Making Ethylene (Refrigerant R1150)

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First off, huge thanks to Exotic Chem Lab for helping me with this video. He's provided me with the valuable information I need to create my own DIY cryocooler. He just started his youtube channel, which you can find at the link below:
/ @exotic_chem_lab
In this video, I'll be making Ethylene (also called "Ethene", but not to be confused with "Ethane") gas to use as a refrigerant in the second stage of a two-stage vapor-compression system.
Ethylene has the formula C2H4 (as opposed to Ethane, which is C2H6), and has a boiling point of -104C. However, at a pressure of about 16 bar, its boiling point rises to -37C. This means if i compress it to at least 16 bar and then cool it with the evaporator coil from my propane-based vapor compression system, i can force it to liquify, and then expand it in an evaporator to below -100C. This would technically qualify as cryogenic, at least according to US EPA specifications, which considers any temperature below -90C to be "cryogenic".
Typically, a cascade refrigerator would use R508 as its second stage refrigerant, but this substance is no longer produced for environmental reasons, so it's prohibitively expensive. This makes Ethylene the only practical alternative for a hobbyist. Ethylene is also sold as "R1150" refrigerant, but difficult and expensive to acquire in this form. In some countries it may require a license to buy.
Fortunately, DIY production is relatively simple. By boiling ethanol and passing the vapors over an activated alumina (Al2O3) catalyst, the ethanol molecule is dehydrated as follows: C2H6O = C2H4 (gas) + H2O (gas). The output gases are then bubbled through liquid water, and the steam condenses, leaving behind the ethylene gas.
The only catch is that the dehydration has to proceed within a certain temperature range. The optimal temperature for ethylene production is about 450C +/-50C or so. Once the catalyst drops below 350-400C, the majority of the ethanol becomes diethyl ether or (C2H5)2O. Above about 500C, the ethanol molecule starts to decompose entirely, producing pure hydrogen and pure carbon. For this reason, it's necessary to use a thermocouple in the catalyst vessel to ensure optimal temperature is maintained.
Ethylene has a very distinct smell that many people describe as "faintly sweet and musky". To me, the smell is very similar to rotting/overly ripe fruit. It quickly becomes nauseating and can cause dizziness depending on the concentration. A more serious hazard of this gas is that it has almost exactly the same density as air. This means if undisturbed, a cloud of highly flammable ethylene can sit in one spot instead of sinking to the floor like propane or floating up and escaping like methane or hydrogen.
For storage, i collected the ethylene gas in a beach ball then used a fridge compressor to force it into a 2.5 gallon (9.5L) air tank, which had been evacuated, flushed with propane multiple times, then evacuated again to ensure no explosive mixture would occur. This will then be fed into the low-pressure side of the second stage of my vapor compression system when it's built.
Music Used:
Fortaleza - Topher Mohr and Alex Elena
Lobby Time - Kevin MacLeod
Bossa Antigua - Kevin MacLeod

Опубликовано:

22 май 2024

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Комментарии : 724

@NileRed Год назад

Really impressive video!

@christopherwilliamson5433 Год назад

Nice seeing you here

@tpcqwe Год назад

Yeah

@blakes8901 Год назад

YES!

@funnylife7454 Год назад

Nice

@Cnzxco Год назад

Lol

@robmckennie4203 Год назад

one thing that absolutely shocks and impresses me about this channel is the pace at which videos are coming out, the last 6 months seems like years worth of work

@DoubleF3lix Год назад

yea this is nuts

@helldad4689 Год назад

Yeah this guy is going into like Applied Science level depth on this project and just absolutely cranking out the videos. It's nuts. Between the work and video editing, he's gotta be spending like 20 hrs a week minimum to get these out this fast. Insane.

@xmysef4920 Год назад

@@helldad4689 Indeed. Much respect to the guy

@EchoLog Год назад

Culmination of interdisciplinary interests and skills.

@xavierdemers-bouchard2747 Год назад

Yup. He's in the zone. Amazing and I'm grateful to get to witness it

@strykenine7902 Год назад

Dietary supplement for sea turtles f**king savage.

@flantc Год назад

That he says it so deadpan is perfect!

@allangibson8494 Год назад

And it’s actually a good food source - algae grows rapidly on the plastic particles which is not toxic to sea turtles… Large sheets or ropes of plastic (like fishing nets and six packs rings) do block their digestion however…

@CriticoolHit Год назад

@@allangibson8494 did you just argue in favor of-- You know what. Never mind. Next video.

@T3sl4 Год назад

@@CriticoolHit A good food source, perhaps; a healthy food source, well see, that's another matter!

@ATomRileyA Год назад

@@T3sl4 Its got electrolytes its what turtles crave...

@jhonbus Год назад

Absolutely love this video. As someone who got a degree in chemical engineering and therefore spent many, many, MANY hours learning every minute detail of designing and building plug flow reactors, understanding their governing thermodynamic equations, solving differential equations to characterise the fluid dynamics of the packed catalyst beds, understanding the materials science of the various alloys used to build them and the physical chemistry involved with zeolite-catalysed reactions, drilling down into details of details of details I never could have imagined existing before... It absolutely blew my mind to see someone casually building a packed-bed plug-flow reactor from plumbing parts and unspecified alumina beads in his garage, and the damn thing actually working! Seriously, well done! (Deep down I'm almost insulted by the fact you managed to get a decent yield without doing any equations to work out the reaction rate, and therefore flow rate and reactor length required 😂) I think your "missing mass" is probably unreacted ethanol and possibly some diethyl ether that makes it past the collector bottle (I'd call that a blowdown drum 😂) and dissolves into the bubbler water and or adsorbs onto your silica gel dessicant. The bubbler will probably catch nearly all the ethanol, and a bit of the ether (particularly as it picks up more ethanol) The burning of your collected liquid looks to me like it's due mainly to ethanol burning, nice and calm and blue. I'd expect ether to burn off much more excitingly if it were the major component. I suspect a good fraction (half?) of the diethyl ether your reactor produces is ending up in your final product and I would suggest trying to do a thorough job of removing it because it's just such an horrific fire hazard. Although its boiling point is like 35*C, it has an insanely high vapor pressure so most of it will stay as vapor at atmospheric pressure even when cooled below this. Even at 0 degrees its vapor pressure is something like 1/3 of an atmosphere so that's why I suspect you have a lot in your collected product.

@jhonbus Год назад

Oh, diethyl ether also has a sickening sweet smell, to me that's what it sounded like you were describing.

@jhonbus Год назад

Oh one more thing (sorry!) - I think your burner design probably needs more outlet holes or a more restrictive venturi inlet to work as intended. Looks like the flow in the pipe is stagnating because the outlet resistance is too much, so the pressure in the pipe matches the atmospheric pressure and the venturi can't draw in air. That said it might be for the best because it seems to do the job well enough, and unless you're quite careful with the nozzle design, there's nothing to stop the flame front moving inside the pipe if the mixture inside it is flammable. You can pack the pipe with some sort of metal mesh to mitigate this but obviously that creates a lot more resistance to the flow.

@leocurious9919 Год назад

Any idea how I could calculate the change in temperature in a PFR? Not something complicated, just a simple 1D-model (so everything symmetrical essentially) with a fluid flowing through a packed bed, resulting in a reaction given pressure and temperature. But this releases reaction heat, which is then not just spread within the bed (lets call it conduction) but is also transported along the PFR with the fluid. So the next section of the PFR sees a hotter fluid, which means faster reaction, so more heat, so section 3 gets even hotter etc. I have a python model with the reaction and everything, but how to calculate dT/dz (z = lenght)? Sorry for this random question, but I dont exactly often run into other chemical engineers that do things like that. I deal with rotary kilns normally, hence most of the things are known. But in a rotary kiln the fluid does not pass through the solid, so this side of things is, sadly, unknown to me. But I want to get a simulation running to prove (or disprove) something I once told a client... just a gut feeling, but it seems to make sense (that the heat can accumulate and cause issues). And yes, I know that this can happen in PFR with calatysts (have seen ex-molten catalyst in a ammonia reactor), but in this case it is a ad/desorption (for regeneration) or a Cu-Zeolith, so things are somewhat different.

@T3sl4 Год назад

Great info! A curiosity: does this reaction equilibriate much? -- would excess H2O shift the balance in favor of ethanol or diethyl ether? (Also for reference, what's the equilibrium constant at ~1atm?) Is diethyl ether dissociated to ethylene on further heating? Seems possible the flow rate is too high, causing uneven temperatures (lower at the inlet, and in the center of the catalyst fill) as well as not having enough dwell time for reaction. Hmm, excess diethyl ether vapor should condense at the bottom of the pressure vessel, for the same reason water does (when compressing atmosphere). Not as much, relatively speaking, of course, but it should be at least diagnostic.

@leocurious9919 Год назад

@@T3sl4 The reverse reaction, ethanol via hydration of ethene, is how a lot of industrial ethanol is produced. So that equilibrium will absolutely be shifted to ethanol with more water. The direction you take is endothermic, so heating helps both with reaction rate and conversion. The endothermic nature of the reaction actively helps reducing the temperature gradient in your reactor. However, getting a really isothermic reactor is essentially impossible. Even without any reactions happening, just moving a fluid through the reactor and ignoring radial gradients, you would have to adjust the heating along the length very carefully to get somewhat close. The equilibrium is highly temperature dependant, so I am not sure if one value would help you much. There are lots of papers on this... if you really want to dive into this and make some simulations. In any way, given your success, you dont need to waste any time on any of this. It works super good already. It is not like ethanol is expensive or you need scale production up 100x. You are not going to condense ether like that. It is mixed with ethylene, lowering the partial pressure. You would need very low temperatures to get most of it out of the stream. However, that would be a good idea as a step between the bubbler and the desiccant: Cooling it to... say -20 °C. And yes, for the same reason water condenses the ether will too once the pressure is high enough, since the partial pressure goes up too.

@senorjp21 Год назад

For your calculations, the mass you distilled from the flask of everclear wouldn't be 100% ethanol because ethanol and water form an azeotrope. A mixture of 8% water and 92% ethanol has the lowest boiling point, so that was probably what you distilled over. Making your own ethene is astounding. Impressive yield.

@rollei35mm Год назад

The azeotrope is actually 96.4% I believe

@wazaagbreak-head6039 Год назад

@@rollei35mm uhm ackshually 🤓🤓

@rollei35mm Год назад

@@wazaagbreak-head6039 I don't study chemistry to not be insufferable, hahaha

@djsnowman06 Год назад

@@rollei35mm yeah from my home um "experiments"... Can confirm 96% lol

@LordDragox412 Год назад

@@wazaagbreak-head6039 How do you mess that up. Like seriously, how? There's so many places where you could type that comment and be funny, yet you picked the one place where it makes *YOU* become the joke. That's honestly impressive, but not in a good way.

@TheHuntermj Год назад

Ether as a byproduct? This reaction keeps getting better!

@captainotto Год назад

"There is nothing more hopeless and depraved as a man on an ether binge."

@mduckernz 11 месяцев назад

@@captainotto I dunno about “nothing more” but yes it gets pretty depraved lmao. Feeling like a solvent plant definitely doesn’t help Edit: err, reeking. Not feeling. Well, that too I guess!

@captainotto 11 месяцев назад

@@mduckernz Hunter S. Thompson - Fear and Loathing in Las Vegas But even if you read the book or saw the movie, you can't be blamed for missing it because I butchered the hell out of the quote and failed to attribute it.

@ericlotze7724 Год назад

As an (Bio-) Petrochemical AND Open Source Hardware nerd who wants to be able to make like *all the things* at a community/makerspace scale, this is AMAZING! Granted may need to be modified etc, and some things require larger scale (i wrote some wiki page on this), but having this chemical at this scale is an amazing addition to the toolkit! Really neat video, keep up the great work!

@proaapopvp9648 Год назад

💀

@64-bit63 Год назад

Mee too

@ailijic Год назад

I wish my chemistry teachers had been half as interesting as you.

@ruddigger83 Год назад

As a refrigeration mechanic I love the content and interesting take on all this. I’m currently sourcing all the parts I need for a cascade system.. Keep up the great content 👍

@xappz Год назад

Wow, this is awesome! One thing that might improve your yield is actually pre-heating the ethanol vapor. It's hitting the catalyst at ~100C, so it takes the first few inches in the catalyst bed to actually get it up to 450C, so you're running with low selectivity on the first bit of the reactor. You could accomplish this by filling the first several inches with an inert material with a high thermal capacity to get the ethanol up to temperature so when it hits the catalyst it's at your target temp. Broken/ground glass should do the trick if you don't want anything fancy!

@anekdoche7055 Год назад

having a flammable refrigerant is literally killing fire with fire... brilliant

@paradiseisland69 Год назад

I like the editing especially the Minecraf joke.

@TheCanadianChemist Год назад

Very cool video! I suspect that the liquid you collected after passing the ethanol over the catalyst is mostly a mixture of water and unreacted ethanol. Diethyl ether is immiscible with water, and only slightly soluble, so you would expect to see a separate layer if an appreciable quantity of ether was produced. Ethanol is also less dense than water, but fully miscible with water, so this may explain the lower density of the mixture. A lower concentration ethanol/water mixture isn't super flammable though, so you may be right that there is a little bit of diethyl ether dissolved in the water which caused the mixture to ignite. If you distilled the mixture to determine the composition, I suspect you'd find that it is mostly unreacted ethanol and water. I'm excited to see you use the ethylene as a refrigerant and look forward to that video! Great job.

@JustAnotherAlchemist Год назад

Would be nice to se it fractionally distilled, just for the science.

@snapst Год назад

in my experience it smells more than diethyl ether and something else, and not like ethanol at all. also it can be oily and stick to the bubbler - so I hope you got your dog a new bowl.

@garbleduser Год назад

Could ethanol contamination allow ether to become missable in the aqueous solution?

@TheCanadianChemist Год назад

@@garbleduser ooh, very possible. Ethanol and ether are miscible. I agree that fractional distillation would be nice just to see what the composition is.

@bentboybbz Год назад

My IQ is for sure too low to speculate but maybe because of the way he heated the catalyst he had a range of temperatures at different places. Maybe a more consistent way to control temperature throughout the catalyst might help. Again I may not even be making sense I definitely am not even a novice.

@xavierdemers-bouchard2747 Год назад

Sir, I admire your pirate attitude. Can't be any freeer as a person than when you take simple chemistry and apply it carefully to obtain difficult to get components. Your thoroughness in calculating yields and identifying by products are a testament to your interest in handling this stuff safely. I want to be like you when I grow up.

@Preinstallable Год назад

It isn’t difficult to get, it’s just marked up so much by corporate greed.

@JohnDoeWasntTaken Год назад

@@Preinstallable I agree but also disagree, since something being marked up to prohibitive levels is the definition of difficult to get. For the average person, when they see their options of "shell out for "store-bought" ethylene" or "build your own packed-bed plug-flow reactor", they're probably going to mentally file that under "difficult to get".

@Preinstallable Год назад

@@JohnDoeWasntTaken Fair enough. Difficult to avoid paying exorbitant prices for.

@jamesfmforce6790 4 месяца назад

Math skills, hand skills, and strong problem solving. You are an impressive human, appreciate you sharing your world with us.

@davidwilliams5497 Год назад

I want to subscribe, but I feel like it’ll get me placed on some kinda watch list. Ehh, what the hell. These videos are worth it.

@victorreppeto7050 5 месяцев назад

I am so envious of your motivation to start and then work on and then complete such a long involved experiment and film it at the same time. Once again I can only say thank you.

@steveskouson9620 9 месяцев назад

That shot of your 2 stage system, caught my eye. Early last summer, our AC started leaking R 22 out of it. Compressor was leaking. So, I started running R 290 in it. (Well, not refrigerant grade, but BBQ grade.) One bottle lasted all summer, and the landlord was able to find a replacement unit MUCH cheaper, out of our "warm" season Phoenix Az. Bought a weedburner from Horror Fright, cut the line, cut a line on my cheap set of AC gauges, and shot some R 290 in. Left the tank and gauges under the AC, so I wouldn't be carrying them up and down. At least once a week, or more often. steve

@BulkierFive921 Год назад

I’ve been following this closely. I do HVAC Service for work, and have played with my own R290/Propane system before that had great results. I built my own tiny little system from scrap Dehumidifier parts, and I’ve also used it in a Window AC for shiggles. Both worked great! I’ve got so many random parts, this project seems like something I should try myself!

@BulkierFive921 Год назад

I also have a small collection of old refrigerators. I have a GE DR1 Monitor Top which is the “first” electric home fridge. It uses SO2 as refrigerant and that stuff is nasty. I do not want another whiff of that. I had to dispose of that with a bit of simple chemistry, and the perfect replacement refrigerant for the thing is R152A aka Air Duster cans! I ended up having to fix a leak in the bottom of the compressor, and I’ve had it sitting with 150psi of nitrogen in it for probably 6 months now. Can’t wait to fill it up again and get it cooling

@teresashinkansen9402 Год назад

Some CPU overclockers have made the craziest cascade systems ive seen, there is a guy who made a 3 stage one with methane as refrigerant in the 3rd stage and he was planing to add some other gases to the 3rd stage to lower even more the temperature, if i recall correctly he wanted to use a mixture of methane with a bit of argon to go below -170C°

@StephanAhonen Год назад

Is silicon even a semiconductor at those temperatures???

@teresashinkansen9402 Год назад

@@StephanAhonen Yeah, they even use liquid nitrogen but they usually have to start the CPU at higher temperatures else it crashes, I don't know exactly why but it happens.

@poprawa Год назад

@@StephanAhonen This is cooling stack temperature, not silicon. CPU is not conducting heat internally to get anywhere near those temps

@quint3ssent1a Год назад

@@StephanAhonen dont forget that it's all done to dissipate heat from overclocked CPU.

@Assault_Butter_Knife Год назад

But... why? Isn't there a preferred temperature for CPUs to operate at which they are the most efficient? Wouldn't -170c just brick it because it's not designed to operate at those temperatures? Aren't electronics in general less efficient at colder temps?

@axieman6196 Год назад

thanks man, after watching many of your videos I feel like real ice wizard

@danielrugeles1103 Год назад

Bro this is my favorite RU-vid series so far. Can’t wait for the next episode!

@hamadaag5659 Год назад

This is really interesting since a way of creating ethylene that I'm familiar with (and you kinda hinted at it in the beginning) is using sulfuric acid, the entire reaction uses sulfuric acid heated to 180°C: Ethanol ---(H2SO4 @ 180°C)---> ethylene + water you can see the benefits of that since it requires a much lower temperature that the method you used. Interestingly enough you could also use the same setup but at 140°C to make ethers as well and I think Neilred used it to make diethyl ether from ethanol quite a while back.

@jhonbus Год назад

I'd be really wary of using the sulfuric acid method because it's also very likely to generate some amount of diethyl sulfate, which is a strong alkylating agent. Very toxic, very carcinogenic, very very nasty.

@snowdaysrule Год назад

@@jhonbus Good call. Apparently diethyl sulfate can be made by bubbling ethylene gas into hot, concentrated sulfuric acid so this really is a valid concern.

@cyborgninjamonkey 3 месяца назад

I was going to mention this. I've used this plenty of times with various alcohols (think I managed acetylene from 1,2-propadiol with a peroxide kick once) and it's got so many advantages on laboratory scale. You just need a flask, a heat source, and sulfuric acid; they only need be good enough quality to get the job done; and you can use all of the components for whatever else you want if you're satisfied with your alkyne gas situation because there's no special apparatus. PS: yes the sulfate ester byproducts are carcinogenic as hell they're alkylating agents, if you're collecting the alkene gas you're making for non immediate use or making enough that alcohol addition dropwise is too slow, you need to run the output through alkali before getting your mortal, cancer vulnerable fingies near it.

@georgeh5075 Год назад

Subscribed when I saw the thumbnail... No regrets.

@TimNeumann Год назад

I'm so desperate for the next video, that I'm watching this a second time now.

@Pr0xy_xx Год назад

Been watching this channel for a while but this project has made this my all time favorite channel. I've wanted to make a cryocooler for a while now and the amount of information with detailed explanation of the build and data analysis is GOLD. Can't wait till you get your first drop of cryogenic liquid!

@DJ_Ravioli Год назад

As a researcher working in steam reformation you absolutely nailed it. Gas heated reactors can be very hard to tune and can give all sorts of weird results due to the larger temperature gradients. The second batch also looks like you may have started reforming. The water gets used in the water gas shift reaction to make H2 and CO2.

@BDJones055 Год назад

Bro I don't understand a word that's that but I love watching this series.

@poshhippie6446 Год назад

I always wanted to do this exact process for RU-vid for the same purpose, I'm glad someone beat me to it!

@tehlaser 4 месяца назад

Loving your graphics and editing, btw. The style jives well with your deadpan without getting in the way of clarity.

@philosothink Год назад

I worked for a rural HVAC company for 23yrs, and my boss passed away, so I took over. I'd been putting off my EPA test for 18yrs. I studied for two weekends, paid the $50 and passed it. It's an easy test, and the license is forever.

@Ariccio123 11 месяцев назад

Oooh what's the test called? Maybe I'll study and take it just for shits!

@venuccicze2181 Год назад

Your projects are so fun ❤

@lokiaverro4196 Год назад

Awesome video- kinda funny to see the combination of "low tech" gatorade bottles with "high tech" custom printed brackets. Thanks for the interesting video and clear explanations!

@1spaghetti32 Год назад

This channel is amazing! Nice work!

@ericlotze7724 Год назад

Granted *Money* but having a good hit of basic Glassware, and *maybe* some sort of Spectroscopy (You can make one with a Raspberry Pi Camera quite easily, or buy a legit one used/that OpenRaman kit) would be very useful! The glassware especially wouldn’t be *too* expensive, and being able to do high quality distillation + bottling on your own would be VERY useful. Having spare Diethyl ether suddenly isn’t such a bad thing!

@kennethperez4221 Год назад

congrats on your ethylene creation. love the videos! keep them coming

@travisgriggs Год назад

These videos are great. Nice work!

@tinwhisperer Год назад

great video series! thank you for taking the time to put together these videos.

@bobedwards8896 Год назад

I appreciate u sharing this with us, love these videos.

@davidmartens6401 Год назад

I love deep dives like this. Definitely unique methods.

@lumotroph Год назад

Brilliant work! Keep it up, I could watch these all afternoon

@editopic7169 Год назад

Very nice setup!

@mandardeodhar400 Год назад

Amazing work and very well presented. Thank you.

@blakewendland8378 Год назад

I’m obsessed with this project! Can’t wait for the finale!!

@belminzuljko1043 Год назад

I really enjoy your videos, thanks!

@niemam5825 Год назад

Dude... just... big respect!

@wesameldinelshafey3032 Год назад

Always wonderful I wish you this forever💪

@PJ3721 Год назад

Your an absolute mad man and I love it! Subscribed!

@alex4alexn Год назад

This is the best experiment series on youtube, i cannot wait to see your next cooler design and to really get those low temps

@EvocativeKitsune Год назад

Wow, you make this look so easy!

@mangeshgaikwad345 Год назад

amazing dedication 👌

@xDevscom_EE Год назад

Cool, thanks for video. There are also "autocascade" phase-change systems, using mix of different refrigerants while using the same compressor in system. Polycold is (was?) one of the famous manufacturers of such systems for industrial use. You still need oil separator, compatible refrigerants and some heat exchangers for system to work, but at least don't need additional compressor. Oil separator is needed for reaching low temperatures, otherwise it will freeze up and clog the capillary tube restriction.

@per995 Год назад

It is a lot of cold storage brands out there, mainly running at -152C. Using auto cascade as you mention, but very few use a single stage system. The first stage pre-cool the auto cascade second stage system. Horrible pressure even with two stage due to the high pressure gases time to reach a condensation temperature. Often two oil separator in series and capillary tube heaters kicking in on cycle off periods by a timer to clean oil off the tubes. Very expensive gas mixtures on them with critically share of the gas un the mixed blend and the total amount.

@Ma_X64 10 месяцев назад

A truly engineering approach to the task! Beautifully done!

@philthompson9633 Год назад

I’m impressed. Your engineering , chemical and mechanical are truly spot on.

@guillaumecharbonneau3014 5 месяцев назад

Very nice video. Love what you do.

@EnigmaScience Год назад

Found your channel a couple of days before and watched all of your videos with great pleasure. It's so nice to see someone explaining such complex topics and building real-life working prototypes. Thank you for making videos at such an incredible pace, but please, don't get burnt out from such an overwhelming load. Wish you success in all your experiments and steady growth to your channel. You definitely deserve a million subs at least!

@Scott-hf2qz 8 месяцев назад

I love how clear and concise your explanations are. Nerdy science stuff is awesome. :D

@bkopietz 7 месяцев назад

Love this. I was building a cascade system just like this about 15 years ago. I wasn't able to find a source of ethylene. Before I got that far, I got a severe frost bite on both hands from a propane leak in the first stage. I wasn't able to use my hands for 2 weeks. Be careful!

@chewenio-pz5km Год назад

YOU MAKE SOMETHING SO EASY EXTREMELY COMPLEX. JESSH!

@oddzc Год назад

Love this content so much and your dry sense of humour.

@alexfunke214 Год назад

Superb analysis of process. Good science! Thanks

@cetyl2626 Год назад

Wow! The videos keep getting better!

@oak_meadow9533 7 месяцев назад

I love that gasometer!😊

@mrmatt2525able Год назад

Amazing work

@derekturner3272 Год назад

So happy I found this channel! Very cool project, narrated at a pace that keeps you 100% focused with no fluff. Wish I could give more than one thumbs up!

@Yannique1 Год назад

Thank you for the very interesting videos!

@rushoffman965 Год назад

I am so excited for the next part!

@Human950ff Год назад

using animations in the video is a nice addition

@EpicManaphyDude Год назад

this is cool asf. i’m here for the long run man. you got it!

@adelinyoungmark1929 Год назад

I think for a better way of controlled heating would be some kind of resistance heater with a PID controller, youd make a heater that would surround the catylyst pipe and the thermocouple would control the heating better than a fire. a way I would think of doing this would be making a open ended tube heater where you can add fire bricks with holes drilled in them for insulation that are the diameter of the catylyst pipe. would be better if you want really precise and even heating.

@markus4334 Год назад

Magnificent channel !

@demandred1957 Год назад

Dude, thats dope. I got a old two stage system that needs a refill.

@Allan_aka_RocKITEman Год назад

Great video, HP...👍

@snapst Год назад

smell-test is not a great thing for cancerogenic anesthetic, but it works. I've made ethylene with the same method in lab, with just a butane torch heating it. FTIR showed almost complete conversion and MS showed lots of ethanol with the gas. your cleaning steps are very nice. i did run my catalyst in quartz tube, so i could eyeball the yellowing of the catalyst, and ethanol I evaporated in the same quartz tube from mineral wool. but I did not need 60 liters. Good Luck!

@Exotic_Chem_Lab Год назад

Nothing is carcinogenic here

@MikrySoft Год назад

@@Exotic_Chem_Lab I wouldn't be so sure, maybe the OP is in California?

@jonasghafur4940 Год назад

There is no evidence for carcinogenicity of diethyl ether, and no reproductive effects have been reported. Chronic exposure to diethyl ether vapor may lead to loss of appetite, exhaustion, drowsiness, dizziness, and other cns effects.

@327efrain Год назад

I have zero desire to do anything in these videos but I am hooked. Saw this video just came out so I subscribed cuz I want to see what your home made system can accomplish

@allawa Год назад

Just stumbled across this video which led me to your channel. Very good videos very informative and funny at the same time

@37gang37 Год назад

like always this channel deserves a instant like 🎉

@rockapedra1130 4 месяца назад

Very cool. It worked and didn't blow up. A+

@bobr9731 6 месяцев назад

Amazing video. Thank you.

@mishun Год назад

Jeez, I wanted to try something like that for a long time. Great project! 16:25 you may try to liquefy it by combination of dry ice and elevated pressure --- a few bars should be enough. The important part is not to blow the vessel up as it heats back up :)

@Rakuza780 Год назад

Cool video, fyi in your last video you had a heat exchanger, if you reverse the flow on one side you'll increase your effciency using contraflow cooling which uses "warm" coolant to pre-cool the "hot" coolant and cold coolant to chill the "warm(previously hot coolant)" down could gain you a few % in effciency for a change of plumbing

@miklov Год назад

Inspiring and great content! Thank you!

@FrostMonolith 8 месяцев назад

I was not expecting that you stole your dog's water bowl that made my day.

@karstenkunneman5219 Год назад

I've seen plenty of DIY chemistry, but I think this is the first time I've seen DIY chemical engineering

@za.z.6061 Год назад

Great explanations!

@mafiosomax7423 Год назад

This is a really impressive project. I like your scientific approach and it really shows in the complexity of the projects you seem to be able to accomplish with ease. Really really stoked to see you liquify nitrogen soon!

@ishigamiyu1991 Год назад

I absolutely love this guy

@MrZendor 6 месяцев назад

I enjoy projects like this. Nice to see the home creation of products. Overall, this process has it challenges. But, not too many to make difficult to produce.

@Its-07 Год назад

Greatest knowledgeable videos ever۔۔۔۔❤

@jeffmorrison5834 Год назад

This is fantastic and interesting!!

@solexxx8588 Год назад

You can get to -120 C if you run the evaporator in a small vacuum. Ethylene is an excellent Industrial refrigerant used primarily for catalyzed polymer reactors that contain very exothermic reactions. Very cool! lol

@realcygnus Год назад

Nifty ! Even though I know very little about chemistry I'm sure enjoying this series.

@anbumohan04 Год назад

Bro, love your channel 🎉

@andrewhaychemistry Год назад

Love the chemistry calculations. Hydrogen is really good at diffusing right through many solid substances. I'd guess most of your hydrogen will have bled out through the walls of the beach ball, especially over the course of an hour waiting time.

@Kris-fd9xs 16 дней назад

I think for tube furnace reactors it's preferred to use electric heating: wattage can be adjusted to precisely manage temperature, everything wrapped in glass wool etc to keep it efficient. Nice video !

@clownbooface2624 Год назад

Your videos are very educational with a hint of entertainment, I look forward to singed eyebrows from knowledge gained here😁

@friball8728 Год назад

Very informative, now I wanna try...

@newtonbomb Год назад

Great video, can't wait for the next in the series!

@Skulljeep00 Год назад

As an HVAC EPA Certified tech for diesel truck refrigerator trailers, i thoroughly enjoy this! I can probably get a high output 1994 unit for 1200.00 USD at LKQ... that's actually not a bad idea come to think of it... Some of those units use the R508, so if you had the opportunity, one could theoretically find a place that is decommissioning the retired units and offer a free service to recycle/dispose of the refrigerant for the yard, and then collect enough of what you need as well. Granted not everyone has a recovery system that can store used Freon, i get that.... Just a thought.