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, RUclips 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
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
Great video! Thanks for proving detailed explanation on laboratory data processing!
My pleasure!
Very useful video. Thanks for sharing.
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
Such a helpful video. Thank you so much!
Thank you so much maam...Lots of love from Pakistan😍
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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, RUclips and calculation formula with me. Thank you so much. 🙏
thanks inek
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.
Orfrimeter experiment in english
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)