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Relative Humidity Health

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

relativehumidityhealth

Overview

Engineering reference data for Relative Humidity Health 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

To maintain healthy indoor air quality, relative humidity (RH) should be managed within specific ranges that inhibit or control various biological and chemical threats. The following table summarizes recommended RH levels for different health factors.

9 rows
Recommended relative humidity ranges for controlling various health factors.
Health Factor
Min RH(%)
Max RH(%)
Bacteria Control2070
Virus Control4080
Fungi (Mold) Control070
Dust Mite Control060
Respiratory Infection Minimization4050
Allergic Rhinitis & Asthma4060
Chemical Interaction Reduction040
Ozone Production75100
General Human Comfort3060

Source: engineeringtoolbox.com

Maintaining humidity within the 40-60% RH range is often cited as a good compromise that addresses many health concerns simultaneously, balancing the need to inhibit biological contaminants (like viruses and mites) with the need to minimize chemical interactions and mold growth.

Interactive Charts

Human Life Expectancy

References