I think you should've put the keyboard at least somewhat on top. It's part of air management of original and the improved results are *maybe* affected by that. I also think the fans end up taking air from wrong places so might not work "quite as designed". Great work with this, really nice.
For the USB that stays always on, like most laptops I think you can disable it in the program from the laptop manufacturer or in the bios, usually the option is called "USB Always On"
i was about to write the same thing... new systems has new "always on usb" port for charging mobile phones earphones or tablets for a short while making the laptop a powerbank... if the option is there, it is almost always in the bios/uefi options menu...
Re: soldering iron tip. You're not supposed to rely on the heat stored in the tip only for soldering. The reason you're getting bad results with smaller tip is because you're using an old type of soldering iron where the heating element and the tip are separate. This means that the PID controller inside, if there is any, takes a long time to respond to temperature changes in the tip due to bad heat transfer between the heater (where the thermal probe is located) and the tip, if it responds at all. Modern soldering irons use tips where both the heater and the probe are combined together in a single assembly with the tip. They react to temperature changes much faster, and even smaller tips can maintain temperature. Look up for example TS80P or any of the hakko clones.
I'd check out the Pinecil, it's a probe in tip iron for $25, I got one with a full set of tips for less than the price of the TS series irons even with shipping.
@der8auer, for the pump 1. just look for a switched live 5v rail, and then use a solid state relay to handle thr current the pump will pull (usb 5v is normally 0.5A) and that pump sounds like it pulls more. 2. Isolate the pump with some medium desinty foam to reduce the vibration noise.
This reminds me of some of the older labs I used to work in sometimes that had chilled water supply hookups for different types of equipment with supply and return hook up stations with shut off valves all throughout the place. Need to install a chiller system at home with a circulating pump to spin the water and you don't need fans or a little pump in the laptop, or PC's. Noise free.
He needs to increase the surface area. As it is, he is basically just betting on the 3D printed + liquid assembly being an overall better conductor than the copper.
Maybe in a redesign you could ditch de righ fan in favor of a pump and reservoair and make que left fan area all about heat dissipation area. In this case you coud use a bigger/quieter pump and connect it in the current right fan eletrical plug with pwm control.
Alphacool makes a tiny 5v pump called the DC-LT 3600 ceramic. You would need to make a custom pump top. I would also suggest coating your cooler so you do not have high internal temperatures when fully assembled. There are plenty of automotive paints that would work well. I would personally choose duracoat which a high temp firearms paint. Which comes in a spray can making it really easy to use.
Glad to see it works as a proof of concept. I'm hoping to see such a solution implemented by the manufacturers for new gaming laptops down the road. Ideally, with the external water cooling elements incorporated into a docking station.
Maybe finish the pump wire with an USB plug, so it's external? Maybe a small logic bord somehow to be able to manage pump speed? should be able to fit in a small usb dongle format.
Size of soldering iron tip is pretty much a personal choice. But thermal capacity really matters only when you have big ground planes and/or you can't preheat the board. For anyone wondering, cause i know Roman knows it already
Regarding the noise, you can try to wrap the pump with some sound dampening material. It should silence the pump and also decouple it from the laptop body because it seems that much of the noise comes from laptop resonating with pump sound.
I have completed a similar self contained project over the past couple years (much more DIY) on a Clevo P370EM. I used more DIY quality stuff... desoldering existing OEM heatsinks and making my own copper tube "waterblocks". For costs in the realms of $hundreds over many prototypes External detachable cooling is feasible. High quality QDCs can make it safe from leaks, and you can use bigger, better, more powerful desktop water cooling components that avoid horrible pumps like that one!! The #1 consideration in my planning is that they had to retain portability and usability. Otherwise what's the point, if you're gonna be tethered to the desk just get a desktop ... This is the approach I took for my main unit, a 9900K+1080sli P870DM3, I soldered a copper line across its giant vapour chamber GPU heatsink, flowing through self sealing QDCs and a few metres of tubing to a 360mm rad mounted to the side of my desk that never needed more than 1200rpm fans to keep ~350-400W worth of GPUs below 70C. And still retained all of its stock (60dba!) air-cooling when disconnected The other approach, fully self contained water cooling, is just too difficult, the compromises for space are too great. Pumps are a big one. (FYI, I found a small 25mm diameter 6-12Vdc pump that was nowhere near as noisy as that one). But also, water cooling for the same radiator volume is actually *less effective* than air cooling... as the fins convecting the heat to air are less hot than they are with heatpipes, without your loop temps skyrocketing and causing big problems. I had to add 2 extra fans to my P370EM project to get adequate cooling for ~250W of power draw without external cooling help, lucky it was a cavernous thick old-school 17" SLI beast with a redundant optical drive bay and vertical stacked 2.5" bays that could fit extra fans and rads as well as the pump, a small res+fill port, and all the tubing. I see no way it could be made to work this way in a more space-optimised modern laptop
I've watercooled my laptops long ago ;) with splendid results ^_^ I got 25-30 celsius drops during heavy gaming on watercooling without doing all custom radiator...But it is hybrid too ;)
What kind of pump is it? It sounds like an oscillating pump, but diaphragm pumps are usually much quieter. It could also be a ball-type check-valve causing the sound? Gear pumps are usually quieter, but not silent. You can get diaphragm pumps where all moving parts except the motor, is rubber, and these are close to silent. Also to control the pump, you can just hook up a MOSFET to sense the fan power instead, so it follows the fans, but i assume you already thought about this. Awesome project.
In my experience of gaming laptops, graphics cards don't tend to overheat that badly at all, but CPUs sit at 100c all day long. I don't know if this is due to more aggressive turbo boosting or lack of cooling allocated to the CPU or even the effective order of cooling between CPU and GPU. But it would be very interesting to see a hybrid cooler where the GPU is cooled via heatpipes and conventional means, and the CPU is cooled via internal water jacket as you have here, so that you can quick connect an external radiator & pump aio when gaming at home or on a desk, so that the chip can boost up to match desktop speeds, but once unplugged it downclocks to regular laptop speeds. Additionally, I would advise replacing stock fans to give additional space for a larger and thus quieter pump, you could even have vertically mounted external 40mm fans to attain the same airflow.
You could add a simple thermal sensor switch to turn the pump on or off depending on the temperature. Although not really sure where to place it inside an already packed chassis... fun experiment, though. Frohes neues Jahr.
Hello der8auer! This is by far the most enthusiastic project i've ever seen, awesome work! My only question is why not to place pump separately from a laptop? Like installed directly into the water reservoir? By doing that I think you can achieve noise reduction using other, more silent pumps.
I believe this is a super cool solution if der8auer could figure out a way to solve a potential hazard when the laptop is operate under fan mode: the residual water is going to become steam and pressurized the chamber which is totally fine with single piece 3D printing but I dont think it is going to work for the seal/connectors... for this design I believe an external vacuum pump should be incoperated into design so that when in the fan mode the it can run as dry as possible to avoid the pressure build up...and it might be wised to have an empty chamber as 'phase cooling for the residual water' or a pressure buffer to help the valve/seal being blown
An average high end 17 inch gaming laptop will idle at around 45-50 degree Celsius in British weather. Even with high end TC like Der8auers own Conductonaut. What he shows here looks promising but i don't see manufacturers ever adopting to this
yes you can, acer has something called the 'Quick Acces' where you can choose to disable USB when you shutdown / hibernate / sleep laptop. at least i can on my helios 300. and im pretty confident you should be able to do so throught bios as well??
There are one key issue with hybrid cooling is what to do with residual water...under i7/i9, computer will be booted in burst mode and the chipset can get really hot in that cycle and unfortunately the water become steam and any quick connection could be problematic since their sealing rating may not be able to handle the steam. I believe the design should cooperate a steam release valve but how to deal with jet of steam remain to be solved.
I wonder if the limitation is on the tiny rads as they don't have much surface area like normal rad does, more specifically I'm referring to the zig zag thin metal sheets around the water channels.
Yo dude I got idea for you. Read if out if you can. What if you separate the processor with wires and move it safe distance so you could keep processor in freezer all the time. No condensation would ever build on the processor. Only thing feeling the heat was the applied wires. Those wires could be separately water cooled so no condensation would reach the motherboard and it would not heat up the wires also too much. But it would mean that water cooling system for the wires might need and temperature controlled heater so it would not cool too much . I just thought to throw this idea out there for you.
What is the optimal wavelength for copper? Was it SLM or SLS? If it was SLS, would it be porous and was it postprocessed in a furnace to overcome the deficiencies? Also how much flow does the small pump provides? Love your work and the intro is much better.
@7:44 I think the word you are looking for is attenuation (which is the pompous scientific way of saying absorption in this context 😋). @10:35 🤣🤣. In regards to the pump, would flame retardent foam help with the noise dampening?
you should watercool: clevo NH55af/NH58AF with 39540x/5950x & rtx2070,hopefully be upgraded this year to rtx3070... now that would be cool hope we see laptops with 250W rtx3080 graphics,probably again only msi&clevo will do that.
Happy new year I think you must see for extended of back behind monitor. something battery size like just like for little water cooling package pomp with in
But... How do I know who the heart of my system is? Also cool intro tho, if you don't get paid enough for seasonic, may as well push your brand a little more.
Kannst du mal ein video machen in dem du erklärst auf was ein normalverbraucher beim kauf von pc, laptop, etc. achten muss? ich würde nämlich gerne ein notebook fürs studium kaufen, ich bin aber doch ein wenig überfordert bei all den variationen.
Is it enough just to blow out the metal residue out of the loop? Or did you flush it before the use? Seems like the pump wouldnt be happy with tiny shrapnels passing through haha
mainstream companies: our solition to gaming laptops are external gpus to plug in der8auer: my solutions is an external water cooling solution to plug in
If the pump is only used when tube QDCs are connected, could you just use an external USB plug to power it? Seems pointless to keep it running in portable mode
From what I gathered it's the other way around. The internal pump is only to be ran when used in portable mode to circulate the water to the built in heat exchangers. When the external connectors are used a normal pump can be added to the loop to enable the use of a large radiator. This makes the internal pump redundant when the external rad is used.
Have you tested what is the performance without the pump? How long will it take so heat soak the water? I would guess that even without the pump it should be usable for normal 2D/office work.
So, in that video, the laptop was launched only with the radiator itself, without an external waterblock, and the pump only drove the liquid that was inside this radiator, right? Because there is no particularly strong difference between the stock cooler and this radiator
Hello! The idea and the results are really awesome! As a question and maybe a piece of advice, are there a possibility to use external usb connector instead of soldering to existing usb port? And if the power of pump is enough to cool the system under load, maybe you can install some manual voltage regulator into external connector? It can help with noise in office work and just surfing the Internet. Thank you for your videos, I was dreaming about such system since I've got my first laptop)))
Due to the fact that the laptop can only be run when connected to a radiator you should have opted to leave the tiny crappy pump out of the build and simply used a rad tower with a pump installed on the tower.
Is the noise the actual pump or vibration of the pump. I ask cause if it is simply vibration that could be eliminated with some dampening material, and the rest of the noise could go away simply by putting it back together. Just my thoughts.
I have "solved" the usb power always on by connecting it to regular USB plug that I can pull out when I want to cut power. Yes its dangling out side but its easy solution and the laptop is always at home...
One a little bit off topic thing - previously in some videos you complained about being banned in PUBG or maybe also some other MP games. I think i know what it is caused by :) I think it is the MSI Afterburner overlay aka RTSS - i think the game assumes it is a possible cheat software, because in RTSS you also have the option to turn on "Stealth mode" which is exactly to try to prevent this :) Maybe you know this already.
@@Shaihan I guess as long as it works why not use it. I have a Ryzen 7 3700X/6800XT water cooled gaming PC but the way I have it set up I use the laptop for most my UA-cam/Entertainment/etc.
I think you are right about a lot of things... However you are simply wrong about the soldering thing. Small tips exist for a reason. And a storing a lot of heat is actually bad when you can translate that through pads and to other components.
My sister created this new intro for me as a christmas gift :D I think it's pretty awesome! What do you think?
I like it
Love it. Hopefully you keep it.
It's awesome! The rounded font looks cool
Good intro sir but don't forget abut seasonic sponsorship intro
Nice intro, mate. I like it! 💯
I think you should've put the keyboard at least somewhat on top. It's part of air management of original and the improved results are *maybe* affected by that. I also think the fans end up taking air from wrong places so might not work "quite as designed". Great work with this, really nice.
Came here to say that as well.
Seasonic, The heart of your system.
My favorite part 😧
For the USB that stays always on, like most laptops I think you can disable it in the program from the laptop manufacturer or in the bios, usually the option is called "USB Always On"
Or BIOS
How it's on my laptop
i was about to write the same thing... new systems has new "always on usb" port for charging mobile phones earphones or tablets for a short while making the laptop a powerbank...
if the option is there, it is almost always in the bios/uefi options menu...
Re: soldering iron tip. You're not supposed to rely on the heat stored in the tip only for soldering. The reason you're getting bad results with smaller tip is because you're using an old type of soldering iron where the heating element and the tip are separate. This means that the PID controller inside, if there is any, takes a long time to respond to temperature changes in the tip due to bad heat transfer between the heater (where the thermal probe is located) and the tip, if it responds at all. Modern soldering irons use tips where both the heater and the probe are combined together in a single assembly with the tip. They react to temperature changes much faster, and even smaller tips can maintain temperature. Look up for example TS80P or any of the hakko clones.
I wanted to suggest the TS80P but I worry he'll end up overclocking and water cooling it.
@@MrMartinSchou Then we'll finally see what it's capable of.
I'd check out the Pinecil, it's a probe in tip iron for $25, I got one with a full set of tips for less than the price of the TS series irons even with shipping.
Gas power solder heats faster then a electric one.
I hope we see this type of cooling in laptops in the near future.
Asus already did sth like this in the pass, it just that they are extremely expensive.
If it's quieter
Waaaaaay to expensive to justify.
Alienware had a prototype M18x R1 with Asetek cooling, and you can get water blocks from China for the AW17.
"If you have a tiny tip... it won't make your situation better"... Can confirm
@der8auer, for the pump 1. just look for a switched live 5v rail, and then use a solid state relay to handle thr current the pump will pull (usb 5v is normally 0.5A) and that pump sounds like it pulls more. 2. Isolate the pump with some medium desinty foam to reduce the vibration noise.
this is probably the coolest mod i ever seen !! please make part 3 as fast as you can love to see the end result!
Absorption is indeed a word and you used it correctly.
One of the fastest ad reads ever. Well done.
This reminds me of some of the older labs I used to work in sometimes that had chilled water supply hookups for different types of equipment with supply and return hook up stations with shut off valves all throughout the place. Need to install a chiller system at home with a circulating pump to spin the water and you don't need fans or a little pump in the laptop, or PC's. Noise free.
even if it is loud, this is SICK!!! I can't believe you can do this. It's incredible.
I love this idea! I would love to see you expand on this project and perfect it to work better than regular air cooling.
He needs to increase the surface area.
As it is, he is basically just betting on the 3D printed + liquid assembly being an overall better conductor than the copper.
Thought about something like this for several years but didn't know how to technically do this. Awesome to see!
That pump is louder than an Italian family at a thanks giving dinner.
I am impressed by all the ideas in this comment section! Way more than in the german one xD
Maybe in a redesign you could ditch de righ fan in favor of a pump and reservoair and make que left fan area all about heat dissipation area. In this case you coud use a bigger/quieter pump and connect it in the current right fan eletrical plug with pwm control.
I think this will be the der8auer year.. new sick intro and new sick studio. good job man
Alphacool makes a tiny 5v pump called the DC-LT 3600 ceramic. You would need to make a custom pump top. I would also suggest coating your cooler so you do not have high internal temperatures when fully assembled. There are plenty of automotive paints that would work well. I would personally choose duracoat which a high temp firearms paint. Which comes in a spray can making it really easy to use.
You can probably disable the 'usb power while sleep/off' in the bios
Glad to see it works as a proof of concept. I'm hoping to see such a solution implemented by the manufacturers for new gaming laptops down the road. Ideally, with the external water cooling elements incorporated into a docking station.
Were the tests in the first video also done with the keyboard assembly removed? That could be a source of difference in the measurements.
If they wasn't then this test is pretty scuffed. Not scientific at all and he could rather pull numbers from his ass to save the time.
Maybe finish the pump wire with an USB plug, so it's external? Maybe a small logic bord somehow to be able to manage pump speed? should be able to fit in a small usb dongle format.
Size of soldering iron tip is pretty much a personal choice. But thermal capacity really matters only when you have big ground planes and/or you can't preheat the board. For anyone wondering, cause i know Roman knows it already
Maybe you could wrap the pump in dynamat or some other sound deadining material. Awesome that it works
Why does it sound so much like "dynamite" but is something completely different....
Was going to say same thing wrap it in something to help lessen the vibration.
The intro caught me off guard, was waiting for the seasonic skit, new intro is great!
it will be improved for next time for sure, this is super impressive
I love this idea. Ive often wondered how combining air and liquid cooling could wprk
Regarding the noise, you can try to wrap the pump with some sound dampening material. It should silence the pump and also decouple it from the laptop body because it seems that much of the noise comes from laptop resonating with pump sound.
You can turn off always powerd usb in bios :))
Placing some dampening foam under the pump might help a bit maybe?
Sich des ganze auf englisch nochmal zu geben hat echt was :D
I have completed a similar self contained project over the past couple years (much more DIY) on a Clevo P370EM.
I used more DIY quality stuff... desoldering existing OEM heatsinks and making my own copper tube "waterblocks". For costs in the realms of
$hundreds over many prototypes
External detachable cooling is feasible. High quality QDCs can make it safe from leaks, and you can use bigger, better, more powerful desktop water cooling components that avoid horrible pumps like that one!! The #1 consideration in my planning is that they had to retain portability and usability. Otherwise what's the point, if you're gonna be tethered to the desk just get a desktop ... This is the approach I took for my main unit, a 9900K+1080sli P870DM3, I soldered a copper line across its giant vapour chamber GPU heatsink, flowing through self sealing QDCs and a few metres of tubing to a 360mm rad mounted to the side of my desk that never needed more than 1200rpm fans to keep ~350-400W worth of GPUs below 70C. And still retained all of its stock (60dba!) air-cooling when disconnected
The other approach, fully self contained water cooling, is just too difficult, the compromises for space are too great. Pumps are a big one. (FYI, I found a small 25mm diameter 6-12Vdc pump that was nowhere near as noisy as that one). But also, water cooling for the same radiator volume is actually *less effective* than air cooling... as the fins convecting the heat to air are less hot than they are with heatpipes, without your loop temps skyrocketing and causing big problems. I had to add 2 extra fans to my P370EM project to get adequate cooling for ~250W of power draw without external cooling help, lucky it was a cavernous thick old-school 17" SLI beast with a redundant optical drive bay and vertical stacked 2.5" bays that could fit extra fans and rads as well as the pump, a small res+fill port, and all the tubing.
I see no way it could be made to work this way in a more space-optimised modern laptop
great stuff ... lots of folks are using portable AC units to overclock laptops but condensation is always the biggest enemy :) ...
I've watercooled my laptops long ago ;) with splendid results ^_^ I got 25-30 celsius drops during heavy gaming on watercooling without doing all custom radiator...But it is hybrid too ;)
It’s awsome. Your new studio are awesome too 🤩
What kind of pump is it? It sounds like an oscillating pump, but diaphragm pumps are usually much quieter.
It could also be a ball-type check-valve causing the sound? Gear pumps are usually quieter, but not silent.
You can get diaphragm pumps where all moving parts except the motor, is rubber, and these are close to silent.
Also to control the pump, you can just hook up a MOSFET to sense the fan power instead, so it follows the fans, but i assume you already thought about this.
Awesome project.
Hook it up with the chiller. Would be fun. I like these ridiculous projects.
In my experience of gaming laptops, graphics cards don't tend to overheat that badly at all, but CPUs sit at 100c all day long.
I don't know if this is due to more aggressive turbo boosting or lack of cooling allocated to the CPU or even the effective order of cooling between CPU and GPU.
But it would be very interesting to see a hybrid cooler where the GPU is cooled via heatpipes and conventional means, and the CPU is cooled via internal water jacket as you have here, so that you can quick connect an external radiator & pump aio when gaming at home or on a desk, so that the chip can boost up to match desktop speeds, but once unplugged it downclocks to regular laptop speeds.
Additionally, I would advise replacing stock fans to give additional space for a larger and thus quieter pump, you could even have vertically mounted external 40mm fans to attain the same airflow.
You could add a simple thermal sensor switch to turn the pump on or off depending on the temperature. Although not really sure where to place it inside an already packed chassis... fun experiment, though. Frohes neues Jahr.
Hello der8auer! This is by far the most enthusiastic project i've ever seen, awesome work! My only question is why not to place pump separately from a laptop? Like installed directly into the water reservoir? By doing that I think you can achieve noise reduction using other, more silent pumps.
I believe this is a super cool solution if der8auer could figure out a way to solve a potential hazard when the laptop is operate under fan mode: the residual water is going to become steam and pressurized the chamber which is totally fine with single piece 3D printing but I dont think it is going to work for the seal/connectors... for this design I believe an external vacuum pump should be incoperated into design so that when in the fan mode the it can run as dry as possible to avoid the pressure build up...and it might be wised to have an empty chamber as 'phase cooling for the residual water' or a pressure buffer to help the valve/seal being blown
are the fans 12v? If its 5v you can just solder the pump to the fans. or try the 12v one soldered to the fan header?
If the pump pulls a lot of current you do have the possibility of burning out the laptop's fan controller.
@@roboman2444 The fan controller doesn't supply Vcc and GND for the fans, just the PWM and TACH signals.
@@ahayesm Oh neat. Maybe with a small transistor you can use that PWM signal to vary pump speed to match the fan speed.
An average high end 17 inch gaming laptop will idle at around 45-50 degree Celsius in British weather. Even with high end TC like Der8auers own Conductonaut. What he shows here looks promising but i don't see manufacturers ever adopting to this
Might be able to disable the USB power in the BIOS.
cant wait to see more. this is epic
Very cool. Zero pun intended.
I didn't expect that tiny pump powered self contained closed loop cooler lol.
it would be better if he used a similar pump to a one used in the small water pound .
@@tdomingues89 that wouldn't fit. Taking apart a closed loop watercooler and using the small built in pump might be a better idea.
made the wrong laptop choice to do water cooling, gotta be those thick clevos for extra space with desktop cpu!
There is no option to disable active USB? I'm sure that in a few notebooks with that function I was able to disable it.
yes you can, acer has something called the 'Quick Acces' where you can choose to disable USB when you shutdown / hibernate / sleep laptop.
at least i can on my helios 300.
and im pretty confident you should be able to do so throught bios as well??
Predator, by “der8auer” 👍
I like old set. The new one looks good for press announcements and less techy
LOVE the new intro! Super c👀L sound, graphics and SHORT! 🤘😎👍
oh 🟥🍁🟥🎶🎵
There are one key issue with hybrid cooling is what to do with residual water...under i7/i9, computer will be booted in burst mode and the chipset can get really hot in that cycle and unfortunately the water become steam and any quick connection could be problematic since their sealing rating may not be able to handle the steam. I believe the design should cooperate a steam release valve but how to deal with jet of steam remain to be solved.
I wonder if the limitation is on the tiny rads as they don't have much surface area like normal rad does, more specifically I'm referring to the zig zag thin metal sheets around the water channels.
@der8auer what would you think of adding a temp relay for that pump? So it runs until the temps drop?
There should be 5 volts at the fan's all the time. they use PWN for control.
Yo dude I got idea for you. Read if out if you can.
What if you separate the processor with wires and move it safe distance so you could keep processor in freezer all the time. No condensation would ever build on the processor. Only thing feeling the heat was the applied wires.
Those wires could be separately water cooled so no condensation would reach the motherboard and it would not heat up the wires also too much.
But it would mean that water cooling system for the wires might need and temperature controlled heater so it would not cool too much .
I just thought to throw this idea out there for you.
try 2 or 3 smaller pumps to power the fluid :)
It takes more space bro
@@dkk2034 not if you implement them into the loop...
I think the way the heatsink is printed lowers the thermal conductivity of the metal (too many air bubbles?).
For small devices theres vapor chamber or at least the comparison would be nice to see.
Great video. Where can we get the tiny pump and quick connect fittings ?
I wonder if you can replace the heatsink blocks with the stock heatpipe/heatsink sections that has way more surface area.
What is the optimal wavelength for copper? Was it SLM or SLS? If it was SLS, would it be porous and was it postprocessed in a furnace to overcome the deficiencies? Also how much flow does the small pump provides? Love your work and the intro is much better.
@7:44 I think the word you are looking for is attenuation (which is the pompous scientific way of saying absorption in this context 😋). @10:35 🤣🤣. In regards to the pump, would flame retardent foam help with the noise dampening?
Dude your speaking english is better then mine and I am a 32 year old American KEKW
der8auer: bigger is better! (for soldering)
does Mary agree? 😂😂😂
Would a Alphacool Dc-lt 2600 ceramic 12V Pump be too big? You could make a custom pump top for it.
Abandon one of the fans and replace with a larger pump in the space. Probably can run slower and quieter...
13:32 shiek about to turn the noise off
you should watercool:
clevo NH55af/NH58AF with 39540x/5950x & rtx2070,hopefully be upgraded this year to rtx3070...
now that would be cool
hope we see laptops with 250W rtx3080 graphics,probably again only msi&clevo will do that.
Happy new year
I think you must see for extended of back behind monitor. something battery size like
just like for little water cooling package pomp with in
Link to pump?
But... How do I know who the heart of my system is?
Also cool intro tho, if you don't get paid enough for seasonic, may as well push your brand a little more.
Kannst du mal ein video machen in dem du erklärst auf was ein normalverbraucher beim kauf von pc, laptop, etc. achten muss? ich würde nämlich gerne ein notebook fürs studium kaufen, ich bin aber doch ein wenig überfordert bei all den variationen.
Is it enough just to blow out the metal residue out of the loop? Or did you flush it before the use? Seems like the pump wouldnt be happy with tiny shrapnels passing through haha
mainstream companies: our solition to gaming laptops are external gpus to plug in
der8auer: my solutions is an external water cooling solution to plug in
I think Asus had a crazy 780 Ti SLI laptop with a watercooling docking station.
If the pump is only used when tube QDCs are connected, could you just use an external USB plug to power it?
Seems pointless to keep it running in portable mode
From what I gathered it's the other way around. The internal pump is only to be ran when used in portable mode to circulate the water to the built in heat exchangers. When the external connectors are used a normal pump can be added to the loop to enable the use of a large radiator. This makes the internal pump redundant when the external rad is used.
this is awesome!
Have you tested what is the performance without the pump? How long will it take so heat soak the water? I would guess that even without the pump it should be usable for normal 2D/office work.
For the pump; can you simply just change the way usb devices get power in the bios? I know my Asus desktop motherboard has that option.
Wow wasn't thinking it would cost so much would be better with a apu
So, in that video, the laptop was launched only with the radiator itself, without an external waterblock, and the pump only drove the liquid that was inside this radiator, right?
Because there is no particularly strong difference between the stock cooler and this radiator
@@River_Miles anyway, its wery interesting, and nevermind, what results will be in the end👍
Hello! The idea and the results are really awesome! As a question and maybe a piece of advice, are there a possibility to use external usb connector instead of soldering to existing usb port? And if the power of pump is enough to cool the system under load, maybe you can install some manual voltage regulator into external connector? It can help with noise in office work and just surfing the Internet.
Thank you for your videos, I was dreaming about such system since I've got my first laptop)))
Great, where can I get one for my Acer Helios 300?
Same
the mc server that i play on its on hosting from this vid sponsor
Due to the fact that the laptop can only be run when connected to a radiator you should have opted to leave the tiny crappy pump out of the build and simply used a rad tower with a pump installed on the tower.
Is the noise the actual pump or vibration of the pump. I ask cause if it is simply vibration that could be eliminated with some dampening material, and the rest of the noise could go away simply by putting it back together. Just my thoughts.
I have "solved" the usb power always on by connecting it to regular USB plug that I can pull out when I want to cut power. Yes its dangling out side but its easy solution and the laptop is always at home...
Can you put down the link for the water pump used in this video
One a little bit off topic thing - previously in some videos you complained about being banned in PUBG or maybe also some other MP games. I think i know what it is caused by :) I think it is the MSI Afterburner overlay aka RTSS - i think the game assumes it is a possible cheat software, because in RTSS you also have the option to turn on "Stealth mode" which is exactly to try to prevent this :) Maybe you know this already.
Can you insulate the pump with hot glue?
Can you make this for Alienware m15 R4
Just what my laptop needs. It currently has no cooling at all and throttles like heck!
Edit: yes it's a potato old pc
I still use my Asus rog G75VW with a 2GB GTX 660M/i7 3630QM as a secondary PC lol
@@TerraWare well, mine uses a pentium n4200, no dGPU, 4gb ddr3 ram
@@Shaihan I guess as long as it works why not use it. I have a Ryzen 7 3700X/6800XT water cooled gaming PC but the way I have it set up I use the laptop for most my UA-cam/Entertainment/etc.
@@TerraWare it's really slow but it's at least usable XD
Didn't ASUS have laptop with detachable water cooler thingie few years ago?
I think you are right about a lot of things... However you are simply wrong about the soldering thing. Small tips exist for a reason. And a storing a lot of heat is actually bad when you can translate that through pads and to other components.
bruder erstes video das ich mit auf englisch von der Bauer angucke lol
hmm some how build the into the blower fans for a v2 of this ?
why not fill heatpipes full of liquid and attach pump (solder connections to heatpipe)