the latest
and greatest activities to keep them
entertained on a long voyage.
But for builders the main challenge
has always been to cross
the Atlantic as fast as possible.
And that's a dream that
didn't go down with the Titanic.
It was always about speed.
And it continued through
the 1920s and the 1930s.
Every increase in speed was a shorter time
on the ocean, which was especially
good for the business class
that was traveling in these liners.
NARRATOR: And the race rages on today.
The current record is two days and 20 hours
set by a transatlantic ferry
named Cat-Link V. Built here
at Incat Shipbuilding
the company Bob Clifford
founded over 50 years ago.
We're very proud to be a
shipbuilders to the world.
Not just any old
shipbuilding, we build the best.
NARRATOR: But if we could
cross the Atlantic in under two days,
we'd smash the current
record by over 20 hours.
So let's do it.
Let's build a 21st century ocean liner
that's elegant, safe, and fast enough
to cross the Atlantic in just 48 hours.
To design it we need to
stitch together centuries
of shipbuilding styles.
So you're talking about a whole new design
of vessel that can do it.
NARRATOR: We need the perfect materials.
Finding them will be an
all hands on deck endeavor
to make a Titanic sized
ship fly across the ocean.
Obviously, light weight is
very important, without making
the ship light, we can't
achieve the sort of speeds
that we need.
NARRATOR: You better believe
we've got a need for speed.
So this turbine is exactly the
same as you see on aircrafts.
NARRATOR: But it's also got
to be fully loaded with amenities.
This will be the fanciest boat
on the water in over a century.
KIM CLIFFORD: Even though
they're on a high speed craft
there is no reason that they can't
enjoy the normal things that they
would enjoy on a cruise ship.
NARRATOR: So we won't sacrifice comfort,
but we can't sacrifice safety either.
We lost over 1,500 people.
NARRATOR: And we've got
to figure out what size workforce
we'll need, how long it will take,
and how much the
whole thing's going to cost.
But first, we've got to figure out
what it's going to look like.
Well, if you want to get a
look at the original Titanic,
it can be found over 2 miles
below the surface of the ocean.
JEREMY DUCHOW: It's hard
to imagine what it might have
looked like in the past,
because there's actually
microscopic organisms down there that
are literally eating the steel.
NARRATOR: Scientists have
identified the microorganisms
on the Titanic as an aggressive form
of a fungus that causes rust.
JEREMY DUCHOW:
Basically, these microorganisms
are eating away at the ship, a
couple hundred pounds a day.
And at one point it's
going to finally just cripple
the whole structure of
the ship, and very likely
the bow section will just
completely implode upon itself.
NARRATOR: At this rate,
scientists believe the Titanic
will rot away within 14 years.
Can we salvage the
legacy of this great ship
from the depths of the
ocean and design a swift,
sleek, and safe Titanic?
We're trying to figure out
how to build a new Titanic.
But what's it going to look like?
Maybe our friends in
Tennessee can help out, after all,
they built the world's
largest Titanic replica.
MARY KELLOGG-JOSLYN: It was going
to be a museum, a traditional
museum with some icons.
And then as we got into it, we thought
why not pull the blueprints
and actually build the ship
half scale to original size.
But as we were going through this process,
we realized how in the
world they built this in 1912.
And it took them a little
over two years to build.
Well, it took us almost two years
to build this at half scale.
NARRATOR: So clearly
this isn't going to be easy.
But luckily, back in
Tasmania, Incat's top designer
Gordon Stewart is ready
to take on the greatest
challenge of his career.
GORDON STEWART: I've been designing boats
and drawing boats all my life.
And the idea of designing the vessel
that will be the fastest
ship across the Atlantic... it'd
be the peak of my career.
I work on the concepts
right from the very beginning.
I'll start with a general
arrangement drawing.
And that lays out the
machinery to passenger spaces
to fuel tanks to the control
stations of the bridge.
NARRATOR: But for this build,
they won't have to go totally
back to the drawing board.
It's going to be a supersized version
of Incat's fastest boat ever.
That concept to smash this record
is the larger version of
what's behind us here.
It consists of two slender hulls
connected by a bridging beam
and a center bow.
NARRATOR: This double hull or catamaran
style has a major design advantage
over the original Titanic.
Boats expend most of their power just
pushing water out of the way.
A bigger hull means more water resistance,
but catamarans reduce
the hull size dramatically
by splitting it between the port
and starboard all the stability
with way less resistance.
But the catamaran design we're
looking at has another leg up.
Remember these?
See how they angle up in
the air as they catch speed?
This takeoff is called planing.
And our catamaran will be
able to do the same thing,
that is if we can get enough power
to push it beyond hump speed.
Hump speed is an area where
the resistance has peaked up.
And once you get beyond that hump,
you can start to fly again.
NARRATOR: Hump speed is sometimes
known as displacement speed or hull speed.
It's the difference
between sailing in the water
and sailing on the water.
And it varies from vessel to vessel.
STEWART WELLS: So hump
speed can be termed hull speed,
which is a hull length.
So the longer the boat,
the higher the speed
can be achieved without
having to go over hump,
which is where it's
effectively overtaking the bow
wave, which the hull creates.
So to do that it requires a
lot of energy to get past that.
But once it's passed
there, a lot of dynamic lift
is generated by the hull
and allows the vessel
to lift up out of the
water effectively, which
is why smaller, flat bottom craft
it's easier to do this than a
large 100 meter catamaran.
NARRATOR: 100 meters is about 330 feet.
The Titanic was almost 900 feet long.
If we want to reach hump
speed and sail on the water,
we're going to have to adjust our design
to keep us underweight.
We're working on 150
meter boat, which will have up
to about 200 passenger cabins.
NARRATOR: There were
840 cabins on the Titanic.
Looks like we're
compromising size for speed.
At least our design dilemma is settled...
Catamaran it is.
But what material is light enough
to catapult us to hump speed?
Well, what if we used
the same thing the 1912
Titanic was built from?
TONY THOMPSON: The large
liners we're all made of steel.
And if you were to build
a boat like that today,
you just have to keep the weight down.
It's just straight physics.
Every bit of weight has to be
propelled across that ocean.
And the heavier it is the
more fuel you've got to carry.
And you're kind of in that catch-22, where
you just can't beat the game.
NARRATOR: Our boat builders
say steel isn't going to cut it.
So what about aluminum?
The Wright brothers
used lightweight aluminum
to build their plane engines.
And aluminum is the chief material
used in the International Space Station.
But how does it fare out at sea?
So we'll be using marine grade aluminum.
Well proven system that
we've developed over the last 30
years of Incat's existence.
NARRATOR: Marine grade aluminum.
It's basically like a soda can,
but blended with other metals,
like magnesium, to make it
stronger and ultra resistant
to corrosion.
Its strength properties are the highest
that's commercially available.
So here we have one of the
lightweight aluminum extrusions
that we use on the vessels.
So this is extruded out of 6,000
series marine grade aluminum.
That's used for the decking
here that we're standing on.
And allows us to get
less weld into the deck.
So saves on the overall structural weight
of the vessel, which accounts for about 40%
of the total vessels weight.
TONY THOMPSON: Aluminum
is one third of the weight of steel.
So it can result in a very lightweight,
well engineered structure that
can maintain very high speeds.
[buzzing of machinery]
NARRATOR: So we'll build it
with marine grade aluminum.
Next, we have to determine how to achieve
our target horsepower.
In 1912, the Titanic boasted
the world's most state
of the art ocean-going engine.
JEREMY DUCHOW: Her turbine engine room
and her main reciprocating engine room
were just a sea of bells and whistles.
NARRATOR: Six separate boiler
rooms stoked with over 800 tons
of coal a day heating water to
produce enough steam to power
Titanic's three engines.
Each engine used the steam power to move
a piston inside a cylinder translating
this motion into the
rotational force of the propeller.
Titanic's engines allowed
it to travel at 23 knots.
But if we want to cross
the Atlantic in 48 hours,
we need to more than double that cruising
the ocean at highway speeds.
Can we drum up the horsepower
to claim the transatlantic
crossing record?
We're imagining how we build
a Titanic for the 21st century.
We know it's going to be a catamaran
style ocean Cruiser, built from ultra
light marine grade aluminum.
But now we're in the market
for an engine that can bring
us up to at least 54 knots.
And that hunt brings us here to Argentina.
Meet the HSC Franscisco,
the latest and greatest boat
built by our friends at Incat.
Francisco travels between
the South American cities
of Buenos Aires and
Montevideo, a route over 100 miles
long in less than two hours.
How does that work?
ROBERT CLIFFORD: The ship is powered
by LM25 jet engines, similar
to that are used an aircraft.
NARRATOR: That's got to be
worth a peek under the hood.
So this turbine is exactly the
same as you see on aircraft.
NARRATOR: The engine room
here is a far cry from the Titanic's
grimy boiler rooms.
And this is the control
panel for the turbine.
From this position you can
monitor all the parameters when
the turbine is in operation.
NARRATOR: This engine
leaves the competition in its wake.
And here's how it works...
Instead of powering
propeller's, the engine power
is a pair of water jets,
known as impellers.
An impeller is a rotor that sucks
in water from underneath the vessel
and shoots it out the back.
The force of the jet pushing backwards
sends the boat forward.
It's the same system that is
used for jet skis, but bigger.
DAVID RISELEY: So basically you're
forcing the water through a
small duct out through a jet.
And the amount of water
that's propelled through that
is just phenomenal.
NARRATOR: These water
jets displace over 6,300 gallons
of water per engine per second.
That's the average
American's drinking water
supply for over 100 years.
They're very durable.
So they don't have the
impacts and that sort of thing
that you might get on
a traditional propeller.
So they're enclosed in a safer environment.
Smaller than a normal
propeller, but far more efficient
as an impeller arrangement.
You've got to be on board.
The highlight is standing on the vessel
doing more than 55 knots, and seeing
the rooster tail come out
of the back of the water jets.
The performance of the vessel
is just something you've got
to experience to understand.
NARRATOR: So Francisco's
fast, but is it fast enough?
Well, this ferry tops out at
just over 65 miles per hour.
But we might be able to beat that
during our cross Atlantic journey.
The vessel that we're proposing
will be starting off at a
relatively modest speed,
and then as it burns down that fuel load
and reduces the vessel's overall weight,
the vessel speed will obviously increase.
And it's just as much a test of endurance
as it is overall speed.
NARRATOR: So the
finish line is in sight, right?
Well, not so fast.
If we really want to
make sure our passengers
time across the Atlantic flies by,
we'd better borrow another
move out of Titanic's playbook.
They decided, OK, the speed thing's great,
but luxury is what will draw people.
NARRATOR: So what kind of amenities
are we going to offer?
The Titanic's passengers
represented the rigid class
system of its day.
And depending on what
kind of ticket you punched,
your experience on board
would be very, very different.
OK, well, this will be a
lot of information here.
Well, in first class, we had
access to a gymnasium.
You have a lounge.
You had a smoking room.
You had a barbershop.
You had first class dining room.
You had a Turkish bath.
You had a swimming pool.
So there's a lot of features on board.
Second class, you had your dining room.
You had a library on board.
But no pool, no gymnasium, no squash court.
What made Titanic unique is Titanic
really took care of third class.
If you traveled on any other ship,
you would have probably
traveled dormitory style,
and you would have brought your own food.
They wouldn't even give you beds sometimes,
just some hay to lay down on.
And then two buckets, one for the water,
one for your bathroom issues.
Third class was amazing for the people
from Europe, who expected
just to be crowded into rooms.
It made them feel, wow, we're really
getting special experience for our money.
NARRATOR: We're only
going to have one tier of ticket
aboard our ship.
But can we give every
passenger a first class
experience even when they're
traveling at breakneck speeds?
KIM CLIFFORD: I think we can
still ensure that our customers
on board the boat have a really fun
adventurous time with a
sense of romance and mystique
about being on one of our vessels,
but in the safety of the modern environment
with all of the necessary
equipment on board
to enhance their experience.
NARRATOR: So when it comes
to amenities our new Titanic
will have everything, luxury cabins,
restaurants, theaters, a gym,
and even a swimming pool.
But how are we going to keep everyone safe?
There were so many things that just
didn't quite fit that night.
JEREMY DUCHOW: There was no moon,
so it was incredibly dark out.
It was really hard to see.
Unfortunately, when they
saw it at 11:40, it was too late.
The officers had pulled the
wheel for a hard to starboard,
and it tried to pull around the iceberg,
but it just was not enough time.
And it scraped her
along the front of the ship.
It just hit the Achilles heel.
It didn't destroy two compartments,
it took out six of them.
It was designed to have the first four
compartments damaged.
However, the fifth compartment
is what will doom her.
Boiler room number six, once
that compartment was cut open,
there was nothing they can do.
NARRATOR: Can we be prepared
for the worst case scenario?
We're almost ready
to build our new Titanic.
We know it's going to be a
supersized catamaran assembled
out of marine grade
aluminum with jet engine speed
and state of the art impellers.
Let's just say everything
about it is going to be first class.
But we're staring down another big problem.
This is where Titanic sank 400 miles
south of Newfoundland, Canada.
This harrowing stretch of
ocean is known as iceberg alley.
Ever since the Titanic disaster
the International Ice Patrol
has been on active duty
here, because the best
way to protect against icebergs is
to know where the icebergs are.
STEVE KOCH: International Ice Patrol
is one part of an international
collaboration that monitors
the iceberg danger in the North Atlantic
and provides a relevant warning products
to the maritime community.
We started the ice patrol in 1913, because
of the tragedy of the Titanic
and have been executing
that mission ever since.
Over the course of 117 years
the way in which we've done
that has changed quite a bit.
It used to just be a ship
watching for the icebergs
to travel south and
counting them as they went
and warning the vessels by radio.
Nowadays we're using satellite.
We're using highly sophisticated models.
We're using aerial reconnaissance
from US Coast Guard c-130s
in order to find those icebergs,
and then generate a warning product
that goes out daily to ships at sea.
NARRATOR: It's a big moving maze that
needs year-round surveillance via radar
and airplane ice spotters.
Tracking every berg in an area larger
than the state of Kansas.
DON RUDNICKAS: We
cover a huge amount of area,
basically from the tail of the Grand Banks
all the way North to the coast of Labrador.
NARRATOR: Remarkably, since the ice patrol
began monitoring here no
ship has suffered loss of life
from ice.
Nothing speaks louder
than a century of success.
Thanks to the International
Ice Patrol icebergs
are a problem of the past.
But there's another Titanic
mishap we'd like to avoid.
Because of what happened to Titanic
there was many things that had to happen.
But probably the biggest
one is that all ships
had to have enough lifeboats
for everyone on board.
NARRATOR: Titanic had over
2,000 passengers and crew aboard,
but a lifeboat capacity of just 1,178.
They weren't too many safety
regulations in the early days
of vessels like the Titanic.
So they placed a lot of
emphasis on performance
and making sure that the
passengers were comfortable.
But in terms of the safety equipment
they were probably a token
gesture and not much more.
NARRATOR: But if an iceberg slips
through the cracks on
our transatlantic journey,
we've got a plan.
Just down the road from Incat's shipyard
is Life Raft Systems Australia.
MIKE GRAINGER: These days
the modern day Titanic would have
a very, very upmarket safety
equipment, including systems
like the systems we produce.
NARRATOR: And it would
look something like this.
MIKE GRAINGER: The system,
for example, that we produce
inflates within 60 seconds.
We can evacuate 100 people
within about three minutes.
So they leave the ship, go down the slide
straight into a large capacity life raft,
and then the life raft can be cut away
and towed away from the
sinking vessel if that's the case.
NARRATOR: And the nylon
plastic that canopies the raft also
provides life saving
insulation in even the most
frigid marine conditions.
MIKE GRAINGER: So
this is the very life raft
that we would install
on our new Titanic Two
along with our evacuation slides.
So again we would evacuate
a ship like Titanic Two very,
very quickly and very, very
efficiently without passengers
getting their feet wet.
NARRATOR: So we figured
out design, materials, horsepower,
amenities, and safety.
But how many people are we going to need?
And how long is it going to take?
When it came to building the Titanic,
it was the biggest
operation the city of Belfast,
Northern Ireland ever undertook.
Belfast was probably one of the most
busiest shipyards in the world.
The shipyard that would
have built the Titanic
would have had a staff of
15,000 people working on it.
So that's a very, very large shipyard
even by today's standard.
NARRATOR: Today's shipyards are leaps
and bounds ahead of the Titanic
thanks to modern technology.
But we'll still need to employ
a diverse team of experts
from the Incat shipyard.
GORDON STEWART: Those
people would be fabricators, welders,
but we also have the people working
in the design office, the stores
and supply people, purchasing.
NARRATOR: So how many people?
Approximately 500 to 600 people.
NARRATOR: We'll put it at 600 people.
But how long will it take?
Well, the first Titanic was built
in two years and two months.
So flash forward to the present and we've
got to be able to move
faster than that, right?
Yeah, so in the design phase typically
you're looking at three to six months.
And then construction can
be around the two year mark.
NARRATOR: So two and a half years?
That's longer than it took
to build the first Titanic
and that's not even
considering all the red tape.
STEWART WELLS: You have to
go through that approval process
and independent checks and things
like that, which obviously
adds to that time.
NARRATOR: All right, we'll
put it at three years then.
But how the heck are
we paying for this thing?
Titanic's business model was simple...
Stock the steerage cabins
and up charge for first class.
Well, in first class, the cheapest ones
are probably around $300
US back in 1912 or so.
And the most expensive, one
of the private promenade suites,
will be around $3,300.
Today's equivalent, your cheapest ticket
for first class to be around
$15,000, most expensive
run $125,000.
NARRATOR: Our experts
are split on the financial future
of this one.
I think from the perspective
of doing it as a challenge is
one thing, but to do it as a
passenger operation is probably
a different kettle of fish.
Absolutely, we have complete
confidence that this vessel
is commercially viable.
NARRATOR: We're left
in financial uncertainty.
Just how big is the final
price tag going to be?
And how are we going to pay for it?
So you want to build a
new Titanic, one that'll cross
the Atlantic in just 48 hours?
What would it take?
We're imagining a 21st century ocean liner
with a catamaran design, jet engines,
and luxury accommodations.
And it's going to take up to 600 workers
three years to build it.
So let's do it.
Step one, optimize the design
with state of the art modeling.
STEWART WELLS: We all
have computer programs, which
we can do virtual testing.
So we don't have to build a physical model.
NARRATOR: Step two, bring
that design into the shipyard.
But are we going to have
to rebuild the shipyard,
like they did the first time?
They were the largest structures
in the world at the time.
And the Northern Ireland guard was
completely reconfigured to
be able to build these vessels.
It took two years for the Harland and Wolff
to build the docks.
JEREMY DUCHOW: They built these two
gigantic gantries for Titanic that were
going to be built side by side.
They also built this
enormous gantry structure
to hold all the cranes.
It was about 11 stories high.
NARRATOR: Back in Tasmania, they're
already geared up with a shipyard
big enough to handle our build.
GORDON STEWART: We
have undercover workshop areas
with dried up facilities, everything
that's required to build a vessel
of this size and this capacity.
ROBERT CLIFFORD: And there aren't
too many groups in the world
that are capable of doing that.
NARRATOR: Our shipyard's in ship shape.
Our hull can start taking shape too.
While we wait on that, we'll tell you how
they did things a century ago.
When it came to construction
processes over 100 years ago,
it took a lot more work.
You didn't have as much
machine equipment to help
you really build things.
You first laid the keel and the tank top,
which is the lowest decks of the ship.
And then build the ribs along
the side, where they would then
install the shell
plating to create the hull
or the body of the ship.
NARRATOR: Back in those
days, steel boats were assembled
by a process known as riveting.
TONY THOMPSON: Riveting
was the predecessor to welding.
That meant a tremendous
amount of labor and work
to build these vessels.
Rivets were fired down
below in a coal fired kiln,
and then they were
thrown up to the shipwrights,
who would catch them in
buckets, and then insert them.
And a man on the other
side would peen the back
of the rivet, while the man on the front
was driving the rivet in.
There's at least four people for one rivet.
And there'd be millions of
rivets in one of these vessels
to be able to hold it all together.
I don't think I would
have liked it very much.
But they were learning.
Those people were learning.
They were right on the edge
of technology at the time.
NARRATOR: Today, all the
pieces of our aluminum hull
can be connected via a specialized welding
process called MIG welding.
A small metal wire is fed
through the welding gun
sparking and creating
enough heat to forge the two
pieces of aluminum together.
With the hull in place, our next job's
the same task as the bygone
boat builders of Belfast.
They still had to do what's
called outfitting, which means
basically installing all of her
mechanics and her interiors,
because she basically
was just a giant empty shell.
NARRATOR: We're outfitting
our Titanic with some seriously
heavy duty horsepower.
These are the 16 cylinder
engines from Germany.
Twin turbo chargers, after
coolers, all the mod cons
to make them efficient today.
Those engines are going to roll across
here, roll into the ship.
We take the seal away,
roll them down there,
and put the second engine in.
Two engines fit in this engine room.
MIKE GRAINGER: The type of arrangement's
never been done before.
So we had to kind of reinvent the wheel
as far as installation goes.
Once you've got it in there, you've
got all the hurdles of
attaching everything to it,
complicated pipe systems,
the exhaust systems.
So getting it all fit is
always a task all in itself.
NARRATOR: As the machinery gets hooked up,
we can begin installing our luxury
amenities and safety features.
When we're done, our Titanic will slide out
of its shore-side hangar
and hit the water en route
to its transatlantic raceway.
It'll be a shipbuilding celebration
unmatched for over a century.
BLAIR BEED: The day that
they launched the Titanic,
it was a clear day, a large, flat area
where crowds had gathered.
They had lined up all the workers.
And people would have
thought is it going to launch?
Is it going to launch?
The whistles start to go and more whistles.
And all of a sudden this
huge, huge hull starts to move.
And then, finally, it took up some speed,
and then hit the river.
And as it hits the water,
the cheers are even greater.
And the cheers would have
been heard right into the mountains
around Belfast.
NARRATOR: We did it.
A brand new Titanic to cross
the Atlantic in just 48 hours.
We built a catamaran style
and used ultralight marine grade
aluminum.
It's got twin gas turbine
engines decked out
with first class amenities and every safety
feature imaginable.
It took 600 people and three years.
But how much did it cost?
Well, the original
Titanic cost $174 million
in today's dollars.
So how big is our bill going to be?
Hundreds of millions
of dollars we're talking
about for a ship this size.
Ballpark figure for a ship
like this about $200 million.
NARRATOR: Time to pay up.
$200 million it is.
But can we make this a commercially
successful venture?
Our trophy winning inaugural voyage
is sure to make headlines.
And if we can drum up enough supporters,
we just may be able to
resurrect the golden age
of ocean-going travel.
You can still conjure up a feeling
of being one of these amazing
liners, that era of romance
and adventure on the high seas.
NARRATOR: Our Titanic may never live
up to the legacy of the original,
but maybe that's a good thing.
TONY THOMPSON: The loss
of the Titanic was a watershed.
Titanic has affected the
construction and design
of every passenger
vessel that operates now,
and that goes from small
table ferries that cross rivers
to ships that cross oceans.
NARRATOR: But for the
thousands that gathered in Belfast
to watch the original Titanic
launch to the millions who've
learned it's tragic and great
story to those who carry on
in marine technology,
the future of ocean travel
is being written.
MARY KELLOGG-JOSLYN: There are many ships
are much bigger than Titanic today,
but what she represented
was the inner self of our self,
something that kind of tugs
and awakens ourself to say,
hey, we can do something
even better and bigger.
NARRATOR: The Titanic we've imagined
shows we can fuse safety, luxury, and speed
on the high seas carrying passengers
on an age old route in a brand
new way if we built it today.
most famous ocean liner in history.
The story is so unbelievably jaw dropping.
She pushed the boundaries
more than anybody else.
NARRATOR: Titanic was
built to be the biggest, fanciest,
and fastest ocean liner ever.
We were so proud of our progress
and all of a sudden we have
this wake up call that, you know,
things can go wrong.
Unfortunately, we lost over 1,500 people.
It's something that you would think
would only be in the
world of fiction and fantasy,
but it's actually historically true.
NARRATOR: What if we
could build a new Titanic?
Could 21st century engineers
use the latest materials
and technology to make the
fastest, safest transatlantic
ocean liner ever?
It would be a very, very
expensive vehicle to build.
With the technology that we have here,
it's absolutely possible.
NARRATOR: What will it take
to make the Titanic 2.0 happen?
I am confident we can pull this off.
It's not going to be an easy one.
NARRATOR: Now we're
wondering how long would it take?
How much would it cost?
How many workers would we need?
Could we even do it?
"If We Built It Today."
[music playing]
NARRATOR: This is history's deadliest race
course the North Atlantic
route between Europe
and North America.
At the turn of the century, the main mode
of transport across the Atlantic was
the transatlantic ocean liner.
NARRATOR: The route had settled
between Liverpool and New York.
They were pushing the
speed envelope at the time
to make the boats quicker.
Just taking an hour or two off and arriving
a little better in New York really makes
a big difference to people.
NARRATOR: Technology and fierce competition
drove innovation, making
the crossing faster and safer.
Well, the Titanic was a race to be
the premier ship on the water.
Every citizen in the world
was waiting for Titanic to set
sail on her maiden voyage.
NARRATOR: Everyone
knows what happened next.
It's a part of our global shared history.
Even the word Titanic is
known in every language.
It means disaster of epic proportion.
BLAIR BEED: Titanic is the disaster.
I mean story is probably one
of the most popular stories of
history from the 20th century.
NARRATOR: And today,
over 100,000 people a year
travel here to Pigeon Forge, Tennessee
to visit the Titanic Museum,
owned and operated
by Mary Kellogg-Joslyn.
Well, Titanic was found in 1985.
And in 1987, a second
expedition was put together,
and that expedition was led
by my husband John Joslyn.
They did retrieve over 1,800 artifacts.
He made a decision to
build permanent museums.
He was able to show all
these artifacts for the first time.
NARRATOR: Decades later
those artifacts continue to captivate
the public as the last vestiges of the most
famous shipwreck in history.
But before Titanic was a
legendary disaster story
this massive luxury liner was the pinnacle
of seagoing technology.
MARY KELLOGG-JOSLYN:
She pushed the boundaries
more than anybody else.
And at the time, people
were like mesmerized
how big she was.
And that really would amaze passengers
to see this enormous ship.
NARRATOR: At over 880 feet, it was as
long as three football fields.
Turn it upright, it was
almost 200 feet longer
than the MetLife Tower in
New York City, the world's
tallest building at the time.
At near 58,000, tons Titanic was twice as
heavy as the Statue of
Liberty and five times heavier
than the Eiffel Tower.
It was the largest moving
structure of all time.
But what if we wanted to
build a new Titanic today?
I don't think you could
ever build Titanic again.
Unfortunately, I have
to believe that that era
has very much come to an end.
It would be a very, very
expensive vehicle to build,
and that's assuming that the
technology is there to actually
build what you need to build.
NARRATOR: To design a new Titanic,
we'll need to call in the experts.
ROBERT CLIFFORD: Shipbuilding has always
been one of moving on to
lighter, better ships, faster
ships, bigger ships, and the Titanic
started that ball rolling.
NARRATOR: Bob Clifford is the chairman
of a massive Australian
shipbuilding operation.
He's dedicated his life to building
boats that are big and fast.
ROBERT CLIFFORD: There's definitely
an argument for fast boats.
When you're competing against
aircraft you have to be fast.
NARRATOR: But just what kind of speeds
can modern oceangoing vessels reach?
Welcome to the world of
offshore powerboat racing.
With a sleek twin hull
design, these speed machines
fly above the waterline at
top speeds over 3 times faster
than the average highway speed limit.
They're fast enough to cross
the Atlantic in just eight hours.
But offshore power boats can only carry
enough fuel for a 60 mile race.
So what's a more realistic time
frame for our passenger ship
to cross the Atlantic?
It would be very nice to be able to cross
the Atlantic in two days.
NARRATOR: Titanic's maiden voyage
was supposed to take six
days to travel over 3,000 miles.
Well, if we wanted to do
the journey in two days,
we'd have to do about 54 knots.
Now, that's an aiming point.
NARRATOR: 54 knots on water
is about the same as the speed
limit on most of the world's highways.
If we can reach that speed,
we could shatter existing
transatlantic crossing records.
With the technology that
we have here with the vessels
that we're building,
it's absolutely possible.
NARRATOR: But Naval architect Tony
Thompson's not so confident.
A transatlantic vessel
making a trip in two days...
It might be a great competition...
But I'm not so sure that it
could be commercially viable.
NARRATOR: To up the appeal
we'll need luxury features to rival
the original Titanic's.
You had a swimming
pool, you had a gymnasium.
It was a beautiful ship, and
it had luxuries that people
had never seen before.
NARRATOR: Of course,
the latest safety features
will put passengers at ease
and avert any potential disasters.
BLAIR BEED: They head out to
sea and head to the open ocean.
And life on board the
ship is what is expected.
And all of a sudden iceberg ahead.
37 seconds later they hit that iceberg.
And two hours and 40
minutes later she was gone.
NARRATOR: Can we rewrite
history and rebuild the most
famous boat of all time?
We're imagining building
a brand new Titanic.
A record breaking ocean liner to cross
the Atlantic fast and in style.
But the original model
was also born of necessity.
ROBERT CLIFFORD: Well, that
era, of course, it was the only way
of getting across the Atlantic.
And of course, there was a
great deal of competition to have
the fastest, biggest ships.
TONY THOMPSON: A number
of countries, in fact, we're using
it to support their
shipbuilding industries,
which were big industries in those days,
and just the National pride
of having the fastest vehicle
that can cross the Atlantic.
JEREMY DUCHOW: When it came to the ships,
you really had Cunard, White
Star, and also the French lines
and the two German lines,
which are all competing
in this booming market.
NARRATOR: It was the White Star Line
that commissioned the Titanic
as part of their Olympic Class.
MARY KELLOGG-JOSLYN: The White Star Line
decided that they were going to be the most
beautiful and luxurious ship.
BLAIR BEED: They really
were going for the luxury angle.
Boy, you were going to
really enjoy your travel on it.
NARRATOR: The White Star Line understood
the science of psychology.
Time flies when you're having fun, a trick
that's still in use today.
The cruise ship industry is
worth over $55 billion a year.
Always striving to provide their passengers
with the latest amenities.
You want to keep people entertained
during their crossing, so
you've got to think of things
that will entertain them.
Will there be cinema rooms?
Will there be quiet spaces?
Will there be gaming areas, beauty salons?
You've got to think creatively
how you can entertain
people on such a long crossing.
NARRATOR: Over 100
years after the Titanic sank,
passengers still crave the latest
and greatest activities to keep them
entertained on a long voyage.
But for builders the main challenge
has always been to cross
the Atlantic as fast as possible.
And that's a dream that
didn't go down with the Titanic.
It was always about speed.
And it continued through
the 1920s and the 1930s.
Every increase in speed was a shorter time
on the ocean, which was especially
good for the business class
that was traveling in these liners.
NARRATOR: And the race rages on today.
The current record is two days and 20 hours
set by a transatlantic ferry
named Cat-Link V. Built here
at Incat Shipbuilding
the company Bob Clifford
founded over 50 years ago.
We're very proud to be a
shipbuilders to the world.
Not just any old
shipbuilding, we build the best.
NARRATOR: But if we could
cross the Atlantic in under two days,
we'd smash the current
record by over 20 hours.
So let's do it.
Let's build a 21st century ocean liner
that's elegant, safe, and fast enough
to cross the Atlantic in just 48 hours.
To design it we need to
stitch together centuries
of shipbuilding styles.
So you're talking about a whole new design
of vessel that can do it.
NARRATOR: We need the perfect materials.
Finding them will be an
all hands on deck endeavor
to make a Titanic sized
ship fly across the ocean.
Obviously, light weight is
very important, without making
the ship light, we can't
achieve the sort of speeds
that we need.
NARRATOR: You better believe
we've got a need for speed.
So this turbine is exactly the
same as you see on aircrafts.
NARRATOR: But it's also got
to be fully loaded with amenities.
This will be the fanciest boat
on the water in over a century.
KIM CLIFFORD: Even though
they're on a high speed craft
there is no reason that they can't
enjoy the normal things that they
would enjoy on a cruise ship.
NARRATOR: So we won't sacrifice comfort,
but we can't sacrifice safety either.
We lost over 1,500 people.
NARRATOR: And we've got
to figure out what size workforce
we'll need, how long it will take,
and how much the
whole thing's going to cost.
But first, we've got to figure out
what it's going to look like.
Well, if you want to get a
look at the original Titanic,
it can be found over 2 miles
below the surface of the ocean.
JEREMY DUCHOW: It's hard
to imagine what it might have
looked like in the past,
because there's actually
microscopic organisms down there that
are literally eating the steel.
NARRATOR: Scientists have
identified the microorganisms
on the Titanic as an aggressive form
of a fungus that causes rust.
JEREMY DUCHOW:
Basically, these microorganisms
are eating away at the ship, a
couple hundred pounds a day.
And at one point it's
going to finally just cripple
the whole structure of
the ship, and very likely
the bow section will just
completely implode upon itself.
NARRATOR: At this rate,
scientists believe the Titanic
will rot away within 14 years.
Can we salvage the
legacy of this great ship
from the depths of the
ocean and design a swift,
sleek, and safe Titanic?
We're trying to figure out
how to build a new Titanic.
But what's it going to look like?
Maybe our friends in
Tennessee can help out, after all,
they built the world's
largest Titanic replica.
MARY KELLOGG-JOSLYN: It was going
to be a museum, a traditional
museum with some icons.
And then as we got into it, we thought
why not pull the blueprints
and actually build the ship
half scale to original size.
But as we were going through this process,
we realized how in the
world they built this in 1912.
And it took them a little
over two years to build.
Well, it took us almost two years
to build this at half scale.
NARRATOR: So clearly
this isn't going to be easy.
But luckily, back in
Tasmania, Incat's top designer
Gordon Stewart is ready
to take on the greatest
challenge of his career.
GORDON STEWART: I've been designing boats
and drawing boats all my life.
And the idea of designing the vessel
that will be the fastest
ship across the Atlantic... it'd
be the peak of my career.
I work on the concepts
right from the very beginning.
I'll start with a general
arrangement drawing.
And that lays out the
machinery to passenger spaces
to fuel tanks to the control
stations of the bridge.
NARRATOR: But for this build,
they won't have to go totally
back to the drawing board.
It's going to be a supersized version
of Incat's fastest boat ever.
That concept to smash this record
is the larger version of
what's behind us here.
It consists of two slender hulls
connected by a bridging beam
and a center bow.
NARRATOR: This double hull or catamaran
style has a major design advantage
over the original Titanic.
Boats expend most of their power just
pushing water out of the way.
A bigger hull means more water resistance,
but catamarans reduce
the hull size dramatically
by splitting it between the port
and starboard all the stability
with way less resistance.
But the catamaran design we're
looking at has another leg up.
Remember these?
See how they angle up in
the air as they catch speed?
This takeoff is called planing.
And our catamaran will be
able to do the same thing,
that is if we can get enough power
to push it beyond hump speed.
Hump speed is an area where
the resistance has peaked up.
And once you get beyond that hump,
you can start to fly again.
NARRATOR: Hump speed is sometimes
known as displacement speed or hull speed.
It's the difference
between sailing in the water
and sailing on the water.
And it varies from vessel to vessel.
STEWART WELLS: So hump
speed can be termed hull speed,
which is a hull length.
So the longer the boat,
the higher the speed
can be achieved without
having to go over hump,
which is where it's
effectively overtaking the bow
wave, which the hull creates.
So to do that it requires a
lot of energy to get past that.
But once it's passed
there, a lot of dynamic lift
is generated by the hull
and allows the vessel
to lift up out of the
water effectively, which
is why smaller, flat bottom craft
it's easier to do this than a
large 100 meter catamaran.
NARRATOR: 100 meters is about 330 feet.
The Titanic was almost 900 feet long.
If we want to reach hump
speed and sail on the water,
we're going to have to adjust our design
to keep us underweight.
We're working on 150
meter boat, which will have up
to about 200 passenger cabins.
NARRATOR: There were
840 cabins on the Titanic.
Looks like we're
compromising size for speed.
At least our design dilemma is settled...
Catamaran it is.
But what material is light enough
to catapult us to hump speed?
Well, what if we used
the same thing the 1912
Titanic was built from?
TONY THOMPSON: The large
liners we're all made of steel.
And if you were to build
a boat like that today,
you just have to keep the weight down.
It's just straight physics.
Every bit of weight has to be
propelled across that ocean.
And the heavier it is the
more fuel you've got to carry.
And you're kind of in that catch-22, where
you just can't beat the game.
NARRATOR: Our boat builders
say steel isn't going to cut it.
So what about aluminum?
The Wright brothers
used lightweight aluminum
to build their plane engines.
And aluminum is the chief material
used in the International Space Station.
But how does it fare out at sea?
So we'll be using marine grade aluminum.
Well proven system that
we've developed over the last 30
years of Incat's existence.
NARRATOR: Marine grade aluminum.
It's basically like a soda can,
but blended with other metals,
like magnesium, to make it
stronger and ultra resistant
to corrosion.
Its strength properties are the highest
that's commercially available.
So here we have one of the
lightweight aluminum extrusions
that we use on the vessels.
So this is extruded out of 6,000
series marine grade aluminum.
That's used for the decking
here that we're standing on.
And allows us to get
less weld into the deck.
So saves on the overall structural weight
of the vessel, which accounts for about 40%
of the total vessels weight.
TONY THOMPSON: Aluminum
is one third of the weight of steel.
So it can result in a very lightweight,
well engineered structure that
can maintain very high speeds.
[buzzing of machinery]
NARRATOR: So we'll build it
with marine grade aluminum.
Next, we have to determine how to achieve
our target horsepower.
In 1912, the Titanic boasted
the world's most state
of the art ocean-going engine.
JEREMY DUCHOW: Her turbine engine room
and her main reciprocating engine room
were just a sea of bells and whistles.
NARRATOR: Six separate boiler
rooms stoked with over 800 tons
of coal a day heating water to
produce enough steam to power
Titanic's three engines.
Each engine used the steam power to move
a piston inside a cylinder translating
this motion into the
rotational force of the propeller.
Titanic's engines allowed
it to travel at 23 knots.
But if we want to cross
the Atlantic in 48 hours,
we need to more than double that cruising
the ocean at highway speeds.
Can we drum up the horsepower
to claim the transatlantic
crossing record?
We're imagining how we build
a Titanic for the 21st century.
We know it's going to be a catamaran
style ocean Cruiser, built from ultra
light marine grade aluminum.
But now we're in the market
for an engine that can bring
us up to at least 54 knots.
And that hunt brings us here to Argentina.
Meet the HSC Franscisco,
the latest and greatest boat
built by our friends at Incat.
Francisco travels between
the South American cities
of Buenos Aires and
Montevideo, a route over 100 miles
long in less than two hours.
How does that work?
ROBERT CLIFFORD: The ship is powered
by LM25 jet engines, similar
to that are used an aircraft.
NARRATOR: That's got to be
worth a peek under the hood.
So this turbine is exactly the
same as you see on aircraft.
NARRATOR: The engine room
here is a far cry from the Titanic's
grimy boiler rooms.
And this is the control
panel for the turbine.
From this position you can
monitor all the parameters when
the turbine is in operation.
NARRATOR: This engine
leaves the competition in its wake.
And here's how it works...
Instead of powering
propeller's, the engine power
is a pair of water jets,
known as impellers.
An impeller is a rotor that sucks
in water from underneath the vessel
and shoots it out the back.
The force of the jet pushing backwards
sends the boat forward.
It's the same system that is
used for jet skis, but bigger.
DAVID RISELEY: So basically you're
forcing the water through a
small duct out through a jet.
And the amount of water
that's propelled through that
is just phenomenal.
NARRATOR: These water
jets displace over 6,300 gallons
of water per engine per second.
That's the average
American's drinking water
supply for over 100 years.
They're very durable.
So they don't have the
impacts and that sort of thing
that you might get on
a traditional propeller.
So they're enclosed in a safer environment.
Smaller than a normal
propeller, but far more efficient
as an impeller arrangement.
You've got to be on board.
The highlight is standing on the vessel
doing more than 55 knots, and seeing
the rooster tail come out
of the back of the water jets.
The performance of the vessel
is just something you've got
to experience to understand.
NARRATOR: So Francisco's
fast, but is it fast enough?
Well, this ferry tops out at
just over 65 miles per hour.
But we might be able to beat that
during our cross Atlantic journey.
The vessel that we're proposing
will be starting off at a
relatively modest speed,
and then as it burns down that fuel load
and reduces the vessel's overall weight,
the vessel speed will obviously increase.
And it's just as much a test of endurance
as it is overall speed.
NARRATOR: So the
finish line is in sight, right?
Well, not so fast.
If we really want to
make sure our passengers
time across the Atlantic flies by,
we'd better borrow another
move out of Titanic's playbook.
They decided, OK, the speed thing's great,
but luxury is what will draw people.
NARRATOR: So what kind of amenities
are we going to offer?
The Titanic's passengers
represented the rigid class
system of its day.
And depending on what
kind of ticket you punched,
your experience on board
would be very, very different.
OK, well, this will be a
lot of information here.
Well, in first class, we had
access to a gymnasium.
You have a lounge.
You had a smoking room.
You had a barbershop.
You had first class dining room.
You had a Turkish bath.
You had a swimming pool.
So there's a lot of features on board.
Second class, you had your dining room.
You had a library on board.
But no pool, no gymnasium, no squash court.
What made Titanic unique is Titanic
really took care of third class.
If you traveled on any other ship,
you would have probably
traveled dormitory style,
and you would have brought your own food.
They wouldn't even give you beds sometimes,
just some hay to lay down on.
And then two buckets, one for the water,
one for your bathroom issues.
Third class was amazing for the people
from Europe, who expected
just to be crowded into rooms.
It made them feel, wow, we're really
getting special experience for our money.
NARRATOR: We're only
going to have one tier of ticket
aboard our ship.
But can we give every
passenger a first class
experience even when they're
traveling at breakneck speeds?
KIM CLIFFORD: I think we can
still ensure that our customers
on board the boat have a really fun
adventurous time with a
sense of romance and mystique
about being on one of our vessels,
but in the safety of the modern environment
with all of the necessary
equipment on board
to enhance their experience.
NARRATOR: So when it comes
to amenities our new Titanic
will have everything, luxury cabins,
restaurants, theaters, a gym,
and even a swimming pool.
But how are we going to keep everyone safe?
There were so many things that just
didn't quite fit that night.
JEREMY DUCHOW: There was no moon,
so it was incredibly dark out.
It was really hard to see.
Unfortunately, when they
saw it at 11:40, it was too late.
The officers had pulled the
wheel for a hard to starboard,
and it tried to pull around the iceberg,
but it just was not enough time.
And it scraped her
along the front of the ship.
It just hit the Achilles heel.
It didn't destroy two compartments,
it took out six of them.
It was designed to have the first four
compartments damaged.
However, the fifth compartment
is what will doom her.
Boiler room number six, once
that compartment was cut open,
there was nothing they can do.
NARRATOR: Can we be prepared
for the worst case scenario?
We're almost ready
to build our new Titanic.
We know it's going to be a
supersized catamaran assembled
out of marine grade
aluminum with jet engine speed
and state of the art impellers.
Let's just say everything
about it is going to be first class.
But we're staring down another big problem.
This is where Titanic sank 400 miles
south of Newfoundland, Canada.
This harrowing stretch of
ocean is known as iceberg alley.
Ever since the Titanic disaster
the International Ice Patrol
has been on active duty
here, because the best
way to protect against icebergs is
to know where the icebergs are.
STEVE KOCH: International Ice Patrol
is one part of an international
collaboration that monitors
the iceberg danger in the North Atlantic
and provides a relevant warning products
to the maritime community.
We started the ice patrol in 1913, because
of the tragedy of the Titanic
and have been executing
that mission ever since.
Over the course of 117 years
the way in which we've done
that has changed quite a bit.
It used to just be a ship
watching for the icebergs
to travel south and
counting them as they went
and warning the vessels by radio.
Nowadays we're using satellite.
We're using highly sophisticated models.
We're using aerial reconnaissance
from US Coast Guard c-130s
in order to find those icebergs,
and then generate a warning product
that goes out daily to ships at sea.
NARRATOR: It's a big moving maze that
needs year-round surveillance via radar
and airplane ice spotters.
Tracking every berg in an area larger
than the state of Kansas.
DON RUDNICKAS: We
cover a huge amount of area,
basically from the tail of the Grand Banks
all the way North to the coast of Labrador.
NARRATOR: Remarkably, since the ice patrol
began monitoring here no
ship has suffered loss of life
from ice.
Nothing speaks louder
than a century of success.
Thanks to the International
Ice Patrol icebergs
are a problem of the past.
But there's another Titanic
mishap we'd like to avoid.
Because of what happened to Titanic
there was many things that had to happen.
But probably the biggest
one is that all ships
had to have enough lifeboats
for everyone on board.
NARRATOR: Titanic had over
2,000 passengers and crew aboard,
but a lifeboat capacity of just 1,178.
They weren't too many safety
regulations in the early days
of vessels like the Titanic.
So they placed a lot of
emphasis on performance
and making sure that the
passengers were comfortable.
But in terms of the safety equipment
they were probably a token
gesture and not much more.
NARRATOR: But if an iceberg slips
through the cracks on
our transatlantic journey,
we've got a plan.
Just down the road from Incat's shipyard
is Life Raft Systems Australia.
MIKE GRAINGER: These days
the modern day Titanic would have
a very, very upmarket safety
equipment, including systems
like the systems we produce.
NARRATOR: And it would
look something like this.
MIKE GRAINGER: The system,
for example, that we produce
inflates within 60 seconds.
We can evacuate 100 people
within about three minutes.
So they leave the ship, go down the slide
straight into a large capacity life raft,
and then the life raft can be cut away
and towed away from the
sinking vessel if that's the case.
NARRATOR: And the nylon
plastic that canopies the raft also
provides life saving
insulation in even the most
frigid marine conditions.
MIKE GRAINGER: So
this is the very life raft
that we would install
on our new Titanic Two
along with our evacuation slides.
So again we would evacuate
a ship like Titanic Two very,
very quickly and very, very
efficiently without passengers
getting their feet wet.
NARRATOR: So we figured
out design, materials, horsepower,
amenities, and safety.
But how many people are we going to need?
And how long is it going to take?
When it came to building the Titanic,
it was the biggest
operation the city of Belfast,
Northern Ireland ever undertook.
Belfast was probably one of the most
busiest shipyards in the world.
The shipyard that would
have built the Titanic
would have had a staff of
15,000 people working on it.
So that's a very, very large shipyard
even by today's standard.
NARRATOR: Today's shipyards are leaps
and bounds ahead of the Titanic
thanks to modern technology.
But we'll still need to employ
a diverse team of experts
from the Incat shipyard.
GORDON STEWART: Those
people would be fabricators, welders,
but we also have the people working
in the design office, the stores
and supply people, purchasing.
NARRATOR: So how many people?
Approximately 500 to 600 people.
NARRATOR: We'll put it at 600 people.
But how long will it take?
Well, the first Titanic was built
in two years and two months.
So flash forward to the present and we've
got to be able to move
faster than that, right?
Yeah, so in the design phase typically
you're looking at three to six months.
And then construction can
be around the two year mark.
NARRATOR: So two and a half years?
That's longer than it took
to build the first Titanic
and that's not even
considering all the red tape.
STEWART WELLS: You have to
go through that approval process
and independent checks and things
like that, which obviously
adds to that time.
NARRATOR: All right, we'll
put it at three years then.
But how the heck are
we paying for this thing?
Titanic's business model was simple...
Stock the steerage cabins
and up charge for first class.
Well, in first class, the cheapest ones
are probably around $300
US back in 1912 or so.
And the most expensive, one
of the private promenade suites,
will be around $3,300.
Today's equivalent, your cheapest ticket
for first class to be around
$15,000, most expensive
run $125,000.
NARRATOR: Our experts
are split on the financial future
of this one.
I think from the perspective
of doing it as a challenge is
one thing, but to do it as a
passenger operation is probably
a different kettle of fish.
Absolutely, we have complete
confidence that this vessel
is commercially viable.
NARRATOR: We're left
in financial uncertainty.
Just how big is the final
price tag going to be?
And how are we going to pay for it?
So you want to build a
new Titanic, one that'll cross
the Atlantic in just 48 hours?
What would it take?
We're imagining a 21st century ocean liner
with a catamaran design, jet engines,
and luxury accommodations.
And it's going to take up to 600 workers
three years to build it.
So let's do it.
Step one, optimize the design
with state of the art modeling.
STEWART WELLS: We all
have computer programs, which
we can do virtual testing.
So we don't have to build a physical model.
NARRATOR: Step two, bring
that design into the shipyard.
But are we going to have
to rebuild the shipyard,
like they did the first time?
They were the largest structures
in the world at the time.
And the Northern Ireland guard was
completely reconfigured to
be able to build these vessels.
It took two years for the Harland and Wolff
to build the docks.
JEREMY DUCHOW: They built these two
gigantic gantries for Titanic that were
going to be built side by side.
They also built this
enormous gantry structure
to hold all the cranes.
It was about 11 stories high.
NARRATOR: Back in Tasmania, they're
already geared up with a shipyard
big enough to handle our build.
GORDON STEWART: We
have undercover workshop areas
with dried up facilities, everything
that's required to build a vessel
of this size and this capacity.
ROBERT CLIFFORD: And there aren't
too many groups in the world
that are capable of doing that.
NARRATOR: Our shipyard's in ship shape.
Our hull can start taking shape too.
While we wait on that, we'll tell you how
they did things a century ago.
When it came to construction
processes over 100 years ago,
it took a lot more work.
You didn't have as much
machine equipment to help
you really build things.
You first laid the keel and the tank top,
which is the lowest decks of the ship.
And then build the ribs along
the side, where they would then
install the shell
plating to create the hull
or the body of the ship.
NARRATOR: Back in those
days, steel boats were assembled
by a process known as riveting.
TONY THOMPSON: Riveting
was the predecessor to welding.
That meant a tremendous
amount of labor and work
to build these vessels.
Rivets were fired down
below in a coal fired kiln,
and then they were
thrown up to the shipwrights,
who would catch them in
buckets, and then insert them.
And a man on the other
side would peen the back
of the rivet, while the man on the front
was driving the rivet in.
There's at least four people for one rivet.
And there'd be millions of
rivets in one of these vessels
to be able to hold it all together.
I don't think I would
have liked it very much.
But they were learning.
Those people were learning.
They were right on the edge
of technology at the time.
NARRATOR: Today, all the
pieces of our aluminum hull
can be connected via a specialized welding
process called MIG welding.
A small metal wire is fed
through the welding gun
sparking and creating
enough heat to forge the two
pieces of aluminum together.
With the hull in place, our next job's
the same task as the bygone
boat builders of Belfast.
They still had to do what's
called outfitting, which means
basically installing all of her
mechanics and her interiors,
because she basically
was just a giant empty shell.
NARRATOR: We're outfitting
our Titanic with some seriously
heavy duty horsepower.
These are the 16 cylinder
engines from Germany.
Twin turbo chargers, after
coolers, all the mod cons
to make them efficient today.
Those engines are going to roll across
here, roll into the ship.
We take the seal away,
roll them down there,
and put the second engine in.
Two engines fit in this engine room.
MIKE GRAINGER: The type of arrangement's
never been done before.
So we had to kind of reinvent the wheel
as far as installation goes.
Once you've got it in there, you've
got all the hurdles of
attaching everything to it,
complicated pipe systems,
the exhaust systems.
So getting it all fit is
always a task all in itself.
NARRATOR: As the machinery gets hooked up,
we can begin installing our luxury
amenities and safety features.
When we're done, our Titanic will slide out
of its shore-side hangar
and hit the water en route
to its transatlantic raceway.
It'll be a shipbuilding celebration
unmatched for over a century.
BLAIR BEED: The day that
they launched the Titanic,
it was a clear day, a large, flat area
where crowds had gathered.
They had lined up all the workers.
And people would have
thought is it going to launch?
Is it going to launch?
The whistles start to go and more whistles.
And all of a sudden this
huge, huge hull starts to move.
And then, finally, it took up some speed,
and then hit the river.
And as it hits the water,
the cheers are even greater.
And the cheers would have
been heard right into the mountains
around Belfast.
NARRATOR: We did it.
A brand new Titanic to cross
the Atlantic in just 48 hours.
We built a catamaran style
and used ultralight marine grade
aluminum.
It's got twin gas turbine
engines decked out
with first class amenities and every safety
feature imaginable.
It took 600 people and three years.
But how much did it cost?
Well, the original
Titanic cost $174 million
in today's dollars.
So how big is our bill going to be?
Hundreds of millions
of dollars we're talking
about for a ship this size.
Ballpark figure for a ship
like this about $200 million.
NARRATOR: Time to pay up.
$200 million it is.
But can we make this a commercially
successful venture?
Our trophy winning inaugural voyage
is sure to make headlines.
And if we can drum up enough supporters,
we just may be able to
resurrect the golden age
of ocean-going travel.
You can still conjure up a feeling
of being one of these amazing
liners, that era of romance
and adventure on the high seas.
NARRATOR: Our Titanic may never live
up to the legacy of the original,
but maybe that's a good thing.
TONY THOMPSON: The loss
of the Titanic was a watershed.
Titanic has affected the
construction and design
of every passenger
vessel that operates now,
and that goes from small
table ferries that cross rivers
to ships that cross oceans.
NARRATOR: But for the
thousands that gathered in Belfast
to watch the original Titanic
launch to the millions who've
learned it's tragic and great
story to those who carry on
in marine technology,
the future of ocean travel
is being written.
MARY KELLOGG-JOSLYN: There are many ships
are much bigger than Titanic today,
but what she represented
was the inner self of our self,
something that kind of tugs
and awakens ourself to say,
hey, we can do something
even better and bigger.
NARRATOR: The Titanic we've imagined
shows we can fuse safety, luxury, and speed
on the high seas carrying passengers
on an age old route in a brand
new way if we built it today.