Maximum Diameter of Particle Nipped by Rolls Calculator

✖Radius of Crushing Rolls is the radius of the crushers used in the reduction process.ⓘ Radius of Crushing Rolls [R_c]			+10% -10%
✖Half of Gap between Rolls is half the closest distance between the rolls.ⓘ Half of Gap between Rolls [d]			+10% -10%

✖Maximum Diameter of Particle Nipped by Rolls is the max input diameter of a feed particle that a roll crusher can take.ⓘ Maximum Diameter of Particle Nipped by Rolls [D_[P,max]]

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Maximum Diameter of Particle Nipped by Rolls Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Diameter of Particle Nipped by Rolls = 0.04*Radius of Crushing Rolls+Half of Gap between Rolls
D_[P,max] = 0.04*R_c+d
This formula uses 3 Variables

Variables Used

Maximum Diameter of Particle Nipped by Rolls - (Measured in Meter) - Maximum Diameter of Particle Nipped by Rolls is the max input diameter of a feed particle that a roll crusher can take.
Radius of Crushing Rolls - (Measured in Meter) - Radius of Crushing Rolls is the radius of the crushers used in the reduction process.
Half of Gap between Rolls - (Measured in Meter) - Half of Gap between Rolls is half the closest distance between the rolls.

STEP 1: Convert Input(s) to Base Unit

Radius of Crushing Rolls: 14 Centimeter --> 0.14 Meter (Check conversion here)
Half of Gap between Rolls: 3.5 Centimeter --> 0.035 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

D_[P,max] = 0.04*R_c+d --> 0.04*0.14+0.035

Evaluating ... ...

D_[P,max] = 0.0406

STEP 3: Convert Result to Output's Unit

0.0406 Meter -->4.06 Centimeter (Check conversion here)

FINAL ANSWER

4.06 Centimeter <-- Maximum Diameter of Particle Nipped by Rolls

(Calculation completed in 00.004 seconds)

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Created by Vaibhav Mishra

DJ Sanghvi College of Engineering (DJSCE), Mumbai

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University School of Chemical Technology-USCT (GGSIPU), New Delhi

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< Formulas on Size Reduction Laws Calculators

Area of Product given Crushing Efficiency

LaTeX Go Area of Product = ((Crushing Efficiency*Energy Absorbed by Material)/(Surface Energy per Unit Area*Length))+Area of Feed

Crushing Efficiency

LaTeX Go Crushing Efficiency = (Surface Energy per Unit Area*(Area of Product-Area of Feed))/Energy Absorbed by Material

Mechanical Efficiency given Energy fed to System

LaTeX Go Mechanical Efficiency in Terms of Energy Fed = Energy Absorbed By Unit Mass Of Feed/Energy Fed to Machine

Reduction Ratio

LaTeX Go Reduction Ratio = Feed Diameter/Product Diameter

< Important Formulas in Size Reduction Laws Calculators

Area of Product given Crushing Efficiency

LaTeX Go Area of Product = ((Crushing Efficiency*Energy Absorbed by Material)/(Surface Energy per Unit Area*Length))+Area of Feed

Area of Feed given Crushing Efficiency

LaTeX Go Area of Feed = Area of Product-((Crushing Efficiency*Energy Absorbed By Unit Mass Of Feed)/(Surface Energy per Unit Area))

Energy Absorbed by Material while Crushing

LaTeX Go Energy Absorbed by Material = (Surface Energy per Unit Area*(Area of Product-Area of Feed))/(Crushing Efficiency)

Crushing Efficiency

LaTeX Go Crushing Efficiency = (Surface Energy per Unit Area*(Area of Product-Area of Feed))/Energy Absorbed by Material

Maximum Diameter of Particle Nipped by Rolls Formula

LaTeX Go

Maximum Diameter of Particle Nipped by Rolls = 0.04*Radius of Crushing Rolls+Half of Gap between Rolls
D_[P,max] = 0.04*R_c+d

What is meant by Fine Particles?

Fine particles are airborne particles which are smaller than coarse particles. They have an aerodynamic diameter of 2.5 µm or less. The fine particles which are smaller than 0.1 µm are referred to as ultrafine particles. Fine particles are largely formed from gases.

How is Cumulative Screen Analysis done?

The cumulative analysis is obtained from the differential analysis by adding cumulatively, the individual weight fractions of material retained on each screen, starting with that retained on the largest mesh.

How to Calculate Maximum Diameter of Particle Nipped by Rolls?

Maximum Diameter of Particle Nipped by Rolls calculator uses Maximum Diameter of Particle Nipped by Rolls = 0.04*Radius of Crushing Rolls+Half of Gap between Rolls to calculate the Maximum Diameter of Particle Nipped by Rolls, Maximum Diameter of Particle Nipped by Rolls is the max input diameter of a feed particle that a roll crusher can take. Maximum Diameter of Particle Nipped by Rolls is denoted by D_[P,max] symbol.

How to calculate Maximum Diameter of Particle Nipped by Rolls using this online calculator? To use this online calculator for Maximum Diameter of Particle Nipped by Rolls, enter Radius of Crushing Rolls (R_c) & Half of Gap between Rolls (d) and hit the calculate button. Here is how the Maximum Diameter of Particle Nipped by Rolls calculation can be explained with given input values -> 406 = 0.04*0.14+0.035.

FAQ

What is Maximum Diameter of Particle Nipped by Rolls?

Maximum Diameter of Particle Nipped by Rolls is the max input diameter of a feed particle that a roll crusher can take and is represented as D_[P,max] = 0.04*R_c+d or Maximum Diameter of Particle Nipped by Rolls = 0.04*Radius of Crushing Rolls+Half of Gap between Rolls. Radius of Crushing Rolls is the radius of the crushers used in the reduction process & Half of Gap between Rolls is half the closest distance between the rolls.

How to calculate Maximum Diameter of Particle Nipped by Rolls?

Maximum Diameter of Particle Nipped by Rolls is the max input diameter of a feed particle that a roll crusher can take is calculated using Maximum Diameter of Particle Nipped by Rolls = 0.04*Radius of Crushing Rolls+Half of Gap between Rolls. To calculate Maximum Diameter of Particle Nipped by Rolls, you need Radius of Crushing Rolls (R_c) & Half of Gap between Rolls (d). With our tool, you need to enter the respective value for Radius of Crushing Rolls & Half of Gap between Rolls and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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