Vacuum VS Dehydrator! What's the best way to dry filament?

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*Timestamps for the impatient*
Introduction: 1:20
Why dry filament: 2:40
Damaging filament by heat: 4:58
Vacuum drying: 5:55
Moisture pickup in open air: 7:30
Food dehydrator drying: 8:00
Storing filament in vacuum + desiccant: 9:55
Do spools dry equally: 10:25
Drying with desiccant: 12:00
Drying in a circulation oven: 12:45
Summary/TLDW: 13:57

Being a HVAC tech with years of experience dealing with vacuum pumps and pulling water out of HVAC systems installers forgot to keep capped during installation, the fact that a crappy single stage vacuum pump is being used isn't helping.
A 2 stage vacuum pump that can be run overnight without overheating is pretty much required if you want to get a significant amount of moisture out of a enclosed system, as is the ability to maintain high vacuum for the duration.
Also its generally a good idea to have some kind of water trap, either a cold finger or a tube packed with a chemical dessicant, or be ready to change your compressor oil often as the water extracted from the vacuum chamber will end up in the pump oil and damage the pump over time if the water isn't removed from the oil.
If done right, with proper equipment, a vacuum drying setup should be able to drop the moisture content in the filament way lower than a food desiccator can in the same amount of time in most climates that aren't a done dry desert.
I also understand that this testing is being done "on a budget" but its kind of misleading to say the dehydrator is simply better when half the issue here is that the vacuum setup is just too cheap to do its job well.

I'm sure you realize this already but you have done the 3D printing community such a service with all of your videos providing real test data and results over all these years. Just amazing!

I have the same food dehydrator, got it at Aldi. I bypassed the factory temp controls and added a PID controller and a temp sensor. it can go higher and is very stable in comparison to the factory temp control which was swinging around 10-15 degrees..

Many years ago I used to manage a thermoplastic molding workshop where we heated plastic sheets enough to be formed on a mold using vacuum. Some plastics are hygroscopic meaning they absorb moisture such as PETG and polycarbonate (lexan) being the worst. In order to mold PETG or polycarbonate sheets thicker than

Nobody is asking about what looks like a E3D toolchanger printer next to the vacuum chamber at 2:23? I'm eager to get a review, it looks so promising! As usual, great content Stefan!

What are the health concerns over silica with indicator dyes?
Edit: For those wondering, the indicator dye used in silica beads will either be cobalt chloride (blue) or methyl violet (orange). Both of these dyes are toxic and carcinogenic, though methyl violet is regarded as less dangerous than cobalt chloride.
Using small amounts of methyl violet indicator in sealed packets seems to be considered food-safe, but if the indicator is loose like how you buy it in bulk, you could inhale or ingest dust from the beads, thus consuming trace amounts of the dye.

You cannot dry stuff (completely) in a static vacuum. Unless you leave the pump running continuously the moisture will reach an equilibrium point within the chamber. When you leave the pump running constantly no equilibrium can be reached as the moisture is constantly being removed. To protect the oil in the pumps in labs you generally use two traps in series. The first bubbles the output of the chamber through sulfuric acid, which takes all the moisture out. The second trap bubbles the output from the sulfuric trap through mineral oil, which traps any fumes coming out of the first trap. Generally these two fluids only need to be changed once a year. Same with the pump oil. You will be amazed at the amount of water that will come off with only limited heating. Generally, proper vacuum drying will move about 1-1/2 times the moisture that air (hot) drying will.

Your scientific pursuit of all your topics is greatly appreciated!

Great video with a lot of detail. I usually store my filament rolls (i use mostly PLA) in the plastic bags they came with. I add a perforated transparent film-container filled with dessicant to each bag and close them with ordinary bag clamps. Benefits are: less potentially humid air in the bags compared to plastic boxes), doesn't require much space, is relatively air-tight, costs next to nothing.

Thanks for posting this. I dry wood frequently in a vacuum kiln I made. The two key factors are the amount of vacuum, and heat but not too much. Your little vacuum pump should be able to deliver adequate vacuum. I automate my kiln with a simple mechanical timer turning the pump in every 90 minutes for about twenty minutes. I also put a one way valve in-line because the pump doesn’t maintain vacuum by itself very well when turned off. I use heat mats that don’t get warmer than 40C. When the temp in the material reaches about 36C the water really starts to come out. Because the heat transfer is by conduction the maximum thickness for best results is about 100mm. I can dry wet wood at 55%+ moisture to nearly 0% in 3 days. This is 120 year old technology for wood. A German friend has found a 25W motorcycle seat heater to use in a vacuum chamber similar to yours. Sandwiching the plastic rolls between heating pads will give you the best success and speed. You could also try just putting it in a sunny window. However, considering all the messing around, in the end your cheap desiccant in a decently closed plastic container seems to me to be the best option for most plastics.

Stefan, I’m just beyond stoked that I came across your channel tonight. I’m building my FIRST 3D printer and I’ve been immersed in everything for some time. However, I was curious, months ago, re moisture. As a kid, I’m 55 now, I worked in injection molding and blow molding and I was very tuned into our dryer technology at the time and the role drying played in the process. This video was priceless. Thank you, so very much.

I use vacuum sealed reusable bags for storage with desiccant packs, then dry in a food dehydrator for several hours before printing. Works like a charm!

You could consider this post a "peer review" of your findings. TLDR: I found results consistent with your findings.
I've been running theses "drying" tests for over 6 months now and I don't think drying water is the issue. I've used ABS. ABS+, PETG, PLA and PLA+ in my tests, sorry, don't have the "exotic" filaments you have. I have not seen even ABS absorb much water when submerged for 7 days, that was above a .2% change, (2g of weight using a 1kg spool.) What I think needs to be tested, is what chemically happens to filament as it ages, and how applying heat to the filament changes the filament. My thinking is that heating the filament causes some gassing, chemicals in the filament to be released due to decomposition of the filament. Since I don't have the ability to sample the gases, this will only continue to be just a "guess".
- My method of testing is to weigh the filament as soon as it is unsealed, dry the filament at 135F for 5:30 hours, re-weigh, submerge the filament for 7 days 100% under water, remove the filament from the water, spin dry the filament in open air for a few minutes to remove any extra water that may be trapped in the spool, weigh the filament, re-dry the filament at 135F for 5:30 hours, re-weight the filament, and record my findings. If all I see is a .2% change in the filament, then I'd think water is not the issue.
Does anyone else have any test data to share? So far this all has been subjective data about drying and there is still lots of research to be made - WITH this said, I still recommend drying where there is a filament issue, what ever heating the filament does, it seems to improve print quality.
I'd like to see more of these types of tests, however, I'm not sure if you can get the test equipment you need, or if there' s a "market" from your watchers. My guess is not everyone else is a nerd.
Thanks again for a great video.

The amount of detail is impressive. Every video is like CSI or better FSI FilamentSceneInvestigation 😉
Fun to watch and aducational af 👍

One concern I have is people potentially not understanding the amount of desiccant required to actually reduce moisture. Despite your having shown and mentioned it, IMHO a lot of people just won't pick this up. I'd love to see a comparison data showing smaller quantities of desiccant to help absolutely clarify the "sufficient" quantity.

Great Video, and a very great job with info for all of us 3D printer people! Really enjoy watching your videos.
I see how the vacuum pump would work and do a great job. I am new to 3D printing. My wife got me my 3D printer for my Birthday last November.
Here in Tennessee where I live, we are blessed with many rivers and man made lakes! I live in Middle Tennessee almost at the geographic center of the state! Humidity is a major problem here. My Grand Mothers, both of them, taught me to put rice in the salt shacker to absorb the moisture so the salt would flow. Rice is very hygroscopic (absorbs water from the air) and will pull it away from just about anything. So I put rice in a 3 inch by 4 inch mesh bag (you can buy online for $7.00 or so for 100) and put the rice bag and filament in a one gallon zip lock freezer bag. Zip it shut and the rice will absorb any moisture left in the sealed bag. Put one bag of rice in with a spool that has one half or less filament. I put two bags of rice in the gallon zip lock bags that have filament >= one half a spool. It cost almost nothing, and it makes working with the spools of filament very easy. Just open the bag and switch filaments. When you have a filament dryer, dehydrator, or a vacuum pump, you can only work with one spool at a time. There is nothing wrong with that, but drying them all with rice can be done all at once!
I know I have only been a 3D printing guy for about 9 months now. At this moment I have 29 spools in bags with rice drying 😆!!!
Again, thank you so very much for all that you do!!!!

Stefan, vielen Dank daß Du Dir diese Arbeit für uns machst!

Stefan nice video with good information. I got great results from a vacuum drying system that I built for drying nylon and carbon fiber PC but also found it was great for ABS, PETG etc. I noticed that extruding smells are
also greatly reduced using dried filament. My vacuum pump is a small heavy scientific 50L/minute two stage oil sealed model. The ultimate vacuum
(no flow) is 0.1 or 10 pascals if the ballast valve is open. When the
ballast valve is open, the bleeding air removes condensates from the oil.
Have a smile at my $50 stove top pressure cooker vacuum chamber that is big enough for 2 spools (fresco brand but the cooker is sold under many names). I only had to invert one threaded pressure safety relief valve so it would seal under vacuum. I designed 3 printed parts, and using a refrigerant
diaphragm valve that seals to the lid with O-rings I was done. A removable
flexible stainless-steel natural gas appliance hose connects the valve to
the vacuum pump with another printed part. Unfortunately, I only have a 1gr
resolution scale to measure any weight change. Instead as a dry indication test, I print clear filament at the maximum recommended extrusion temperature then look for bubbles in the purge line using a x10 magnifying glass, and with PC I don't get any in the first 12 hours after vacuum drying.
With a non-scientific vacuum pump which produces less vacuum, I would feed a very small amount ballast air directly into the vacuum chamber but only while pumping to reduce the chamber humidity and the pump oil moisture.
-Peter

2. FYI Stefan - I emailed Taulman a couple of months back asking them for their advice on best vacuum drying practise esp for taulman 910 (a nylon) and other of their functional filaments explaining I was using a small vacuum pot like you, with a PID controlled heated mat underneath the vacuum pot and filament, with loads of dry desiccant inside the vacuum pot - and this was their reply - “With a vacuum unit about 8 hr's max.....usually around 4 at 40C and a good vacuum.
Max temp should be about 60C....sometimes you can make the line a bit "oblong" as it's wound tight in some spools.
As you're doing, the key is desiccants in the dryer....Most don't realize this is the main KEY as otherwise, you're just using hot and humid air and it won't really dry well”.

Just lately ordered my first 3D printer and already your channel is my go-to spot for technical information about 3D printing. Keep up the good woork, as you yourself said "at least a bit scientific" content is much appreciated! :)

Sir, I bow down before your patience, rigorousness and persistence. I can't thank you enough for the wealth of information you provide to us.

Some of the most comprehensive testing regarding 3d printing come this channel. Hands down. Thank you for all your hard work.

Thank you for mentioning the indicating silica gel health concern, I didn’t know about that!

Wow! What an incredible amount of work! I'm so happy to have access to someone like you that puts all these tests together and publishes the results in concise and fun ways. :D

I've been waiting for this one! Great analysis. I'd been wondering for some time if vacuum drying was worthwhile. Thanks so much for doing the footwork!

Dear CNC Kitchen, I am using vacuum storage bags with silica gel to store my filament and I am mostly happy with it. I can also put my spool in the bag over my heat bed to warm the spool to combine the effects. It is a cheap solution.

I live in a very humid region (40%+ ambient). This is very helpful information.

Thank you Stefan! I have been toying with the idea of using a similar vacuum system as a dryer for about a year now, but never got around to buying one.
Your video just saved me a whole lot of money. Thank you so much for producing such a detailed comparison of the two methods. I really appreciate it.

I just found your channel and now that I have a 3D FDM prinder, I really appreciate all the work and the data. Thanks.

Thank you for spending your time and knowledge to clarify questions about filament drying. Live long and prosper!

This is a fantastic video! I've seen all kinds of recommendations about drying, but they were all qualitative. One said, "You can't do any better than vacuum drying!", but clearly shown in your tests that's not true.

Great video. I was able to use this to teach my son Ethan how convection dehydrators work. In addition to the fact that heating the air reduces the relative humidity, the water in the material will be heated as well, and higher temperature water evaporates more easily (quickly).

That was a lot of work and time, nicely done, thank you. I didn't see an ad before the video...not monetized? 489k subs and no ads, if that's right, I'm super impressed. I respect that. If I got that right, and I'll watch more from you to see, that's worth a sub "just because". Again, nicely done video and thank you.

Few things on vacuum drying, based on my experiences in a professional enviroment:
1. heat speeds the process up significantly, we use a vacuum oven for filament and also dessicant at work
2. the pump needs to extract the moisture constantl, ideally with some gas ballast( dry nitrogen)
3. rotary vane pumps emit oil everywhere, also towards the suction side, therefore an oil trap is generally a good idea, and an exhaust filter foe your own safety.
4. the oil can take up the moisture you trying to pump, gas ballast helps here and regular oil changes
5. with a good pressure gauge you see when the moisture gets less
6. at work we get so much water out the system, that we need to collect it from the exhaust of the pump
In case of interest, we use an ancient Heraeus vacuum oven and a oil free and dry scroll pump with gas ballast. Drying a role of really moist filament easily yields 15-20 ml of water, this of course does not include the amount taken up by the ballast gas
We do a ton of

Thanks for these tests Stefan! I'll be sure to point any of my 3D-printing colleague to this video next time I get a weird look for saying we should always be drying our filament spools before using them to optimize printing quality and general printed parts toughness.

Hut ab für den Aufwand! Solche Experimente dauern einfach echt lang wenn man sie ordentlich machen will. Deine Videos sind immer ein Vergnügen und extrem hilfreich.

The best review on the need to store your filament properly that I have ever seen.. Keep up the good work!!

Thanks Stefan! Great timing, I just ordered my dehydrator yesterday and I wanted to see a video like this for years...
Thank you for demystifying dehydrating of filament! You the man!!

I successfully use a vacuum chamber to dry my filament. I use a cheap single stage vacuum pump left running all night but i didn't have much success until I wrapped the chamber in a heating pad to raise the vapor pressure of the water. With this method i usually get about a tablespoon of water out of a roll of wet nylon (it ends up in the pump's oil!).

ho man, I'm so happy you did it and report it this way ! It's a 2 years old project you have confirmed !
I'm sure vacuum drying should be better, in fact you may give a try to it with a 2 staged pump ... going only 0,025 Pa.
This should dramatically improve drying AND drying time, consuming really low energy compared to dehydrator solution.
Thanks for making these test this scientifically compared ! really a huge help !

What's the issue with indicator? Haven't heard that before. NOT saying there isn't an issue, just asking for more info. First time I've come across this.

I have a mountain of old (1 year+) filament that I was trying to dump, now its all 'like new' thanks to a decent drying system!
I find that an hour or so in the dryer with PETG improves print quality, even if there are no visible bubbles prior to drying.
It shines better in vase mode...

I've had pretty good luck using vacuum to dry filament...mainly nylon and PETG.
I use a hotplate and put the filament on a fire brick in the "chamber" (just a big aluminum stock pot), then preheat until the chamber walls are around 100c with the lid on, then I pull vacuum for and hour. I found the preheat crucial because once the vacuum is pulled very little heat is transferred to the filament.
I also experimented with a large cup of desiccant in the chamber...but it comes out at least as dry as when it started.
The hour process takes about 1.5 hours and has served me well, ymmv but it works for me.

You're a champ! This is exactly the info I needed. I'm sitting on about 40 rolls of filament and while I'm almost constantly printing I need to make sure some of my more prized filaments are in proper shape. Thanks!

sooooo long waiting for this video - u rock

Pretty interessting video! Especially the fact of the dry box. Many people said it only helps for containing the hydrated filament, but now I know it actually dehydrates it a fair amount (not as good as oven or dehydrator, but good enough I guess). Thanks for the long tests and sharing the results!

What a great resource! Thank you for creating and executing these reference experiments!

Perfect timing as I was just drying mine. Awesome!

have to say 2 things:
1) GOOD JOB, very well done, congratulations.
2) Also a good selection of materials and a very good plot of the results, I was aiming for Petg, and now I know what I will do.
3) For the first time, i really want to test audible XD

Printing from my bedroom. Printer and all my filament is about a foot from the open window... had blowout issues all the time.
Got a tiny office dehumidifier and slapped all the reels into a closed plastic storage tub with it. I just left it in there for a couple days before printing again, no problems since. I'll build a custom proper reel storage / dehumidifier when I move and have a dedicated workspace.

I indeed had lots of trouble printing PETG, a lot of prints came out very weak and brittle. At the time I was very disappointed by this because I mostly switched over to PETG to make mechanical parts. However, after reading about this and having it in a descendant bag for some time, the print quality much improved and now prints 'proper' parts.

Yes! Thank you, Stefan! I knew that dessicant could remove moisture from filament, but people kept saying that it only stops it from absorbing more.

As always, an amazing collection of data Stefan! As you stated in the beginning of the video the degradation of material under high temperature is an issue. It would be nice to see data comparing oven / food dehydrated material compared to vacuum dried when it comes to the strength of the material (both x-y and z). From my experience the best way to preserve high end materials is to have slightly elevated temperature (i.e 40-50C) and under vacuum drying, possible in a vacuum oven. This allows for additional moisture to be drawn out while simultaneously preserving the polymer chain structure. An affordable heated chamber vacuum dryer for filaments would be the perfect product for high performance 3D printing materials.

Great work. may I suggest molecular sieve media instead of silica desiccant. It is more hygroscopic and so reduces moisture levels further. It also does not give up moisture as much. I see in your data that the filament was able to pull some moisture our of your silica media when dried and then stored there. If you elevate temperature of the silica it even gives off more moisture yet... Note when you regenerate the molecular sieve media you do have to get it quite hot to break the bonds and release the moisture...

Pro tip on the food dehydrator: since it heats by constantly flowing a set rate of air past the heating element, you can raise the temperature in the chamber by decreasing that flow rate. Since you can't slow down the fan, you can tape over some of the inlet holes on the bottom of the dehydrator.
But be careful, and actively test - I made the mistake of using my thusly modified dehydrator on a carpet, further choking flow, and managed to melt a bunch of the dehydrator's own parts.

Thanks for all the time you spent to investigate! Really appreciate!

Again: very great video!
I personally don't like to warm up my materials where I also warm up my food afterwards...
For PVA I bought a Polymaker Polybox Edition 2 now and set my PVA inside of it...
It uses 2x100g Bags of Silica gel.
In the Manual it says that after 2 hours the humidity would drop below 15%...
Now after 3 Days its still at 28%...
Above 20% the manual tells to change the desiccant....
So the Silicagel was not even close to be able to dehydrate the moisture out of the PVA that it soaked in within the last year...
I dried the silica gel now in an unused microwave for 5 min in defrost mode... When you take the bag out afterwards you really can feel that the bag is still a bit wet.
Don't directly put the silica-bags in again - let it sit for a while to dry... else you'll have a humidity in your box of sometimes 50 to 80% ^^
Will do that now again till I dried out the materials!

What an excellent video! Covered a lot of outstanding questions, and gives desiccant more weight than I would have guessed. Thanks for the hours and data that went into it... science!

I store all my spools in plastic bags (with the desiccant packets they come with) whenever they're not on the printer. This helps them to be protected not only from moisture (not too important for PLA, but other materials can suffer a bit), but also from dust, since I'm in a bit more dusty area than usual.
I had success drying Nylon and recycled PET in the oven set to ~70°C, keeping them there for several hours or even overnight. They printed just smooth after that. I never had to dry anything else though :)

Vacuum chamber plus desiccant is the standard that have been used in Chemical research since forever, laboratory glassware vendors sell a device that looks like a glass pressure cooker that has the brim of the cover ground pretty flat and you put appropriate lubricant so that you can slide it in and out and it has a connector for the vacuum pump, if you use heat + desiccant + vacuum you going to get as dry as it can get.

Stefan, try doing this: do the vacuum + desiccant drying, but wrap your steel vacuum chamber in an electric blanket set to a low temperature that would be safe for extended exposure. I think the combination of an electric warming pad and the desiccant + vacuum over night might give you the best results.

Hey there, do you remember my last comment about these pesky audible ads? Have to admit that your ad you created in this video isn't bugging me as much as they normally do. Good job. And, as always really nice video and a big thanks for all the hard work you put into your videos, really appreciate it. Thx! ❤

You are doing a LOT of work. I hope you are retaining all the tests and results and you are going to write a couple of papers off these. It would be well worth it, and likely get your PhD (if you don't already) out of it. Great work.

Congratulations on your VR headset! great video, looking forward to more filament recycling videos.

What about microwave drying? Thats something I've tried with old TPU parts that tend to get stiffer after months of exposure to moist air. They got more flexible again immediately (after they cooled to room temp of course). That would be a good meeting to examine.

I made a dryer out of an old crock pot cooker. The ceramic dish got broken. So I took and made a 3d printed mold that fit 2 of my largest spools in it, filled the crock pot up with concrete. Next I drilled a 1/8" hole in the concrete and embedded a thermostat. It works really well, and to was made of stuff I had laying around the shop. In the future I wasn't to add an Arduino to control the temperature and have presents for each type filament.

I learn a lot with each of your videos. Thanks from El Salvador.

My best results of drying filaments are in a dehydrator for vegetables and fruits. It cost low money, uses a little of electric power and helps drying my filaments in 1, maximal 2 hours. I mostly print PETG and Nylon with cf or gf.
For my dehydrator I printed a drying chamber in which I can dry 3 rolls of filament at a time.

Very impressive video! This was clearly a lot of work and took a lot of time. I'd had a dehydrator and dry-box in mind, and now I'll get them for the nylon that I'm using.
Thank you

amazing dedication and time spent. Incredible Well Done

Stefan, the correct process to dissect any filament is with a vacuum oven. I mean; you have to combine both things obligatorily for the process to work correctly;
First, the oven must heat the filament for a few hours (time and temperature depending on the material of the filament). After the filament "sweats" all the moisture, the vacuum must only be generated after that. Depending on the type of oven used, it is also useless to generate the vacuum and the temperature simultaneously, because if the heating system is outside the vacuum bowl, the vacuum is a thermal insulator and it would not conduct the temperature well to the filament roll either. Therefore it is necessary to heat first, and then to generate a vacuum.

Short term, I typically store filaments on the printer or in a cheap dryer that I got off of Amazon. For long term storage I have a vacuum sealer that I use to repack the spools in their boxes under vacuum with some desiccant in the middle.

It takes 1 BTU to change 1 pound of water 1°.
It takes 144 BTUs to change the state of 1 pound of water without changing the temperature 1°.
When using a vacuum, that 144 BTUs is retained by the remaining water. Cooling it down. Eventually it might freeze. Which makes it more difficult to change the state. The vacuum pump that you're using is not sufficient for the application. You need a commercial vacuum pump. The kind used in air conditioning service, or better. 29+ inches of vacuum is needed. The amount of heat that can get into the plastic from the outside also makes a difference. In a vacuum chamber, heat cannot be transferred through the air, Since there is little air for heat to transfer through. If your vacuum chambers clear, you might try placing a heat lamp around it.
Also, when you break the vacuum using The moist atmosphere, that moisture in the air is going to be pulled deep into the plastic. Dry nitrogen is recommended but expensive. At least you can pull the air through dry desiccant instead. A dehumidifier may also make a difference. Keeping the air as dry as possible. If the air is dry, moisture cannot get into the filament. Unfortunately the dryer the air, the more static will build up. This could be hazardous to the electronics.
Stay safe and happy printing.

This data is priceless and you are amazing for putting in this much work and for your scientific approach 👊

Great work Stephan. I really appreciate your scientific approach.

Awesome testing! Good to know the simple dehydrator is the perfect thing to use for the more common filaments.

Wow! The desiccant seems to be the best option! It covers most of the moisture removal, and does not require heating the filament.
Another great desiccant is calcium chloride, which is very cheap, and good at absorbing even in low RH conditions.
Re-activate the same as with silica.

you can also weigh the desiccant to determine its moisture content. i remember seeing a garage dryer that was hung from a spring and when it touched the floor it was full, and needed refreshing. probably need to make some cotton bags with weights written on them for the desiccant to make it easier to use.

Have you tried combining them? Vision miner is selling a kit that involves an oven and a vacuum pump/pot with instructions to bake, then vacuum and agitate for maximum affect. Awfully intriguing, but I don't have anything that will print peek - which is their target audience for the several hundred dollar setup. Seems like it should work for lesser materials, but I don't have a vacuum pump/pot to try it out with. Thanks for all you do!

A useful tool to have around when degassing or dehydrating materials with a vacuum chamber is to have a hydrophilic membrane filter to replenish the air in between vacuums. You can use those cheap syringe ones, mind you get ones with more than 0.45um pore diameter or else air will have a hard time getting through as well. (Will take some DIY to adapt a membrane filter to your setup.)
You can also just use the filter to slow the air replenishing into the chamber as well as preventing hydrated air from entering the system. On my setup the free flow of dehydrated air causes only a +5hg decrease in vacuum pressure(-29hg vs -24hg); vacuum pump will run a little bit cooler due to free'er flowing air.
(When you were replenishing the air in the chamber, I can only imagine how much humidity was in your environment at the time reentering the chamber.)

Bringing industrial process into the home! Thats what this hobby is all about

vacuum with dessicants works passively compared to heating which consumes electricity. It is by far the more environmentally and wallet friendly method, especially if you start doing it when it's a new spool. I use a vacuum rice bucket that has an auto pump on the cover, so it's compact without a need for external compressor.

I'm glad you found the dehydrator works well enough - a month or two ago I finally bought one for this purpose. I'm pretty surprised the silica gel was able to pull moisture out of the filament and not just the air. Interesting about the indicator silica gel, curious what isn't good about the indicator...

It would be interesting to see how your results would change if you back filled your vacuum chamber with dry Nitrogen or XCDA. If you backfill your vacuum chamber with wet gas you are limiting your drying success. Removing moisture when you evacuate just to add moisture back when you return to atmospheric pressure using wet room air. A few other things to try would be vacuum cycle purging with heated dry gas and a purge box (no vacuum) fitted to a slow purge of heated dry gas.

This basically answered all of my questions, what a great video!

This video is great. Thanks so much for digging this out and sharing the results!

Hey Stefan
if you want to completely dry the filaments using vacuum pump you need to freeze the filaments, then put them in vacuum pump
when water freezes it separates from the materials and when unfreezing at low pressure it goes from solid to gas directly
also a totally dry desiccant should be present in the chamber while material us unfreezing

Please could you do a video on comparing the combination of retraction speed and retraction distance and perhaps experiment with finding the best ratio? Your videos have been a great help but I don’t have the time to test these things in depth myself. Thanks

I'm not sure if this applies here, but a problem in some materials is that they have as high an affinity for water as desiccant does. Low hydrogen stick welding electrodes are like that. To keep those dry, I double bag my material. Put a little bit of desiccant in a mylar bag with the filament and heat seal the bag. (Impulse sealers are inexpensive.) Then keep the bagged filament in a plastic box with a large amount of desiccant. The mylar bag is an excellent barrier against water diffusion, and the desiccant in the plastic box will keep the relative humidity in the box low, further reducing diffusion. That setup keeps even welding electrodes dry, that normally have to be stored in an oven or metal cans.

cant imagen the effort behind these videos man!! thanks a lot

There is another option - decommisioned medical sterilization units. Basically, it is well insulated electric oven with high precision temperature regulation and convection fan. It may also have a vent, which can be closed or opened. Thanks to good thermal insulation, the energy consumption is much lower than kitchen oven. Also, cheap kitchen ovens with mechanical temperature controller are not suitable for filament drying, because the temperature regulation can easily overshoot by 20°C or more. The sterilization unit can be used for another technical purposes like curing of powder coatings and resins. It is not wise to do this things in kitchen oven, because it can leave a nasty smelling, unhealthy chemicals inside the oven. New sterilization units are very expensive (over 1000 €) but the old ones can be bought for 50 - 100 €.

The vacuum chamber will not only boil water but it will also freeze it. Pre-heating wet filament only helps initially until the temperature drops during pressure reduction. Adding heat such as pad heater on the outside of the vacuum chamber can help some even though heat does not transfer well in a vacuum.
In industrial freeze drying (lyophilization), heat and dry gas bleed (nitrogen) are used to speed up the process of sublimation. Controlling pressure at 0.5 - 1 mBar & 25 - 30 Deg C would be much more efficient than just letting the vacuum pump run and achieve it's minimum pressure.
An efficient vacuum drying system is not practical for home use but a simple vacuum drying system is still a tool that can be used to remove moisture from filament without the negative effects of heat alone.

What about heating the filament in the food dehydrator then (while still warm) vacuum pumping? Vision Miner was using this method in a video from the 3DPrintingNerd.

Still a useful video, even after a few years. Active alumina desiccant brings the RH much lower than Silica Gel, has higher moisture capacity and a longer life. The interactions between moisture and the filament are more complex than covered here, and not all of them are reversible, depending on the polymers involved. PLA in particular doesn't return to the same state after heating, so there is a lot more to investigate here in a future video. Proper dry storage is important and just drying the material after improper storage does not always result in a good result, and brittle filament is one result that we commonly see. Combining heat and vacuum is significantly more effective at removing moisture quickly. Lots more for future investigations!

Ready Player One? Yeah no - but not why I watch your channel and you gotta pay bills.
High quality videos, thanks Stefan! I was wondering the same. In the lab we used dessicant and vacuum to dry products of solvents.

Vacuum desiccators are usually used with a desiccant. I have a couple pounds of silica gel in my vacuum chamber and it works great. I'd like to see a comparison with a setup like this, as it's rather inefficient to run a dehydrator for twenty four hours and vacuum drying seems the better option, especially when you consider that a vacuum setup is a useful tool in general. Mine didn't cost very much either.

The problem when vacuuming alone, is the temperature drop since you take out the higher level energy molecule and leaving the lower energy molecule to cumulate, which then requires to succion even more vacuum. The solution is to do both.
I use to have access to a cole parmer vacuum oven, and these thing works very well, you put it about 4 hours and print quality were as good as new. I guess leaving the vacuum pot in the sun should also work for petg or abs.

I wondered about vacuum, I used to use it when i woodturned, cut fresh wood, microwave it on lower power until the wood sizzles then cool it in a vacuum pot to recompress the wood and force the moister out. Works well.

12:59 I think the english translation for circulation oven, is fan forced oven. Also most materials only need to be dried at 55C and not 70C. If that's not working well because you live in a humid environment, put your dehydrator in a bigger box (close to air tight) with desiccant (kitty litter works 😉).