What an impressive e-tutoring! I wish I had this one when I was a new recruit! Compliments to the visual content - and always to the precious solid know-how.
The presentation can be improved 2:45 by (1) label inlet/outlet/low/high pressure, (2) clearly define permeable structure and separation barrier, (3) explain structure packed, (4) explain the terms "reflux", "wash" and (5) generally descriptive about what is happening such as LN2 input are boiling or oxygen gas is condensing or gas/liquid flowing up/down (cross-flow) in the structured pack or sth like that.
Usually they pipe the gases into a big vessel filled with molecular sieves and alumina to remove the 1) moisture, 2) stray hydrocarbons, and 3) carbon dioxide. The gases stick to these filtering media and will eventually be saturated so they need to be "flushed" out with a cheap dry gas. Normal air cannot be fully dry, so sometimes, the plant uses the nitrogen gas it made itself to flush the molecular sieve and make it ready to work again. Its elegant. The product is used to maintain the plant. They turn off the flow into the mol sieve and heat the nitrogen and pipe that hot and dry nitrogen back into the mol sieve. The hot and dry nitrogen will make the three waste gases unstick from the mol sieve and alumina and vented out of the mol sieve. Once the second tank gets saturated, they swap back to the first. Repeat over and over
My name is Eltai Musa studant in sudan unversity of sciense and technology chemical engineering department my graduation project is to improve the production of liquid oxygen in plant called Air king plant is using cryogenic air separation units may you help me to get the best alternative soluation
I think this is more engineering (thermodynamics) than it is chemistry. Fun fact, usually they use turbomachinery as the main compressor. You need to compress a lot of air to form a bit of liquid so you need the high volume capacity that turbines offer. Compressing the air makes the air rise in temperature, so theres multiple stages of the air being compressed, being cooled by chilled water tubes and then compressed again multiple times. Once enough heat is removed from the gas, the gas can be released into a chamber and the expansion is the final temperature drop that liquifies everything. Ofc different plants may have different processes with different amounts of whichever gas its designed for. Some make a lot of liquid for transport with trucks. Some plants are designed to make more gas to sell to other factories by pipeline. Tbh I myself dont even know any single process fully. Really cool factories
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What an impressive e-tutoring! I wish I had this one when I was a new recruit! Compliments to the visual content - and always to the precious solid know-how.
God Bless TEAM SIAD!! Great & Devine Job Done. Keep the Momentum UP
What a great video, beautifully drawn and explained. This is a very helpful educational tool.
Impressive video and owesome video , design and explanation as simple way
tank you siad i like you i like corporations who help the world with innovation
thank you for making this, i think ill show this to co workers
Very nice plant . It helps to the pateients. With pure oxygen
How does the purification unit work and what do you do with the waste just vent it
Very fantastic and thanks 🙏
Amazing animation and very good 3D design, may I know what kind of software you use?
Which method of extraction is it? Do you have an office in India? Do you install/ supply machines in India?
The presentation can be improved 2:45 by (1) label inlet/outlet/low/high pressure, (2) clearly define permeable structure and separation barrier, (3) explain structure packed, (4) explain the terms "reflux", "wash" and (5) generally descriptive about what is happening such as LN2 input are boiling or oxygen gas is condensing or gas/liquid flowing up/down (cross-flow) in the structured pack or sth like that.
Can u say me how u did the animation part in by using which tool Or software
yes, now i can understand how the o2,ar and n2 get pure and compressed into a emty cylinder bottels
Once you have the components of air separated then it can easily be compressed into cylinders as o2/ar/n2.
Very Smart
Working for this company must be a gas. Anytime work is entertaining and amusing it's a gas.
Nice work
very nice video
Thank you very much Mr. Kaushik!
GREAT
Co2 kahan gai yah nahin bataya air men co2 bhi hoti hai..
Usually they pipe the gases into a big vessel filled with molecular sieves and alumina to remove the 1) moisture, 2) stray hydrocarbons, and 3) carbon dioxide.
The gases stick to these filtering media and will eventually be saturated so they need to be "flushed" out with a cheap dry gas. Normal air cannot be fully dry, so sometimes, the plant uses the nitrogen gas it made itself to flush the molecular sieve and make it ready to work again. Its elegant. The product is used to maintain the plant. They turn off the flow into the mol sieve and heat the nitrogen and pipe that hot and dry nitrogen back into the mol sieve. The hot and dry nitrogen will make the three waste gases unstick from the mol sieve and alumina and vented out of the mol sieve. Once the second tank gets saturated, they swap back to the first. Repeat over and over
Very informative
Excellent
Super bro Yen main project
Thanks
How it’s cost
Dear Mr. Osman, for additional information you can send an email at: siadmi_asu@siad.eu
SpaceX watched this video to make their plant
Anyone else here to learn about spacex’s new toy?
Yes :-D
yaa
Im building my own
My name is Eltai Musa studant in sudan unversity of sciense and technology chemical engineering department my graduation project is to improve the production of liquid oxygen in plant called Air king plant is using cryogenic air separation units may you help me to get the best alternative soluation
Idk why I looked this up. It was just a random thought in my brain. I don't even study chemistry
I think this is more engineering (thermodynamics) than it is chemistry.
Fun fact, usually they use turbomachinery as the main compressor. You need to compress a lot of air to form a bit of liquid so you need the high volume capacity that turbines offer. Compressing the air makes the air rise in temperature, so theres multiple stages of the air being compressed, being cooled by chilled water tubes and then compressed again multiple times. Once enough heat is removed from the gas, the gas can be released into a chamber and the expansion is the final temperature drop that liquifies everything. Ofc different plants may have different processes with different amounts of whichever gas its designed for. Some make a lot of liquid for transport with trucks. Some plants are designed to make more gas to sell to other factories by pipeline. Tbh I myself dont even know any single process fully. Really cool factories
Can you tell me total cost of thi plant
Dear Mr. Kamble, you can send an email at: siadmi_asu@siad.eu for any further information. Thank you very much.
Me too
experts in passing gas... lol
(robot trees)
❤️❤️❤️❤️❤️🇧🇩🇧🇩🇧🇩🇧🇩🇧🇩
air lore
praxair logo
Air pollution purification plans boosting system method follows safe earth🌎
Why the lame, cliché music ?
Have you ever seen other companys promo videos? They all use these kinds of background music