Interesting. But the main thing here is with the volute design vs. much going on with the impeller. The unique aspect is purposely drawing in the air which gets entrained into the liquid, which is what the wedge offset is made for.
this sure is a fancy presentation for a common pump design. if i where an investor i would only want to look at the efficiency curve and the weight to power factor
Main products: sealing gasket,gland packing,PTFE/graphite/asbestos products, ceramic fiber products, high temperature heat insulation and fireproof material. Free technical support (sealing, heat preservation, heat insulation, fire prevention problems) All products 1 piece can also be customized, 30 years of service experience, fast and safe shipping anywhere.
The water does not compress, the air mixed with it does. It works by reduction in volume of the combined air /water solution. In combines kinetic energy via the impeller's acceleration of the fluid with a nozzle to accelerate the compressed air. This would work
By adding air into the water, he has made the water+air mixture semi-compressible. When the air expands, it became cooled, thus extract heat from the water. This is the real reason why this pump is so much more powerful, because it extracts heat from the water and turn that into kinetic energy. So I suspect the water temperature at the nozzle is COLDER than the feed water temperature.
While you can compress water, or almost any material. However, it requires a great deal of pressure to accomplish a little compression. For that reason, liquids and solids are sometimes referred to as being incompressible. So exactly how much compression of water did you achieve with this little pump that moves less than 75 gallons per minute with a 20' lift?
"So exactly how much compression of water did you achieve with this little pump that moves less than 75 gallons per minute with a 20' lift?" By adding air into the water, he has made the water+air mixture semi-compressible. When the air expands, it became cooled, thus extract heat from the water. This is the real reason why this pump is so much more powerful, because it extracts heat from the water and turn that into kinetic energy. So I suspect the water temperature at the nozzle is COLDER than the feed water temperature.
I like the design, particularly the "cam shape" of the first part of the volute the liquid passes through that allows the water to gain speed gradually, but I have some questions. The efficiency, the energy in terms of (pressure X volume)/ energy in runs around 50%. How does this compare with other pump designs? I expect your design is very sensitive to solids in the liquid being pumped, as it has relatively close contact between the rotor, and the volute. How much sand can it tolerate in the water being pumped?
I think the pressure is due to the tighter tolerance between impeller and housing. I am very interested in learning more. I love the idea of adding gases to the water stream without losing prime. Lots of water treatment solutions there.
I don't understand what's so special about the pump. The claim is that it can pressurize without cavitation... yet it clearly states the use of air injection into the fluid. It's the air that cancels out the cavitation, AND decreases the efficiency of the pump. You can do this with the worst of inefficient and cavitating designs... simply because the air works as a damper to alleviate the pressure variations, thus cancelling the micro-zones of negative pressure which cause the cavitation. Simply show a direct comparison of your product, as opposed to outrageous claims. It's as simple as kW/flow@pressure. If it's truly more efficient, the numbers will speak for themselves.
You all prolly dont give a shit but does anyone know a tool to log back into an Instagram account? I somehow forgot the account password. I would love any help you can offer me.
@Ahmed Ryan Thanks so much for your reply. I found the site thru google and I'm waiting for the hacking stuff now. Takes a while so I will reply here later with my results.
Its getting hard to tell some from when these videos were made. Looked back in the 80's, and yes indeed, pumps been around for a while. sigh. And yes, the music gave it away.
The first thought of most people is.... If you have such bad judgment to put loud, ridiculous music to a video such as this, expecting serious consideration from others, you probably aren't smart enough to design a good pump.
where it starts to accelerate the output comes into play so it can move forward it output as it accelerate never really compresses I can see it working just my two bob
Can you give me a list of every person, place, device, and thing that this pump has changed? Oh I may already have that list right here, let's see. Oh yes, here it is. it's a blank piece of paper
Not trying to jump on the pump bashing band wagon here, buuuut........the air mixed with water will erode your impeller and pump volute in a much shorter time than any expected useful service life. Senior Stationary Engineer, NYC, 31 years experience. On to the next one!
Mixing air into your water flow is the WORST thing you can do for flow, pressure, and pump life. Air is the ENEMY of good flow, ask any firefighter, farmer, or other pump operator. Getting air OUT of the system is essential. It's called PHYSICS.
"when you compress air it builds heat. that interms will most likely prematurly wear out seals." Not when the air is mixed with water. Water could absorb a lot of heat.
Peter4101 the same technology of every outboard motor engine cooling where made of flexible rubber empeller . Good that it is applied in agri and industrial ussages
Isn't that interesting - - - -not. I had a centrifugal pump on my gold dredge 30 years ago that had 150 foot of head pressure and could pump 400 gallons per minute. There were already plenty of other similar pumps. I see absolutely nothing new, imaginative or even slightly interesting here. How's the hunt for investors going, ha ha hahh.
Interesting. But the main thing here is with the volute design vs. much going on with the impeller. The unique aspect is purposely drawing in the air which gets entrained into the liquid, which is what the wedge offset is made for.
this sure is a fancy presentation for a common pump design. if i where an investor i would only want to look at the efficiency curve and the weight to power factor
I think this is just a derivation from common centrifugal pumps to increase head pressure at the outlet.
I wish adverts were made in this style still
Main products: sealing gasket,gland packing,PTFE/graphite/asbestos products, ceramic fiber products, high temperature heat insulation and fireproof material.
Free technical support (sealing, heat preservation, heat insulation, fire prevention problems)
All products 1 piece can also be customized, 30 years of service experience, fast and safe shipping anywhere.
Fascinating! Has anyone ever adapted this as a refrigerant compressor?
Did you built a working model? Please share a video of that!
The water does not compress, the air mixed with it does. It works by reduction in volume of the combined air /water solution.
In combines kinetic energy via the impeller's acceleration of the fluid with a nozzle to accelerate the compressed air.
This would work
Mixing air with your water produces REDUCED output. Air is the enemy of good water flow and pressure. This pump fails on basics.
elmura73 m
By adding air into the water, he has made the water+air mixture semi-compressible. When the air expands, it became cooled, thus extract heat from the water. This is the real reason why this pump is so much more powerful, because it extracts heat from the water and turn that into kinetic energy. So I suspect the water temperature at the nozzle is COLDER than the feed water temperature.
While you can compress water, or almost any material. However, it requires a great deal of pressure to accomplish a little compression. For that reason, liquids and solids are sometimes referred to as being incompressible. So exactly how much compression of water did you achieve with this little pump that moves less than 75 gallons per minute with a 20' lift?
"So exactly how much compression of water did you achieve with this little pump that moves less than 75 gallons per minute with a 20' lift?" By adding air into the water, he has made the water+air mixture semi-compressible. When the air expands, it became cooled, thus extract heat from the water. This is the real reason why this pump is so much more powerful, because it extracts heat from the water and turn that into kinetic energy. So I suspect the water temperature at the nozzle is COLDER than the feed water temperature.
I just looked out my front door. The world is still the same. :(
i just checked to man still no change n its been 3 months since you checked !!
@@raymondj8768 have you guys checked lately? I feel like this pump has got a lotta 'splainin to do, am I right?
Would you mind putting a few more banners at the beginning ? I can still see the screen .
Very humorous comment. Very very humorous.
I like the design, particularly the "cam shape" of the first part of the volute the liquid passes through that allows the water to gain speed gradually, but I have some questions.
The efficiency, the energy in terms of (pressure X volume)/ energy in runs around 50%. How does this compare with other pump designs?
I expect your design is very sensitive to solids in the liquid being pumped, as it has relatively close contact between the rotor, and the volute. How much sand can it tolerate in the water being pumped?
I think the pressure is due to the tighter tolerance between impeller and housing. I am very interested in learning more. I love the idea of adding gases to the water stream without losing prime. Lots of water treatment solutions there.
The narrow outlet helps too... the older design has the outlet getting larger...
I don't understand what's so special about the pump. The claim is that it can pressurize without cavitation... yet it clearly states the use of air injection into the fluid. It's the air that cancels out the cavitation, AND decreases the efficiency of the pump. You can do this with the worst of inefficient and cavitating designs... simply because the air works as a damper to alleviate the pressure variations, thus cancelling the micro-zones of negative pressure which cause the cavitation.
Simply show a direct comparison of your product, as opposed to outrageous claims. It's as simple as kW/flow@pressure. If it's truly more efficient, the numbers will speak for themselves.
You all prolly dont give a shit but does anyone know a tool to log back into an Instagram account?
I somehow forgot the account password. I would love any help you can offer me.
@Brett Mack Instablaster =)
@Ahmed Ryan Thanks so much for your reply. I found the site thru google and I'm waiting for the hacking stuff now.
Takes a while so I will reply here later with my results.
@Ahmed Ryan It did the trick and I finally got access to my account again. I am so happy:D
Thanks so much you really help me out!
@Brett Mack no problem xD
This might be an excellent swimming pool circulation pump if designed using noncorroding materials and built for continuous outdoor service.
Thank you.
hello brother 👋😊👋😊😎
Okay Algorithm, take me down the rabbit hole as you please.
Its getting hard to tell some from when these videos were made. Looked back in the 80's, and yes indeed, pumps been around for a while. sigh. And yes, the music gave it away.
That's sonic the hedgehog music. Hah. Figured it out
Outstanding.
The first thought of most people is.... If you have such bad judgment to put loud, ridiculous music to a video such as this, expecting serious consideration from others, you probably aren't smart enough to design a good pump.
my thoughts exactly !
Video music is very annoying
Lets all make YT change copyright policy. Let the artist complain. You buy the music it's yours to play, right?
How does it work when the suction is a vacuum (28"hg) thus depleted of air.
Good idea. But the water exit could be straight. The curved elbow creates energy loss and friction.
(1:53)
where it starts to accelerate the output comes into play so it can move forward it output as it accelerate never really compresses I can see it working just my two bob
Can you give me a list of every person, place, device, and thing that this pump has changed? Oh I may already have that list right here, let's see. Oh yes, here it is. it's a blank piece of paper
It is very easy to criticize. And very irresponsible. You waste peoples time with your vomit.
Is there someone from the company to talk to about this pump.
IS that Checota from Star Trek?
Useful
Great news where can I get one..... But I have to agree that the back ground music is not great
True!
anthony Stock ৭ঃ
I don't think the music comes with the pump.
anthony Stock a
Water is life .life is motor pump.
Looks like the washing machine drain pump. I'll have to pull one from a junkyard and see if it can take a big motor
were can you get one of those pumps
Millions of them in the washing machine graveyards from sea to shinning sea.
Not trying to jump on the pump bashing band wagon here, buuuut........the air mixed with water will erode your impeller and pump volute in a much shorter time than any expected useful service life. Senior Stationary Engineer, NYC, 31 years experience.
On to the next one!
Cavitation
Mixing air into your water flow is the WORST thing you can do for flow, pressure, and pump life. Air is the ENEMY of good flow, ask any firefighter, farmer, or other pump operator. Getting air OUT of the system is essential. It's called PHYSICS.
what about the ventrulli effect? me thinks physics one upped out again.
Air lift aquaponic Ben and Glen Aqua Zen
when you compress air it builds heat. that interms will most likely prematurly wear out seals.
"when you compress air it builds heat. that interms will most likely prematurly wear out seals." Not when the air is mixed with water. Water could absorb a lot of heat.
Hmmm.... Depending on what meterials its made out of and from were. That could cost you time and limmitation of use. Includeing parts.
Peter4101 the same technology of every outboard motor engine cooling where made of flexible rubber empeller . Good that it is applied in agri and industrial ussages
you seem to have forgotten that liquid is not compressible
music annoy
ALL PUMPS,CENTRIFUGAL,SEMI POS. OR POS. ONLY GENERATE FLOW. PRESSURE IS CREATED BY THAT RESISTANCE TO FLOW. THE END.
335...102 cylinder wall difference
diff in animation...off round ...round
Fancy eurobeat
could you reverse it and make more efficient water turbine generators
also aerated water is probably a factor
wow how is every commenter on here busting a Tomas Edison?? open your mind
Old USSR Technology...
By any chance is your last name Chekov ? :)
Салиман Рашид And Islam is a religion of peace 👌🏻
It works as my dog designed to....
Danillo Gaspar And Islam is a religion of peace 👌🏻
Turned sound off , music sucks.
Aluminium. 2 i' s.
Facts B4 Feelings I wonder why they don't say titanum as well lol!
Ha Ha Nice 1. Exactly though. Also if it' s Aedolf Hitler then why is it America and Apple etc, just asking?
it was shitty music I do agree 100 percent
get rid of the crappy music
We stopped as we could not tolerate the horrible intrusive music! We'll take our money elsewhere!
Not every body likes that dam noise you think is music.
Oo
Devil noise
+
I did it quickly and efficiently with instructions from Avasva webpage.
not new design any1 can make this not patentable out old tech smoking own ass.
Take a hydro-engineering class . Liquids , water , does NOT compress !
Sound like christian rock concert, give it a rest mate.
Isn't that interesting - - - -not. I had a centrifugal pump on my gold dredge 30 years ago that had 150 foot of head pressure and could pump 400 gallons per minute. There were already plenty of other similar pumps. I see absolutely nothing new, imaginative or even slightly interesting here. How's the hunt for investors going, ha ha hahh.
Looking for a large cash donation to finish the project or lodge into my fake bank account.No 123456789.Trust me not a scam.
Can you give us an email contact that works?