In this video I show detailed calculations for a lab experiment 'Flow through a Venturi meter' that you would need to do to produce a professional lab report.
It is a very good video and a very detailed explanation was made. Luckily, I found this video which is very helpful for me because I am stuck with collecting information for a Venturi Type Gas Burner thesis in which I need to do Engineering Design Calculation, Modelling, Fabrication and Performance. It would be grateful, if you could share some information, articles, TH-cam and calculation formula with me. Thank you so much. 🙏
Equation that links Q with drop in piezometric head (h1-ht) is derived from Bernoulli equation. For ideal fluid (i.e. viscosity equal to 0) there is no C (C is a discharge coefficient). Real fluids: there is friction and the discharge coefficient C is introduced into the equation for flow rate. Then all constant values, e.g. cross-section areas, gravity, etc, are defined as a parameter B that is constant for a specific Venturi meter. For different Venturi meters B may be different, as cross-section areas for tube 1 and the throat may be different. I hope this helps, but it would probably be easier to follow if you see derivation on a paper. You can send me an email (learning4career.nn@gmail.com) and I will send you a few slides. Reply to this comment when you send me an email.
@@dace5216 You can download file using the link below. docs.google.com/spreadsheets/d/1YUitIIJJt1eBxZQMrvhI9BHmTwIs3Af-/edit?usp=sharing&ouid=118309711953007629322&rtpof=true&sd=true
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Great video! Thanks for proving detailed explanation on laboratory data processing!
My pleasure!
Just watching this before I write a report and the explanations are wonderful. Thank you so much!
😊🤗😊🤗
It's very helpful, thank you so much. Algeria
Very useful video. Thanks for sharing.
In this video I show detailed calculations for a lab experiment 'Flow through a Venturi meter' that you would need to do to produce a professional lab report.
Hi, you did a great job. Can you send the excel file to me please
Such a helpful video. Thank you so much!
Thank you so much maam...Lots of love from Pakistan😍
It is a very good video and a very detailed explanation was made. Luckily, I found this video which is very helpful for me because I am stuck with collecting information for a Venturi Type Gas Burner thesis in which I need to do Engineering Design Calculation, Modelling, Fabrication and Performance. It would be grateful, if you could share some information, articles, TH-cam and calculation formula with me. Thank you so much. 🙏
For sudden contraction and expansion graphs ps
Hi, really helpful video. could you explain how did you arrive at the "B" and "C" equation
Equation that links Q with drop in piezometric head (h1-ht) is derived from Bernoulli equation. For ideal fluid (i.e. viscosity equal to 0) there is no C (C is a discharge coefficient). Real fluids: there is friction and the discharge coefficient C is introduced into the equation for flow rate. Then all constant values, e.g. cross-section areas, gravity, etc, are defined as a parameter B that is constant for a specific Venturi meter. For different Venturi meters B may be different, as cross-section areas for tube 1 and the throat may be different. I hope this helps, but it would probably be easier to follow if you see derivation on a paper. You can send me an email (learning4career.nn@gmail.com) and I will send you a few slides. Reply to this comment when you send me an email.
thanks inek
Can you give me a copy of these tables and curves, please?
Do you mean you would like an excel file to do calcs?
@@StudyTips4U Yes, I need a copy of the Excel file of the work you did in the video, if possible.
@@dace5216 You can download file using the link below.
docs.google.com/spreadsheets/d/1YUitIIJJt1eBxZQMrvhI9BHmTwIs3Af-/edit?usp=sharing&ouid=118309711953007629322&rtpof=true&sd=true
@@StudyTips4U thank you)
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