JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
Hydrogen
What is the most common source of hydrogen for hydrogenation reactions? It can be generated easily enough (Zn + HCl), but I think it could be tricky
to regulate the pressure with a hydrogen generator.
I'm a little bit reluctant to buy a cylinder because hydrogen is an expensive gas in my area (several times more expensive than helium), and I'm not
100% sure that I can buy one as an individual.
|
|
RogueRose
International Hazard
Posts: 1594
Registered: 16-6-2014
Member Is Offline
|
|
Wouldn't Al be just as good if not better than Zn for generating H2? How much do you need to store for a use?
I was wondering the same thing one time and when I was cleaning up I came across a yoga ball that was deflated. Those things could probably hold a
good bit for a short period and at a pretty decent pressure.
|
|
JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
Quote: Originally posted by RogueRose | Wouldn't Al be just as good if not better than Zn for generating H2? How much do you need to store for a use?
I was wondering the same thing one time and when I was cleaning up I came across a yoga ball that was deflated. Those things could probably hold a
good bit for a short period and at a pretty decent pressure. |
I'm sure Al would work fine instead of zinc, and it's more readily accessible too.
The yoga ball is an interesting idea... a 36-inch weather balloon will hold more than 15 moles of gas....
|
|
JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
The more I think about this yoga ball idea, the better I like it. You could even regulate the pressure by putting weights on top of the ball (psig =
weight / surface area of the ball).
|
|
CharlieA
National Hazard
Posts: 646
Registered: 11-8-2015
Location: Missouri, USA
Member Is Offline
Mood: No Mood
|
|
JJay - if that's your lab assistant, I don't see how you get anything done. I know I never had a lab assistant like that (I'm not sure I got much done
anyway).
How would you fill the ball with hydrogen from a generator? Would you begin with a deflated ball and fill it to ~1 atm pressure? Or could a diaphragm
pump be used to inflate the ball to a higher pressure?
I remember, many decades ago, a buddy and I generatred hydrogen with Al from old IF transformer cans and lye. We filled several small balloons with
hydrogen and let them go with a postal card attached. The finder of the balloons was a couple of hundred miles away, and reported that he found the
balloons "on a weed"!
|
|
zed
International Hazard
Posts: 2283
Registered: 6-9-2008
Location: Great State of Jefferson, City of Portland
Member Is Offline
Mood: Semi-repentant Sith Lord
|
|
Umm. https://www.ebay.com/itm/250ml-Kipp-Hydrogen-Gas-Generator-K...
Used to be, Kipp's was the way to go.
More recently, Dr. Brown devised a method that used a mercury type pressure valve, to regulate the flow of NaBH4 solution into an acid solution.
A schematic of "Brown's" device is included in this paper. I investigated purchase of a "Gasimeter", but it isn't a common device. Might have to
make your own. https://pubs.acs.org/doi/abs/10.1021/jo00909a038
Seems to me, a standard GC hydrogen generator can be pressure actuated, also.
All systems are self regulating.
Problems are: Kipp's is kinda messy. And, how "clean" is the hydrogen?
Brown's method is awesome, and clean, but it requires a special set-up, that most folks don't have...... AND, NaBH4 is just too expensive, unless you
buy it in bulk.... Like about 50 kilo's or so, at a time.
The GC Hydrogen generator is available, and it produces "clean" Hydrogen, but it tends to cost about $1000 U.S. Dollars for a nifty, used, unit.
https://www.ebay.com/sch/i.html?_odkw=gc+hydrogen+generator&...
[Edited on 23-9-2018 by zed]
[Edited on 23-9-2018 by zed]
[Edited on 23-9-2018 by zed]
[Edited on 23-9-2018 by zed]
|
|
Plunkett
Hazard to Self
Posts: 96
Registered: 16-4-2017
Location: The Richest Hill on Earth
Member Is Offline
Mood: No Mood
|
|
Quote: Originally posted by JJay | The more I think about this yoga ball idea, the better I like it. You could even regulate the pressure by putting weights on top of the ball (psig =
weight / surface area of the ball). |
Cody'sLab has a video where he made something like you are describing:
https://www.youtube.com/watch?v=UlAAhRlqlV0
I think the compresser he uses is this one from harbor freight:
https://www.harborfreight.com/12v-150-psi-portable-inflator-...
The helium tank he uses has a bike valve brazed on, but this instructable shows a much easier way to modify the tank so it can be refilled:
https://www.instructables.com/id/Reusing-a-Disposable-Helium...
Or, they make various adapters to connect to disposable propane tanks. Using a propane tank for storage might be better because you do not have to
worry about purging oxygen from the tank before filling it with hydrogen (disposable helium tanks have up to 15% air in them).
[Edited on 23-9-2018 by Plunkett]
|
|
JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
I would probably just dump hydrochloric acid on shredded aluminum in a glass jug and quickly stopper the jug, running the outlet through a column of
sodium hydroxide to dry it and remove hydrogen chloride. Then attach a large ball or inner tube, etc. to the apparatus and inflate it (tubing, plastic
wrap, rubber bands - nothing fancy or high pressure). I probably wouldn't suggest inflating fully; a 46" beach ball will hold more than 35 moles of
gas.
Cody used an air compressor to take hydrogen made by elecrolysis out of beach balls and put it into a tank. That's a super interesting idea for other
gases....
|
|
AvBaeyer
National Hazard
Posts: 651
Registered: 25-2-2014
Location: CA
Member Is Offline
Mood: No Mood
|
|
What are you going to use the hydrogen for? Some time ago Magpie posted a nice report on the poisoning of his palladium catalyst by hydrogen generated
from zinc/HCl. The problem turned out to be sulfide contamination of the zinc metal which generated H2S resulting in a very dead catalyst. Again
depending on anticipated use, you will need to scrub the hydrogen free of acid or other undesiresble vapors. You are already aware of this (above).
As mentioned above, borohydride is a hydrogen source. It is the cleanest source of "chemically generated" hydrogen. On a mole-for-mole basis it is
also quite efficient. Some time ago I posted the Brown papers, probably withiin Magpie's post. One does not need a complicated apparatus to use
borohydride for hydrogen generation/catalytic reduction. I recall seeing a simplified system for student use in a J Chem Ed article. I am not near my
reference pile right now so I can't give a proper citation.
AvB
|
|
JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
I was thinking about using it to reduce 3,4-dihydroxynitrostyrene, amongst other things. It's probably possible to do the reduction in aqueous acid
with dissolving metal, but I think the yield would be much higher with hydrogen over platinum dioxide. Platinum dioxide is a rather expensive
catalyst.... I think aluminum would be largely free of sulfur.
I have some borohydride, but I would like to have other options since it is fairly exotic.
[Edited on 23-9-2018 by JJay]
|
|
Heptylene
Hazard to Others
Posts: 319
Registered: 22-10-2016
Member Is Offline
Mood: No Mood
|
|
Using borohydride seems wasteful. Much more expensive than aluminium and HCl/NaOH. I assume using NaOH should deal with the hydrogen sulfide
contamination.
|
|
AvBaeyer
National Hazard
Posts: 651
Registered: 25-2-2014
Location: CA
Member Is Offline
Mood: No Mood
|
|
The issue is not whether something is "wasteful" or not but what is the best way to get the job done. Not everything can be done on the cheap from ACE
hardware though some may think that they are clever enough to do so. It would be far more "wasteful" to do a slop-bucket hydrogen generation which
ruins an expensive catalyst than to use the best hydrogen generation method attainable to carry out the reaction.
JJay,
Zinc/acetic acid seems to occur more frequently for reduction of nitrostyrenes although efficiency seems to be substrate dependent. There is an
extensive though diffuse literature basis for this, often buried in natural product synthesis papers. Because hydrogen addition to the double bond is
not "concerted" with dissolving metals the reducing system must be powerful enough to reduce an oxime to an amine (play with mechanism to visualize
what is going on.) With a catalytic reduction the hydrogen addition is "concerted" regarding the double bond so that one might envision the second
step to be reduction of the nitro group. Thus, one needs to select a reducing agent which can reduce both an electron deficient olefin as well as an
aliphatic nitro group. Therein lies the challenge of reducing nitrostyrenes. This is why catalytic systems along with LAH are most frequently used
outside the amateur world.
AvB
|
|
JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
Well, there's always nickel boride....
|
|
zed
International Hazard
Posts: 2283
Registered: 6-9-2008
Location: Great State of Jefferson, City of Portland
Member Is Offline
Mood: Semi-repentant Sith Lord
|
|
Well, I once ran that type of reduction, back when we rode around on dinosaurs.
Reduced a nitropropenylbenzene, via Brown's single vessel method. Utilizing a balloon.
Reduced, Chloroplatinic acid to super-active Platinum Black, by injecting it into a solution of ethanolic NaBH4. I let the Pt Black settle out,
Siphoned off the solvent, and replaced it with a Nitropropenyl Benzene, along with an equivalent of reagent grade H2SO4, dissolved in Glacial Acetic
Acid. (This solvent choice was based on an old procedure, I translated from the German) The acid solvent is required to prevent polymerization of
the nitro-olefin during reduction.
I then dripped in a little Ethanolic NaBH4, shook it up. And, Eureka.... My bright Yellow-Orange solution, was instantly rendered crystal-clear
and colorless.
Very, very, fast. So, think exothermic. If you reduce a sizable quantity, cooling may be required. At this point, Brown's procedures prove very
useful, because he utilizes magnetic stirring, rather than shaking, cooling is easy. Just put your flask in a water or ice-bath.
I was unable to isolate a phenyl-isopropylamine, so it appears that the reduction stopped at the oxime stage. Still, this type of reduction has been
reported successful in reducing Nitrostyrenes directly to Phenethylamines. Sans the NaBH4; that is a modern touch.
[Edited on 23-9-2018 by zed]
[Edited on 23-9-2018 by zed]
|
|
Twospoons
International Hazard
Posts: 1324
Registered: 26-7-2004
Location: Middle Earth
Member Is Offline
Mood: A trace of hope...
|
|
Whats wrong with plain old electrolysis? Make as much hydrogen as you want, when you want it, at an easily controllable rate, with one of the cheapest
reagents on the planet.
All it takes are stainless steel plate electrodes, polypropylene cloth cell separator, either NaOH or NaSO4 or H2SO4 as electrolyte, and a high
current low voltage DC power supply.
I made one years ago that would sustain a flame on a 25mm pipe, with a 12V , 20A supply.
Helicopter: "helico" -> spiral, "pter" -> with wings
|
|
JJay
International Hazard
Posts: 3440
Registered: 15-10-2015
Member Is Offline
|
|
I think it takes extended reaction times and some heat to reduce oximes with hydrogen on platinum... I'm not sure what the mechanism is, but it looks
like the surface area of the catalyst matters a great deal....
Electrolysis is fine; it just takes longer than dumping acid on metal.
|
|
MrHomeScientist
International Hazard
Posts: 1806
Registered: 24-10-2010
Location: Flerovium
Member Is Offline
Mood: No Mood
|
|
Careful with aluminum - there's an induction period where the acid has to eat through the oxide layer, and the reaction is very exothermic. So it
looks like it's not working, then suddenly it starts bubbling and rapidly heats up and speeds up. Zinc seems like a more controllable hydrogen source
to me. I'd run a small scale experiment first if you're planning on using Al.
|
|
Dr.Bob
International Hazard
Posts: 2734
Registered: 26-1-2011
Location: USA - NC
Member Is Offline
Mood: No Mood
|
|
Transfer hydrogenation used sodium formate quite often, which reacts with Pd/C to generate H2 and CO2 from the formate decomp.
Also, hydrazine will generate H2 with Pd or Raney Ni, especially in ethanol, that is one of my favorite ways to reduce nitro groups. And Ni is
cheaper than Pd.
|
|
Tsjerk
International Hazard
Posts: 3032
Registered: 20-4-2005
Location: Netherlands
Member Is Offline
Mood: Mood
|
|
I don't know how the hydroxies will behave, but other nitrostyrenes can be reduced with zinc /HCl in situ generated hydrogen in good yield in aqueous
methanol.
Not by far as cool as hydrogenation with hydrogen gas, but they work...
|
|
zed
International Hazard
Posts: 2283
Registered: 6-9-2008
Location: Great State of Jefferson, City of Portland
Member Is Offline
Mood: Semi-repentant Sith Lord
|
|
Most simple electrolysis cells, fail to produce an adequate amount of H2, in a timely manner.
Units designed for GC, produce as much as 500mls of clean H2 gas per minute. This is enough for most purposes.
500mls per minute equals ~ 1 mole of H2 per 45minutes. (22.4 L at STP)
This is about as much H2 gas as you might possibly require in a non-industrial setting.
[Edited on 25-9-2018 by zed]
|
|
esquizete_electrolysis
Harmless
Posts: 12
Registered: 9-10-2018
Location: N.C. RT
Member Is Offline
|
|
I would use NaOH as it is much cheaper and can be acquired with ease. As for the Al reaction, you could easily put it in a ice bath without problem.
|
|
clearly_not_atara
International Hazard
Posts: 2789
Registered: 3-11-2013
Member Is Offline
Mood: Big
|
|
For the Al-based methods, maybe using e.g. CuCl2 dissolved in HCl to de-passivate the aluminium would be a good strategy? Aluminium is probably less
likely to be contaminated with sulfur than zinc.
Al/NaOH also sounds good, although I don't know how quickly they react. But alumina is soluble in concentrated alkali IIRC.
|
|
draculic acid69
International Hazard
Posts: 1371
Registered: 2-8-2018
Member Is Offline
|
|
Speaking from experience with al foil and hcl I can definitely say don't do it thinking that you are going to generate hydrogen hcl gas is all that
you will get and doing so in a closed coke bottle will lead to a very big loud bang.even if you had a tube coming out of the top into a NaOH
solutions and then into whatever you r doing with it I would bet that dumping hcl onto aluminium will lead enough pressure to pop something out of
place in your bubbler setup at the very least.use NaOH and aluminium foil for h2 generation.never al foil and hcl.spoken from experience.
|
|
Heavy Walter
Hazard to Others
Posts: 127
Registered: 17-12-2015
Location: Argentina
Member Is Offline
Mood: No Mood
|
|
There are the PEM cells:
https://www.youtube.com/watch?v=oRpSfsE1zUg
And also the HydroStik
https://www.fuelcellstore.com/horizon-hydrostik-pro-fch-020
In my lab I use a commercial H2 generator (palladium cell) and for D2 a lecture bottle.
|
|