ไม่สามารถเล่นวิดีโอนี้
ขออภัยในความไม่สะดวก
ต่อไป
เล่นอัตโนมัติ
DIY Vapor Compression Refrigeration SystemHyperspace Pirate
มุมมอง 1.1M
How can we make air conditioners 33% more efficient? Here's a revolutionary solution.Just Have a Think
มุมมอง 432K
Water Cooled Marine Air Conditionerrlbob1
มุมมอง 7K
LIVE🔥 “คุณหญิงสุดารัตน์” นัดประชุมด่วน หลัง สส.ไทยสร้างไทย โหวตนายกฯ “อิ๊งค์” | 16 ส.ค.67THAIRATH Online Originals
มุมมอง 183K
"อิ๊ง" นายกฯหญิงคนที่ 2 ....จับตาโฉมหน้า ครม.คนรุ่นใหม่ !!!MCOT News FM 100.5
มุมมอง 71K
Try the #NewWomanChallenge now! Brought to you by YouTube Shorts #LISAxNewWomanLLOUD Official
มุมมอง 957K
HVAC 079 Water cooled condenser introductionLove2HVAC with Ty Branaman
มุมมอง 21K
Solar Powered Air Conditioner!Tech Ingredients
มุมมอง 2M
3 PROVEN Methods To Getting Colder Air From HVAC Vents.The DIY HVAC Guy
มุมมอง 581K
Building My Own Evaporative Cooling Wall (AKA Swamp Cooler)Bigelow Brook Farm (Web4Deb)
มุมมอง 283K
How to build a real Air Conditioner for your home or car. Termoelectric Peltier. In Memory of my dadi Technology Reviews
มุมมอง 257K
How To Clean Your Air Conditioner CondenserHouseImprovements
มุมมอง 2.3M
Making Cooler/Generator with Thermoelectric DeviceElectroBOOM
มุมมอง 4.5M
I Saved Thousands! A DIY Heat and AC System with Heat PumpApril Wilkerson
มุมมอง 129K
The God of Computer FansLinus Tech Tips
มุมมอง 5M
🔴Live โหนกระแส อดีตตำรวจเตะเณรปากแตก ข้อหาซุกเมียผมโหนกระแส [Hone-Krasae] official
มุมมอง 645K
Lady Gaga, Bruno Mars - Die With A Smile (Official Music Video)LadyGagaVEVO
มุมมอง 2.5M
ถือของห้ามปล่อย 10 นาที ได้ 500 บาท #aum_ccp #shortsAUM_CCP
มุมมอง 32K
女孩妒忌小丑女? #小丑#shorts好人小丑
มุมมอง 9M
[Full Episode] MasterChef Junior Thailand มาสเตอร์เชฟ จูเนียร์ ประเทศไทย Season 3 Episode 9MasterChef Thailand
มุมมอง 653K
When your BEST FRIEND is on the other team 😂Australian Open TV
มุมมอง 14M
ทักษะฟุตบอลที่ดีที่สุด 2024/25Aya ALansari _ اية الانصاري
มุมมอง 349K
Amazed that hose can take 250 PSI High side pressure.
That size of hose it look like it only rated for 150psi but somehow he got a super ver of it lol
Just what I was looking for
My AC runs a lot colder since you showed me this trick. I rigged up a water jug to drip right on the radiator, just gotta refill it every 4 hours during the day.
glad i could help, i bet it uses less power now too
@@ianbuilder Definitely, thanks again bro.
He just built a marine AC unit…. Exactly how they work. And pretty sure if you use a large ground loop that’s how geothermal works too.
The clever thing is to do this at house size and use a pool as the water source…. Then you have a pool heater as well.
We used portable AC units for interior rooms in a university which were hooked up to sinks for cold water sources. They worked great and used about 1/4 gal of water per mins
3:48 the censoring lmaooo i love this channel
we don't actually care abt identity leaks now
Me: randomly searching aircon and im here now +1 Subscribe
I want to convert a portable AC into water cooled like this , but i dont have the knowledge about air conditioner and the welding of copper tube, this video is great for me
Pre cool the water with ground loop geothermal.
Ok now we got it working 😂😂
so true
Nice job. very cool
can you make an ac like that that runs on 12v only?
very nice
It would be easier to put the condenser heat exchanger in a tank of water even if you have to make the tank out of plywood and J B weld.
And then when the water tank gets warm?? Are you going to make a water chiller for that tank?
@@racerdude7149
Not everyone shares your IQ. Most people assume that one way or another the water will have enough cooling surface to maintain temperature. This is a way of using water cooling without cutting the refrigerant pipe.
whats the difference in watt? is it more efficient in power consumption?
yes, it was close to 80% more efficient
@@ianbuilder What is your math on that? All you have eliminated power-wise was the condenser fan. You are still running the compressor and you still need a blower for the evap coil. Condenser fans usually only make up about 10-20% of the power consumed in an AC unit. Supply fan motors are also about 10-20% and the compressor is about 70-80%. And, you are either going to waste a ton of water on an open loop, or you still need a way to cool the water on a closed loop. So you will need a fan/radiator setup somewhere to reject the heat from the water. All you did was make this unit a little quieter.
How long did it run like this? Any data on amps and such? Thanks for the vid it’s thought provoking.
its still going drew 400w at 120v
My god, its not even flared. Im surprised the hose didnt fly off
Nice modification. I think you can cool the water using a high efficient radiator or use the radiator used on the AC so that you can extend the heat away. This way, no window rooms can have AC now. I have a batch freezer used to make ice cream and it is water cooled which water is wasted to drain, was thinking on using a radiator to cool the water and place it outside/different location.
When is jet powered ac dropping?
damnnn i need to think how that would work first
How to use water to cool if i have no water tap? Can i use a water pump instead? How to get cool water if i have no water tap? Do i need to add coolant liquid to the water ?
Nice work for explaining the process. How did you size the flat plate heat exchanger?
Sizing a Water-Cooled Heat Exchanger for 12,000 BTUs
Understanding the Basics
Before diving into calculations, it's essential to understand the key parameters:
* Heat Load: The amount of heat to be removed, which is 12,000 BTUs in your case.
* Inlet and Outlet Temperatures: The temperature of the water entering and leaving the heat exchanger.
* Water Flow Rate: The volume of water passing through the heat exchanger per unit time.
* Heat Transfer Coefficient: A measure of how efficiently heat is transferred between the two fluids.
Steps Involved:
* Determine Inlet and Outlet Water Temperatures:
* This depends on your application. For example, if cooling a machine, you'd want to determine the maximum allowable outlet water temperature.
* A typical range might be 70°F to 90°F.
* Calculate Required Water Flow Rate:
* Use the following formula:
* Q = m_dot * Cp * ΔT
* Where:
* Q = heat transfer rate (BTU/hr)
* m_dot = mass flow rate of water (lbm/hr)
* Cp = specific heat of water (BTU/lbm°F)
* ΔT = temperature difference between inlet and outlet water (°F)
* Rearrange the formula to solve for m_dot.
* Estimate Heat Transfer Coefficient:
* This depends on the heat exchanger type (shell-and-tube, plate, etc.), materials, and flow conditions.
* Typical values can range from 100 to 1000 BTU/hr-ft²-°F.
* Calculate Required Heat Transfer Area:
* Use the following formula:
* Q = U * A * LMTD
* Where:
* Q = heat transfer rate (BTU/hr)
* U = overall heat transfer coefficient (BTU/hr-ft²-°F)
* A = heat transfer area (ft²)
* LMTD = log mean temperature difference (°F)
* Calculate LMTD based on inlet and outlet temperatures of both fluids.
* Rearrange the formula to solve for A.
* Select a Heat Exchanger:
* Use the calculated heat transfer area to select a heat exchanger from manufacturer catalogs or consult with a heat exchanger specialist.
* Consider factors like pressure drop, materials compatibility, and cost.
Additional Considerations:
* Fouling: Over time, deposits can form on the heat exchanger surfaces, reducing efficiency. Consider fouling factors when calculating the heat transfer coefficient.
* Pressure Drop: Ensure the selected heat exchanger has an acceptable pressure drop for your system.
* Material Compatibility: Choose materials compatible with the fluids involved.
* Cost: Balance performance requirements with budget constraints.
Example:
Assuming:
* Inlet water temperature = 70°F
* Outlet water temperature = 90°F
* Desired water flow rate = 10 gallons per minute (gpm)
* Estimated heat transfer coefficient = 300 BTU/hr-ft²-°F
You can calculate the required heat transfer area and select a suitable heat exchanger.
Note: This is a simplified overview. Accurate heat exchanger sizing often requires detailed calculations and consideration of various factors. Consulting with a heat exchanger expert is recommended for complex applications.
Would you like to provide more specific information about your application, such as the type of fluid being cooled, desired temperature, and available water supply? This would help in providing a more accurate sizing recommendation.
Water cooled condesners are already there in commercial units
not in room sized units
I love they way he explains shit
Bro, when people want to water cool AC units...this is just the start. Once you get some cooper tubes on that thing it'll be sick, however, be careful with refrigerants, compressors can be oicky about what thyley want to oump.
My guy it’s Bryan I need a 36v battery 20AH for my Jetson bolt pro😊
email me
What is it again I forgot bc
nice
Next step, replace your home ac condenser with a more sizable heat exchanger, get a hot tub, profit
3:55 ,, man are you alrigth,, what happened to your neck there?
I wonder if this will get like 100,000 views like your other ac video
i hope
Great music lol
0:56 I've never heard you say this before.
Are you cheese
😂😂 amazing 😂
Highly energy insufficient
The EPA would like to know your location.
as you could see i used butane instead
@@ianbuilder Please tell us where we could see that you used "butane". At 6:39 we can clearly see you used a can of 134a with a chemical formula of C2H2F4.
No where in this video do we see a can of R600a with a chemical formula of C4H10 (butane / isobutane)
For the ignorant, the main difference between these two refrigerants, 134a is nonflammable while R600a is flammable.
Also, why wouldn't you use propane rather than butane?
R600a (C4H10) costs $0.65 / oz, while propane (C3H8) costs $0.01 / oz
@@PH_INFO_101 6:55
@@ianbuilder My apologies sir. I stand corrected
@@PH_INFO_101 its all good ,thanks for watching