Vacuuming force of a vacuum cleaner calculate

In summary, the conversation discusses the parameters that affect the vacuum generated by a fan in a vacuum cleaner and how to calculate the vacuum created and the density of materials that it can suck in. The Bernoulli equation is mentioned as a way to determine the pressure gradient, and factors such as the fan's cubic liters per second, the cross-sectional area of the intake port, and the size and mass of particles are also considered. The potential limitations of a vacuum cleaner and its ability to suck up different materials are also mentioned.
  • #1
siddharth23
249
26
I was wondering on what parameters the vacuum generated by a fan in a vacuum cleaner depends.
How can I calculate the vacuum created and the density of materials that it can suck in?

Thanks
 
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  • #2
  • #3
Righto. But the pressure gradient will determine the force. And how do I determine the gradient?
 
  • #4
Break the problem down:

1. The fan moves so many cubic liters of air per second (or CFM if you must)- call this Q.
2. The geometry of the tubing provides a cross section which all of the incoming air must pass - you are interested in the "intake port" where the work is being done - label this cross sectional area A.
3. Now you need a formula which will provide the pressure - the simplest is the the Bernoulli equation: http://hyperphysics.phy-astr.gsu.edu/hbase/pber.html

4. The particles of dust and what not are now exposed to the pressure differential computed in step 3. If you know the size and mass of a particle you can calculate:
a. the gravitational force holding it down F=mg
b. the pressure force pulling it up P/cross section of size = lift force

If you only know the density of the stuff on the floor you will have to assume some geometry - this being a physics forum we will take the default and use "spherical cows": thus the density is m/(volume of sphere) and the cross sectional area is the area of circle of the same radius as the sphere.

You should be able to work out the rest, detail by detail.For a real vacuum cleaner there are more considerations; see http://home.howstuffworks.com/vacuum-cleaner.htm for a good start.
 
  • #5
In addition to Ultra's post you may be able to calculate the volumetric flow rate if you have the power output of the vacuum motor.
 
  • #6
So what is being calculated here? Is it how high a column of water can be sucked up to get the vacuum pressure that the machine can achieve, and then relate that to the densities of materials that the hose can be immersed into.

Or is it the size of material and density that the vacuum can suck up. Certainly any vacuum that could suck up iron fillings might have some trouble with half inch or larger ball bearings even though the density is the same.
 

Related to Vacuuming force of a vacuum cleaner calculate

1. How is the vacuuming force of a vacuum cleaner calculated?

The vacuuming force of a vacuum cleaner is calculated by measuring the suction power, which is the strength of the airflow created by the vacuum. This can be measured in units of air watts (AW) or cubic feet per minute (CFM). The higher the suction power, the stronger the vacuuming force.

2. What factors affect the vacuuming force of a vacuum cleaner?

The vacuuming force of a vacuum cleaner can be affected by various factors, such as the power of the motor, the design and quality of the vacuum cleaner's suction system, the type and condition of the filter, and the condition of the floor surface being vacuumed.

3. How does the vacuuming force of a vacuum cleaner impact its cleaning performance?

The vacuuming force of a vacuum cleaner plays a crucial role in its cleaning performance. A higher vacuuming force means the vacuum can pick up more dirt and debris from surfaces, making it more effective at cleaning. A lower vacuuming force may result in a less thorough cleaning and require more passes to achieve the desired level of cleanliness.

4. Can the vacuuming force of a vacuum cleaner be adjusted?

Some vacuum cleaners have adjustable settings that allow users to control the vacuuming force. This can be useful for cleaning different types of surfaces, such as carpets or hardwood floors, as well as delicate items like curtains or upholstery. However, not all vacuum cleaners have adjustable settings, so it is important to check the specifications before making a purchase.

5. Is the vacuuming force the only factor to consider when choosing a vacuum cleaner?

No, the vacuuming force is not the only factor to consider when choosing a vacuum cleaner. Other factors such as durability, maneuverability, noise level, and additional features like attachments and filtration systems should also be taken into account. It is important to choose a vacuum cleaner that meets your specific cleaning needs and preferences.

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