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Relative Humidity Production Process

Reference data and engineering information about relative humidity production process for air psychrometrics applications.

relativehumidityproductionprocess

Overview

Engineering reference data for Relative Humidity Production Process in air psychrometrics.

Key Formulas

Humidity Ratio

ω=0.622PvPa\omega = 0.622 \frac{P_v}{P_a}

Mass of water vapor per mass of dry air.

Relative Humidity

ϕ=PvPvs×100%\phi = \frac{P_v}{P_{vs}} \times 100\%

Ratio of actual to saturation vapor pressure.

Wet Bulb Temperature

Twb=TdbPvsPvγT_{wb} = T_{db} - \frac{P_{vs} - P_v}{\gamma}

Temperature measured by wet-bulb thermometer.

Enthalpy of Moist Air

h=cpT+ωhgh = c_p T + \omega h_g

Sensible + latent heat per unit mass of dry air.

Variables

SymbolDescriptionUnit
ω\omegaHumidity ratiokg/kg
ϕ\phiRelative humidity%
PvP_vVapor pressurePa
PvsP_{vs}Saturation vapor pressurePa
TdbT_{db}Dry bulb temperature°C
TwbT_{wb}Wet bulb temperature°C

The following table outlines general recommended relative humidity ranges for various industrial and storage applications to maintain product integrity, prevent corrosion, and inhibit microbial growth.

25 rows
General recommended relative humidity (RH) ranges for various production and storage environments.
Production or Process Environment
Recommended RH(%)
Sugar Storage20 - 35
Breweries35 - 45
Coffee Powder30 - 40
Milk Powder Storage20 - 35
Seed Storage35 - 45
Unpacked Medicine20 - 35
Transformer Winding15 - 30
Semiconductors30 - 50
Books & Paper Archive40 - 55
Paper Storage35 - 45
Library50 - 55
Spray Paint30 - 50
Laboratory Electronics45 - 60
Plastic Pallets5 - 30
Computer Peripherals50 - 60
Medical Syrups30 - 40
Capsule Storage30 - 45
Powder Storage30 - 45
Wood Drying25 - 35
Explosives35 - 50
Normal Storage50 - 55
Musical Instrument45 - 55
Leather Product40 - 55
Cable Wrapping15 - 25
Chemical Laboratory30 - 45

Source: engineeringtoolbox.com

Microbial Growth and Process Considerations

The critical factor for microbial growth is water activity (a_w), which is directly related to relative humidity. General thresholds are:

  • Bacteria: Generally require relative humidity above 90% to grow.
  • Mold: Generally require relative humidity above 80% to grow.

The precise limit for a specific organism is influenced by other environmental factors, including:

  • pH
  • Oxygen availability
  • The nature of the solutes present
  • Nutrient availability
  • Temperature

Important Safety Note: Low relative humidity (typically below 40%) can help prevent rust and corrosion. However, very low humidity (e.g., in environments for explosives) can generate static electricity, posing a risk of spark ignition. This must be considered in process design and material handling.

References