Thank you Mr.Ahmed, really appreciate this video. I am a Mechanical Engineering student. I look forward to be working with a gas industry. This video had helped me to understand the important processes within the major vessels. Thank you once again.
Wow...I am a Process instrumentation and control student,few hours ago I have been going through different books trying to understand the theory behind distillation chambers..after this video I see no need for going back to those book,you've answered all my questions..thank you for your effort sir
Perfect explanation. I have learnt the process from my own Fractionation still, and I love the way you have explained it. The production of alcohol is a very simple process when using a Fractionation still. My output (for the last 8 years) has always been 94.5 percent. And the liquid which I drink, either that which I have put through may carbon column, or that which I drink straight, is magnificent. Thanks for the video. I will keep a copy to show my friends. Cheers.
Simply the best content I’ve ever found on RUclips. Explaining using the visual effects helps a lot. Thank you Mr. Ahmed for the explanation of the topics. Will look forward for the other videos posted on your channel for clearing my doubts. 👍🙂
Thank you so much for this video! I've been trying to understand Fractionating still or Column still (in the alcohol industry), my doubts and questions are all clear now! Thank you Mr. Ahmed!
Oh my god this video is amazing! Thank you very much Mr.Ahmed! Thanks to this i went from barely understanding distillation to understanding all the minor details of such a complex process. Again i have no words but thank you, knowledge is a better life for us all.
what a video Sir ji............. I loved the way it was explained............. looking forward for more video regarding chemical engineering fundamentals.............. thankyou sir..... :)
While doing the material balance, F (feed)= L (reflux) + D (distillate) here when we apply component balance for the highly volatile component we get FxF = LxL + DyD. So, actually, the reflux is just a condensed stream of the distillate so it will be just a physical split right so, will that mean xL = xD always?
We can't apply the material balance for the feed like this. Your mentioned material balance is for the rectifying part, where V (Vapour of the overhead product) = L(Reflux)+ D (Distillate). We cannot apply this for feed, because the operating line of the feed depends on its enthalpy, hence, part of it might go up as vapors, and part of it might go down as a liquid
The advantage of continuous distillation is that you can make side withdrawing of the product at any stage, top, middle, bottom, etc, to get rid off the undesirable component at any stage , the product at that stage can be fed to more refinery stages (eg: Cracking, Isomerization, treating, reforming, etc)
Adsorption is similar to absorption process, but in the absorption the material absorb on its surface (like activated carbon that absorb fumes). adsorption is always related to a solid material that adsorb fluid (gas or liquid) the adsorption process is physical process (reversible), but if it irreversible it is normally known as (chemisorption). Hope you find it useful
Mole fraction changes along the column, as you go up the fraction of the more volatile component increases, and as you go down, the less volatile component increase.
Thank you Mr.Ahmed, really appreciate this video. I am a Mechanical Engineering student. I look forward to be working with a gas industry. This video had helped me to understand the important processes within the major vessels. Thank you once again.
Thanks so much for your kind words. I am so glad that you found it useful
Thank you so much for this video.
As a chemical process operator i am now fully aware of what is actually happening in my process 🌡
Thank you so much
Wow...I am a Process instrumentation and control student,few hours ago I have been going through different books trying to understand the theory behind distillation chambers..after this video I see no need for going back to those book,you've answered all my questions..thank you for your effort sir
Thanks a lot for your kind words and feedback
Perfect explanation. I have learnt the process from my own Fractionation still, and I love the way you have explained it. The production of alcohol is a very simple process when using a Fractionation still. My output (for the last 8 years) has always been 94.5 percent. And the liquid which I drink, either that which I have put through may carbon column, or that which I drink straight, is magnificent. Thanks for the video. I will keep a copy to show my friends. Cheers.
Thanks a lot. Most welcome :)
Simply the best content I’ve ever found on RUclips. Explaining using the visual effects helps a lot. Thank you Mr. Ahmed for the explanation of the topics.
Will look forward for the other videos posted on your channel for clearing my doubts.
👍🙂
Thanks a lot. Highly appreciate your kind words
Sir kindly make a video on the method to find tower diameter and tray design !
sure, I will
Thank you so much for this video! I've been trying to understand Fractionating still or Column still (in the alcohol industry), my doubts and questions are all clear now! Thank you Mr. Ahmed!
You are most welcome :)
Oh my god this video is amazing! Thank you very much Mr.Ahmed! Thanks to this i went from barely understanding distillation to understanding all the minor details of such a complex process. Again i have no words but thank you, knowledge is a better life for us all.
Rafael Becker my pleasure, you are most welcome :)
1 video > Years of expensive study
Thanks Sir for this superb video
Thanks for your comment. Most welcome
Thank you. Fascinating.
Thank you so much
❤❤❤❤❤❤❤❤❤
Thank you Dr. Ahmad
شكرا جزيلا لك
Thank you so much Mr.Ahmed Elkhatat. This video is very useful!!!
Thanks a lot. Highly appreciate it
What a great video. Really appreciate your content. Hat down.
what a video Sir ji............. I loved the way it was explained............. looking forward for more video regarding chemical engineering fundamentals.............. thankyou sir..... :)
Thanks a lot. Most welcome :)
Very useful, made clear regarding many concepts which are bit hard to understand. Thnq Ahmed
Many Thanks :)
Really it help me a lot sir .thank u😊 for ur valuable time me to understand this concept better
Thank you Mr Ahmed I found it very useful I have learned to much information .
Thank You so much. Appreciate it
It is really appreciatable
Most welcome :)
Thank you so much. You made it look so easy.
Thanks so much for positive comments. Happy to make it easy
Its very useful for my report. Thank you Sir.
Excellent video.Explains a lot of concepts
Thanks a lot. Highly appreciate it
Many Thanks :)
Thank you so much professor. This video is very helpful. Thanks for sharing.
Thanks Negar, you are most welcome
much appreciated mathematical concepts kudos
very instructive video
thank you 👏👏😊
Nice way of explanation about distillation method.
Thanks a lot :)
A+++++ for testss, lets goooo.....
Thank you :)
Vere level broooii....will score full marks✌️✌️✌️✌️✌️🙌🙌🙌🙌
Thanks a lot for your kind words
Very helpful video, thank you
Most welcome
Thank you for a very useful and informative explanation video.
Delta Steam Systems most welcome
The part of the video was posted in 2010 by ChemicalEngineering
Yes, the animation part, here is the link for your reference. ruclips.net/video/vscX_zawdQw/видео.html
Dear Ahmed, keep going, we are learning for ya
جزاكم الله خيرا
So much's for everything
Well , thanks
Thank you so much🙏
Thank you very much
Many thanks
E como saber o momento de descartar o líquido mais pesado do fundo?
Nice video I really like it
Vry Nic Sir, I'm from India
Thanks so much. All love for India
Excellent video!
Thanks so much for the positive comment
Thanks Allot Mr
I'm asking for animation software makes this process?
Thanks for your feedback. This type of animation is created by a graphic designer by media companies
THANKS SIR... GREAT EXPLANATION
Dipak Giram most welcome
great video
Thanks so much for the positive comment
This video is very helpful .....
Thank you very much.
Thanks a lot. Highly appreciate it
Helped very much thank you.
Thanks a lot. Highly appreciate it
While doing the material balance, F (feed)= L (reflux) + D (distillate) here when we apply component balance for the highly volatile component we get FxF = LxL + DyD. So, actually, the reflux is just a condensed stream of the distillate so it will be just a physical split right so, will that mean xL = xD always?
We can't apply the material balance for the feed like this. Your mentioned material balance is for the rectifying part, where V (Vapour of the overhead product) = L(Reflux)+ D (Distillate).
We cannot apply this for feed, because the operating line of the feed depends on its enthalpy, hence, part of it might go up as vapors, and part of it might go down as a liquid
Thank you so much this video is very help full
Thanks a lot. Highly appreciate it
thank you
this is very helpful
Thanks a lot. Most welcome :)
I am di heart fan of ur sir
Thanks a lot Kapil :)
Thank you
shyam dodake most welcome
Nice
thanx
Most welcome
In batch distillation, the head and tail contain undesirable components, what happens in the continues distillation?
The advantage of continuous distillation is that you can make side withdrawing of the product at any stage, top, middle, bottom, etc, to get rid off the undesirable component at any stage , the product at that stage can be fed to more refinery stages (eg: Cracking, Isomerization, treating, reforming, etc)
I want to know what is the meaning of adsorption ??? Thank you for this valuable information, Mr. Ahmed💖💖💖
Adsorption is similar to absorption process, but in the absorption the material absorb on its surface (like activated carbon that absorb fumes). adsorption is always related to a solid material that adsorb fluid (gas or liquid) the adsorption process is physical process (reversible), but if it irreversible it is normally known as (chemisorption). Hope you find it useful
If it physical separation in the condensor then why is the mole fraction of reflux changing
Mole fraction changes along the column, as you go up the fraction of the more volatile component increases, and as you go down, the less volatile component increase.
@@medoKhatat can we consider rectification column as a absorber and workout as absorber
@@koneruneelesh79 Surely you can
吃了听力不好的亏
我很抱歉
thank you
most welcome
thankyou
Most welcome :)