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  • Nitrogen is everywhere.

  • It's a fundamental building block of life.

  • It makes up 78% of the atmosphere, AND it's in these tiny micro bubbles,

  • in my Starbucks 'Nitro-Cold Brew.'

  • And yes, this episode is sponsored by Starbucks.

  • They challenged me to liquify nitrogen out of the air,

  • and that's what I'm gonna be doing in this video.

  • But first I'm gonna try Nitro Cold Brew for the first time...

  • [Drinking the nitro cold brew]

  • Mmmm

  • It's subtly sweet without having to add sugar,

  • and obviously it's cold and frothy,

  • and I'm gonna explain why nitrogen makes this possible.

  • But first I'm gonna try to liquify some nitrogen for myself out of this atmosphere.

  • Come on, let's go.

  • Okay, in order to make liquid nitrogen,

  • we need a way to make the air really cold.

  • And to do that, I'm going to use this cryo-cooler.

  • So essentially what's inside here is a cylinder of helium and a couple pistons.

  • There's a piston that compresses the helium down into this section,

  • and when it does that, it makes that gas really hot.

  • And so, that heat gets ejected to the surroundings through this heat sink.

  • Then the helium is expanded down in here, and as that happens, it gets really cold.

  • So it absorbs the heat from the surroundings.

  • So this is the part of the cryo-cooler that is going to get down to less than -200°C.

  • So cryogenic temperatures.

  • This is the place where we can really liquify some gas.

  • So, I want to put this to the test

  • and first do a sort of simple proof-of-concept and make sure that this is working

  • and just try to liquify air,

  • liquify the air in this room.

  • This is Allen Pan.

  • Allen is handier with tools than I am,

  • so uuh, I brought him here to help me make this happen.

  • How should people know you, Allen? Like what do you get into, what's your thing?

  • Allen: I'm a failed Mythbuster,

  • and also I have a YouTube channel called "Sufficiently Advanced".

  • Derek VO: You may know Allen from his creations and,

  • relevant to this project, shooting liquid nitrogen from his hands.

  • [Allen laughs]

  • Allen: I'm definitely breaking your drill by the way >D: I see that :) I see that.

  • Did I measure this correctly?

  • Let's see.

  • Does it go in and stop right there-

  • Oh my God!

  • Look at that!

  • Perfect!

  • Derek: So now, let's turn it on, and you can listen, you can hear it turn on.

  • Ohhhh, the pump is starting.

  • Allen: Its purring.

  • [Elevator Music]

  • This is the moment of truth:

  • been running the cryo-cooler for about 4 hours.

  • Hopefully getting some liquid air in there.

  • Allen: I bet you 50 bucks there's at least 50 millilitres of liquid air in there.

  • Derek: "50 millilitres."

  • D: Sir?

  • Allen: That's not even that much.

  • Derek: It ISN'T even that much,>< but I will be amazed if it happens. > Allen: It's like a whole-

  • Allen: Oh, that- that's 50 millilitres, right there. Derek: I bring you a 50 millilitre beaker.

  • Allen: Do you feel any sloshing??

  • Derek: [Whouf!]

  • [Slight sloshing]

  • Allen: I hear something..! >I hear something!< Derek: Oh ohoh >< oh oh!

  • Allen: I HEAR something.

  • Derek: I can hear liquid

  • D: We have made liquid air.

  • Allen: That sounds like... Derek: How much have we made?

  • Allen: 50 millilitres.. Derek: Is that how much we've made? Allen: ..of liquid air!

  • Derek: OooohH..! Cameraman: Oh hoho hoh! Allen: 50! 50!

  • Allen: OOOhh!

  • A: Dude, that's 50 ml of liquid air.

  • Derek VO: I know it doesn't look like much, but to make 50 ml of liquid air,

  • we needed to condense around 35 litres of air from the room.

  • Derek: What's funny to me is I've done a lot of experiments with liquid nitrogen,

  • but this feels like the most precious... [Allen laughs] liquified gas that I've ever had

  • because we made it ourselves.

  • There was more than 50 ml.

  • Allen: I know we didn't shake on it, but you definitely owe me $50.

  • Derek: I definitely do.

  • [Allen erupts with laughter] [Cameraman chuckles]

  • Derek: 'Cause that's impressive from just a few hours!

  • Y'know, running it for the first time.

  • Derek VO: Liquid oxygen is paramagnetic, which means it's attracted to permanent magnets.

  • I'm going to use this effect to try to extract some liquid oxygen.

  • Derek: Something came out. Allen: Hey, dude, you got it!

  • You got some. Derek VO: See that droplet at the end of the magnets?

  • To make sure it really was liquid oxygen, we tested how it affected a flame.

  • Allen: Yeheheha!

  • Allen: So that's 'for-sure' oxygen, that is liquid oxygen.

  • Derek: You can see how the matchstick REIGNITES with the liquid oxygen,

  • and the flame spreads towards the higher concentration of oxygen.

  • [Allen laughs]

  • [Low-pitched squeaking and chuting sounds emanate from the flame]

  • Derek: Ohh!

  • [quiet Alien Chestbuster squawk/click sounds emanate from the experiment]

  • Allen: Whwch!

  • Derek: There you go, we have made: liquid air.

  • Next step: remove the oxygen, and just make liquid nitrogen.

  • [Allen wheezes with laughter]

  • Derek: Okay, it is day two and time to scale up.

  • We are uh, moving the cryo-cooler to a bigger stand.

  • Allen: Should I just go? Derek Behind Cam: Yeah, go for it.

  • Allen: I'm putting a lot of sawdust into your-into your carpet.

  • I'm sorry. Derek: [chuckles] That's okay, Allen :)

  • [Allen laughs lightly]

  • [Chugging, whirring and banging spark sounds]

  • Derek VO: To make pure nitrogen, we need pressurised air.

  • So I've got an air compressor here in the garage.

  • Derek: The pressure of this compressor is about 10 'atmospheres'.

  • So I'm going to pressurise this line here...

  • behind cam: Now the first thing we've got on the line is...

  • a filter to remove.. water vapour.

  • And to get pure nitrogen, this is the key component.

  • It is a nitrogen membrane,

  • and what it actually contains is a bunch of hollow polymer fibres.

  • And so we supply compressed air in this end,

  • and all of the gas molecules try to diffuse out of those fibres because of that high pressure.

  • But:

  • these polymer fibres are made out of a material that is

  • SELECTIVELY PERMEABLE.

  • It allows oxygen and carbon dioxide and water vapour to diffuse out much faster than nitrogen.

  • And so, those gases actually come out preferentially through these holes.

  • So what you're left with at the end is a high concentration of nitrogen.

  • And to get the highest purity,

  • what you need to do is have a very high pressure and a slow flow rate,

  • because that gives a lot of time for those other gases to escape.

  • Derek: Whoo!

  • D: I don't know about this gauge.

  • [Allen laughs]

  • Derek: So what I want to count on the watch is how long it takes to increase the pressure in the tank.

  • Well, we worked it out yesterday

  • and we figured out if it takes six minutes to fill the tank...

  • at 100 psi (pressure per inch²), then we've got 98% pure nitrogen.

  • Allen: Cool, perfect.

  • Derek: Right, we just have to be very slow with this tank filling

  • and I don't know if we ARE that slow.

  • We're going to try to check the oxygen levels that have come through this membrane.

  • Allen: Let's put some money on it.

  • How about 50 bucks says the oxygen is less than 5%. (

  • Yeah? Derek: Are you gonna bet that?

  • 'cause I will easily take that bet. Allen: Yeah. All right

  • Derek: I don't think this went very well because that was the first filling of the tank,

  • so we weren't high pressure going through the membrane.

  • So I don't think it's going to be...

  • Allen: I think we're getting 95% nitrogen. Derek: 95% nitrogen

  • So this meter measures oxygen.

  • So we're looking for a number less than 5%, which I suspect we will not see.

  • D: Huuh.

  • D: Can hear-

  • [BEEPING] Allen: Oh, it going down! D: Whoa! A: It's going way down. D: WHOA!

  • [BEEP BEEP]

  • Allen: Come on 5%! Fi- Ohhhh...!

  • There it is! Derek: Whoa!

  • D: Here we go 99. Allen: Over 99%, 99.2, 99.3

  • Derek: Whoa, I am shocked. Allen:There is no oxygen in this air, baby, it's all nitrogen!

  • 99.5. Derek: I am so shocked right now!

  • Allen: So we're at 50 bucks for the liquid air bet? Derek: Yeah

  • Allen: We're at 50 bucks for the oxygen. Derek: Yeah, you just have made yourself 100 bucks.

  • Look at that, 99.7..!

  • Allen: ..% nitrogen!

  • Derek: This is insane,

  • and you can understand why there would be an alarm if, uh

  • [Allen laughs]

  • you were in a room with

  • Both: 0.3% oxygen.

  • Derek: Yeah. Allen: I knew it. I told you.

  • Derek: You knew that you would win. Allen: Didn't I tell you? Yes!

  • Derek: Okay. So we've achieved, I guess, the second part of this,

  • which is isolating nitrogen from the atmosphere.

  • And now we just have to... Allen: Get it super cold.

  • What we got to do is we got to put this thing.. here.

  • Derek VO: For better insulation, we scaled up to a dewar.

  • Derek: That's impressive.

  • Allen: Kinda sci-fi, janky garage, sci-fi kind of a look.

  • Allen: Go ahead and lower that.

  • You know just squish right on. Derek: I hope.

  • Allen: I mean that's sealed, y'know.

  • [Derek laughs]

  • Allen: I think, uh, honestly? We could just turn it on and see if it works at this point.

  • Derek: Do it.

  • Just letting some nitrogen in there,

  • so that when the nitrogen goes in there, it'll push out any...

  • remaining air that's still in the tank.

  • Derek: Gonna switch on the 'variac' which powers up the cryo-cooler.

  • The other thing I need is the fan...

  • A: Yes. D:This is the fan.

  • I'm going to plug THAT in.

  • That's a cooling fan of the cryo-cooler.

  • We're up to 8 Watts.

  • Allen behind cam: OoOooOh!

  • [More Elevator Music]

  • Derek: Okay, I have been running the nitrogen setup for about

  • 3 hours,

  • and my concern - because the temperature on the thermo-couple never got very low -

  • was that I wasn't actually making any liquid nitrogen.

  • So I've stopped the test and I just want to see...

  • whether or not there is anything in here.

  • Doesn't sound like it.

  • [Pant-laughs]

  • Nothing..!

  • Huh.

  • What I think could be part of the problem,

  • I was putting nitrogen possibly at a rate that's too high.

  • So this is effectively nitrogen coming in at room temperature.

  • And I wonder if it was just too warm for it to ever reach

  • the liquifying temperature right here at the end of the, uh,

  • the cold finger of the cryocooler.

  • So I feel like I need a slower flow rate,

  • maybe a better way to introduce the nitrogen into the dewar.

  • Not- as- easy as I'd hoped.

  • Okay, my plan is to go with a smaller flask,

  • ..something like this

  • and, we are going to use its lid to make a nice tight seal.

  • Except we're going to cut a hole through the top.

  • Allen: I think it's good enough for this coldfinger.

  • Derek: Alright.

  • Then we're going to try to drill a hole in the side for the supply of nitrogen.

  • We need to make nice tight seals around both of those things.

  • So that is going to be the challenge.

  • This is the kind of- the new design here that we've got.

  • [Allen giggles]

  • Derek: I feel like it's pretty good.

  • Allen: I think it's going to work.

  • I think we're going to wake up, and there's going to be liquid nitrogen in there.

  • [Yet more Elevator Music]

  • Allen: I bet you $160 that there is liquid nitrogen in there.

  • Derek: I don't know if I'll take that.

  • [Allen laughs uproariously]

  • I'm gonna turn down the cryo-cooler.

  • Aaand..

  • let's see what we got..?

  • It looks cold.. Allen: Yeah, there's definitely some condensation.

  • So there's something cold in there.

  • What do you see?

  • Both: OHHHH!!!

  • Allen: THERE'S LIQUID NITROGEN!

  • Derek: Haha! Allen: There's like,

  • There's like THIS much.. That's liquid nitrogen!

  • D: We have: some liquid nitrogen out of the air.

  • Allen through laughter: That was so much effort for this much...

  • Derek VO: So, what do you do with homemade liquid nitrogen?

  • Well, make homemade ice cream.

  • Just a bit of cream and sugar, and then the liquid nitrogen.

  • Derek: The most precious liquid nitrogen I've ever had.

  • Is it enough to make ice cream?

  • Come have a look, have a look.

  • [DRAMATIC PAUSE]

  • That is delicious.

  • By freezing everything so fast, because it is...

  • -196 Celsius, you get really small ice crystals.

  • And so that gives the ice cream a really smooth flavour, smooth texture.

  • (Can Allen have some?)

  • In a lot of stores, Starbucks too generates nitrogen just out of the air, because-

  • Why not? It's an available resource.

  • They purify it and then infuse it inline into the drink,

  • creating millions of those tiny bubbles.

  • That gives it its unique texture.

  • So nitrogen bubbles are much smaller than the bubbles you're normally used to:

  • the carbon dioxide bubbles that you find in soda.

  • And that gives this a sort of creamier texture.

  • The other nice thing about nitrogen is that it's totally inert.

  • So it doesn't react with the drink.

  • CO2 reacts with water creating some acid, which you might like in soda.

  • You might want a little bit of a sour tangy flavour, but you don't want that in coffee.

  • Hence, the nitrogen.

  • One thing I found really interesting when they were pouring

  • this Nitro Cold Brew is that you can actually see bubbles coming

  • down on the sides of the glass!

  • And that's strange, because these bubbles are obviously less dense than the coffee.

  • They should be rising up to the surface.

  • So why are they doing that?

  • Well, the answer is the nitrogen bubbles are rising up to the surface a lot

  • in the center of the drink.

  • And so that actually creates a current that pushes them down around the outside.

  • And so that's why you see those bubbles cascading down at the beginning

  • when you're pouring the Nitro Cold Brew.

  • So there you have it: nitrogen is everywhere and useful for lots of things.

  • If you want to try out a Nitro Cold Brew,

  • I'll put a link to order it down in the description.

  • And thanks for watching.

  • [Outro Sound FX]

Nitrogen is everywhere.

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