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Filters Efficiency Arrestance

Reference data and engineering information about filters efficiency arrestance for miscellaneous applications.

filtersefficiencyarrestanceCalculator

Overview

Engineering reference data for Filters Efficiency Arrestance in miscellaneous.

Key Formulas

Unit Conversion

y=xky = x \cdot k

Multiply by conversion factor.

Linear Interpolation

y=y1+(xx1)(y2y1)x2x1y = y_1 + \frac{(x - x_1)(y_2 - y_1)}{x_2 - x_1}

Estimate between two known points.

Percentage

p=partwhole×100%p = \frac{\text{part}}{\text{whole}} \times 100\%

Part as fraction of whole.

Variables

SymbolDescriptionUnit
xxInput value
yyOutput value
kkConversion factor

Particle Sizes

Airborne particles vary significantly in size, affecting their behavior in air streams and the effectiveness of different filtration methods.

6 rows
Common airborne particle size ranges.
Particle Type
Typical Size Range(µm)
Atmospheric dust0.001 - 100
Pollen10 - 100
Bacteria0.3 - 10
Virus0.003 - 0.1
Mold spores2 - 100
Smoke particles0.01 - 1

Source: Extracted from original page text

Additional Formulas

The text includes two key formulas for calculating filter performance.

Air Filter Efficiency (Atmospheric Dust Spot Efficiency):

μe=ntnu=nundnu\mu_e = \frac{n_t}{n_u} = \frac{n_u - n_d}{n_u}

Where:

  • μe\mu_e = air filter efficiency
  • ntn_t = particles trapped
  • nun_u = particles upstream
  • ndn_d = particles downstream

Dust Arrestance:

μa=1CaCb\mu_a = 1 - \frac{C_a}{C_b}

Where:

  • μa\mu_a = dust arrestance
  • CaC_a = dust concentration after the filter
  • CbC_b = dust concentration before the filter

References