Solidworks tutorial: Centrifugal Pump Spiral Volute Casing Designing | CFP Casing design
HTML-код
- Опубликовано: 11 сен 2024
- Step by Step designing the Spiral Casing of a Centrifugal Pump
A pump casing is often referred to as a volute. A volute is a spiral-like geometry with an increasing through-flow area, reducing the velocity of the fluid and increasing the static pressure. The fluid exiting the impeller is then diffused towards the casing discharge nozzle.
1. Part 1 Designing Inlet Duct,Impeller of Water Jet Propulsion Unit in Solidworks
• Part 1 Designing Inle...
2. CPU cooling Fan design tutorial in solidworks
• Solidworks tutorial: C...
3. EDF Inrunner Fan design tutorial in solidworks
• Solidworks tutorial: E...
4. Domestic Ventilation Fan solid modelling
• Solidworks tutorial: P...
5. Heavy duty exhaust fan design in solidworks
• Solidworks tutorial: H...
6. Kitchen Exhaust Fan Metallic Blade Design/Solid Modeling tutorial in Solidworks
• Solidworks tutorial: K...
1. Centrifugal Pump Spiral Volute Casing Designing in Solidworks | CFP Casing design
www.youtube.co...
2. Coca Cola Contour Glass Bottle designing in Solidworks | Coca Cola Contour Glass Bottle Design CAD
• Solidworks tutorial: C...
3. Domino's Large Pizza Box designing in Solidworks Sheet Metal
• Solidworks Sheet Metal...
4. Kitchen Sink Designing in Solidworks Sheet Metal | Creating Custom Sheet Metal Forming Tool
• Solidworks Sheet Metal...
5. Mars Rover Curiosity Wheel Designing in Solidworks | JPL Mars Science Laboratory Curiosity
• Mars Rover Curiosity W...
6. Propeller Designing in solidworks 2016
• Solidworks tutorial: P...
7. Swash Plate in Solidworks (Parts Designing, Assembly, Motion)Tutorial
• Solidworks tutorial: S...
8. Swashplate designing in Solidworks
• Solidworks tutorial: S...
9. Single Point Cutting Tool Designing in Solidworks | Using Draft feature of solidworks
• Solidworks tutorial: S...
10. How to design Twist drill bit in Solidworks | Twist drill bit Geometry
• Solidworks tutorial: D...
good video i put slow and could learn , thanks to share
You are welcome!
You are a life saver my friend! We all thank you dearly!
Glad to know that it helped you much.
U are a life saver 🙂 !! Thank you so much !
Awesome work mate , I'm fine with the speed of the video , maybe need to pause sometimes here and there but overall great work !
Thanks!
Glad to know that you understood why video speeds were increased here & there Because there were some repetitive, simple and slow steps.
So,In order to reduce overall video length the speed were increased.
Thanks! Pretty cool tutorial
Glad you liked it!
Sir if in place of back music you explain every command in English it bemes more useful . Very nice. Thanks
i had that idea But I realized that narrating each and every small steps is more irritating. thus i decided to put Subtitle only wherever it requires to explain the important thing. Rest of the things are screen recorded which are self explanatory to a design engineer.
amazing video! but i have a question. why didn't you make the loft cut through the whole volute? i mean, there's a portion of the volute that won't receive fluid directly from the rotor
great video for learning... thanks
Thank you very much I love you.
amazing thank you
Thanks Dear
Please send me more videos like this I am Design Engineer
I have a question, can we create the flow simulation by only using the blade and casing, or we need to add other minor things such as bearing etc? Thank you
yes.
For Creating a Flow Simulation of a Pump, you just need the Casing and Impeller only.
No need to add other parts.
thank you
You're welcome
Hello. Can you please also do the impeller?
At 2:20 My solidworks doesn't show the make pierce option
❤
How to calculate the helix pitch & revolution for different sizes?
Use velocity = constant in all circle areas; 360º = full area and Q = flow flow / /180º = 0,5A = 0,5 Q // 90º = 0,25A and 0,25Q . You need this to not have an unbalanced load in shaft when running in nominal flow.
no impeller?
I keep getting zero thickness geometry at 9:55
Have you sped up the video ...cause its way too fast but nice video though..
thanks, i understand that the video is fast little bit (1.5x ) So watch it at 0.75x it will be at normal speed then.
Video could have slow down. Very difficult to continue otherwise nice work.
Noted down, watch at 0.75x it will come down to normal speed.
how to animate the video
Slow down. Good video but cannot keep up with the mouse movements.
Nice video. But it's really too fast. Makes you waste lot of time rewinding and pausing always
Pls watch at low playback speed
Take it easy, take your time, slow down the video, I know you don't work this fast.
speed 1.5X is not too high.This is maintained to reduced the length of the video & save the time of viewers.
But not understanding the process
Can u tell me how we have to add the plane after creating the spiral path
The Plane is created Using a Line & A Point as shown at 1:53.
Perpendicular/coincident/offset etc are the properties of plane that can selected from the menu.
you can slow down the video from youtube, it's simple
Where are you going? Are you in a hurry? Why don't you make this moderately? Anyway good..
i hate watching long & Slow Videos and also believe that most people also do the same.Thus, Understanding the Importance of time for the Viewer,i don't want to extend the durations of any design video upto long hours.
So fast. No way to learn
Only repetitive portions are made fast. try reducing playback speed.
Not useful, the drawing is fast. Slow down the drawing man.
To reduce the length of video,the only repetitive and time taking steps are speed up.
If finding fast somewhere,try reducing the playback speed.