Sir, Actually I heard frequently about this curve but don't know much. In this video I totally understand the actual concept & really appreciate your efforts & way of teaching sir. In fact watching your videos are not only learning but also the enjoyment of study. Great work sir...... Thanks... Please keep it up..... All the Best...... God Bless U......!!!!
It's a very good video to understanding the relationship between head and discharge Once again make these type of video and share the knowledge with us
very good explanation with simple analogy of fan (power HP), discharge valve tap (for head/press) and efficiency (motor bike green zone) for max efficiency of pump and optimum rate ..
Fad diya apne bro is topic ko Maine kafi video dekha kuch Samaj nahi Aya sab line hi padhte the aur graph to samjate the unko bhi nahi Pata tha ki wo kya bol Rahe he🤣🤣par apka kya hi tarif karu ,bajrangbali bless you😊😇🥰🙏
Well , am at the technician level employee, unfortunately no-one seems to like sharing knowledge about these topics. Your video and explanation did help me a lot. Thanks and is there any PDF format about pumps.
Sir aapka video bahot acha laga lekin last mein jo aapne graph banaya usme do galatian thi. Power curve 0,0 se start nahi hoti aur doosra efficiency curve or head curve intersect karte hain. Best efficiency point se agar x axis pe ek perpendicular draw karein jahaan wo head curve ke saath intersect karti hai use hum maximum head for best efficiency kahte hain.
Sir isme for discharge vs power , graph does not starts from zero as discharge is zero due to closed valve there is some power which is greater than zero .... It should start from Y-axis ...
If i am not wrong, Power curve will not pass through origin, just slightly away from origin on the y-axis because of overcoming mechanical losses at zero discharge. Would u plz clarify that??
Kya banda hai yaar sidha baate dil aur dimag me utar jata hai . Thanks a lot Sir
watched around 3-4 videos related this, but your video clear me this concept from basics. thank you..
Sir,
Actually I heard frequently about this curve but don't know much.
In this video I totally understand the actual concept & really appreciate your efforts & way of teaching sir.
In fact watching your videos are not only learning but also the enjoyment of study.
Great work sir...... Thanks...
Please keep it up.....
All the Best......
God Bless U......!!!!
For more information about pump characteristic curve
ua-cam.com/video/m5dLjiWdFVg/v-deo.html
बहुत बढ़िया एक दम अच्छे से समझ आ गया
Good 👍
Thankuu so much ......Maine isko bhot bar pdha but kabhi 100% smjh hi nhi aaya but aj aagya .... Thanks a lot again 😊👍👍
आप का योगदान अतुलनीय रहेगा हमारे जीवन मे , बहुत आभार सर जी
5/5 for the content. But make sure to remove background noises in future videos.
It's a very good video to understanding the relationship between head and discharge
Once again make these type of video and share the knowledge with us
For more information about pump characteristic curve
ua-cam.com/video/m5dLjiWdFVg/v-deo.html
Kya samjhaya hai boss... Maza aa gya.. Aur lectures bnate jae aise hi...
Your each and every video is too good for understand, thank u sir 🙏🙏
Most welcome dear
Share
Being honest ure best 💯💯
Thank you🙏
Share video
very good explanation with simple analogy of fan (power HP), discharge valve tap (for head/press) and efficiency (motor bike green zone) for max efficiency of pump and optimum rate ..
For more information about pump characteristic curve
ua-cam.com/video/m5dLjiWdFVg/v-deo.html
Perfect explanation bhaiya with realistic example 👍
Are sir aap sahie mayne me great ho bless you and keep it up sirji
Bahut acha samajhatein hain aap...thank you sir
Nice video bhai..aise hi age bado hum tumhare sath hai..
Thank you very much sir.... For explaining so nicely that anyone can understand . 🙏🙏🙏
Most welcome dear 💐
Share video
Kya baat hai, sir excellence explained
Badiaa..thank u bhai.
Ab samaj me ayyaa...
Nice sir 👍 better understand
Reciprocating pump characteristics curve bhi explain kr do ...
Nice explain sir ji ...😘
Excellent explanation sir
Sir line sizing aur valve sizing per bhi video banaiye apka smjhane ka tarika bhut accha h please
You are genius sir 🙏
Thanks sir aap ki iss video ka wait ker rha tha
Very nice 😀👌 Nice explaination
All videos are very good explained
Bht bdhiya sir..
Bahut bahut bada doubt clear ho gaya sir g
Nice content
बहुत बढ़िया! व्याख्या
Supabbbbb video sir mind blowing sir👌👌👌👌👌
SIR VERY GOOD EXPLANATION 👌👌👌
Fad diya apne bro is topic ko Maine kafi video dekha kuch Samaj nahi Aya sab line hi padhte the aur graph to samjate the unko bhi nahi Pata tha ki wo kya bol Rahe he🤣🤣par apka kya hi tarif karu ,bajrangbali bless you😊😇🥰🙏
Good explanation sir well done👌
thanks sir bahut badiya video h
Superb explanation sir!!!!!!!
THANK YOU SO MUCH!!
Thanku for your efforts
Most welcome🎉
Nice sir👌
Very nice video sir.....✌️
Very awesome sir.
Very good explanation
Best teacher
Thankyou sir😃....Very nicely explained👍
Great explanation 👍
Very great explanation #shahab
Bahut kuch samj me aya sir jji
Thank you much sir....
This is very helpful for us.
Achha samjhaya aapne.
Thank you so much sir..😀😀 i was looking for it..😊😊
sir in the final graph you forgot the initial load on the motor. Nevertheless great video sir.
Thank you well explained
Nice explain bhai
Thanks 👍👍👍
@@chemicalpedia6379 and the
awesome explanation
Well , am at the technician level employee, unfortunately no-one seems to like
sharing knowledge about these topics. Your video and explanation did help me a lot. Thanks and is there any PDF format about pumps.
For more information about pump characteristic curve
ua-cam.com/video/m5dLjiWdFVg/v-deo.html
Thanks sir 🥰
dear veey nice . please give a lecture about usage of lube oil and its quantity in pump .
Sir ji aap fan slow chlae ya fast electricity consumption same hi rhega.
Thank you , For the simple explanation ✌️
Thanks a lot
Most welcome
Very nice explnation
Good explanation...tqs sir..
Thank u so much sir 🤗🤗🤗
Nice teach brother👌
thank you so much sir.
your techinque😍😍😍😍
Thanks sir, please make a vedio for curves of reciprocating pump
Thankyou!💯
Very nice video
Good but discharge head ke bare me bhi please btaye usko kase fics karte hai ya kase kiya ja sakta hai
gooooooooooooooooooooood sirrrrrrrrrrrrrrrrr
Sir u r awesome👍
Plz tell me ur name
Also please make curves for multi stage centrifugal, reciprocating and vacuum pump
Nice 👍
Sir aapka video bahot acha laga lekin last mein jo aapne graph banaya usme do galatian thi. Power curve 0,0 se start nahi hoti aur doosra efficiency curve or head curve intersect karte hain. Best efficiency point se agar x axis pe ek perpendicular draw karein jahaan wo head curve ke saath intersect karti hai use hum maximum head for best efficiency kahte hain.
For more information about pump characteristic curve
ua-cam.com/video/m5dLjiWdFVg/v-deo.html
Thank you sir.
Sir pump ki discharge height increase kare to flow rate & pressure pe kya farad padega & why?
Sir centrifugal pump me head ka kya kaam hota hai please reply sir 🙏🙏🙏🙏🙏🙏
sir, ADU AND VDU par video banaye please
Sir, is the energy to lift a 10 kg of water needs the same energy to lift 10 kg of Iron in same time and speed and height ?
Reciprocating pumps ki be yehi hai kya?
Super sir
exellent
thanks sir !
nyc bhai
Sir isme for discharge vs power , graph does not starts from zero as discharge is zero due to closed valve there is some power which is greater than zero .... It should start from Y-axis ...
For more information about pump characteristic curve
ua-cam.com/video/m5dLjiWdFVg/v-deo.html
Speed vs power, efficiency, head... Uska banado bhaai
Sir how rpm is related to head and discharge
Best sir
Mohabbat bhi jaruri thi
Bichhadna bhi jaruri tha
Background music
Good Sir jee
Thanks sir
sir head or pressure head 1 hi hai kya?
Thank you sir
Fan ko 1 pe chalao ya 5 pe power consumption same hi hota hai...
If i am not wrong, Power curve will not pass through origin, just slightly away from origin on the y-axis because of overcoming mechanical losses at zero discharge.
Would u plz clarify that??
Yes , but In starting of video he has drawn right curve of power vs flow rate
nice sir
Sir tq so much ...
Nice sir