Latent Heat Flow

Latent Heat Flow - English (Imperial) units

The latent heat flow due to moisture in air can be expressed in English (Imperial) units as

Q_l = 60 h_we ρ q Δx                                   (1)

where

Q_l = latent heat flow (Btu/hr)

h_we = 1060 - latent heat of vaporization of water (Btu/lb)

ρ = 0.075 - air density at standard conditions (lb/ft³)

q = measured air flow (ft³/min)

Δx = difference in humidity ratio (lb_h2o /lb_{dry_air} )

Latent Heat Flow - SI-Units

The latent heat flow due to moisture in air can be expressed in SI-units (metric) as

Q_l = h_we ρ q Δx / 3600                                  (2)

where

Q_l = latent heat flow (kW)

h_we = latent heat of vaporization of water (2454 kJ/kg - in air at atmospheric pressure and 20 ^oC)

ρ = air density at standard conditions (1.202* kg/m³)

q = air flow (m³/hr)

Δx = difference in humidity ratio (kg_h2o /kg_{dry_air})

• Sensible Heat

*Note that properties of air changes with temperature. Interpolate values if necessary.

Example - Latent Heat Flow

A ventilation system transports 10000 m³/h of air through a building.

The state of the make-up (supply) air is 0 ^oC and 100% relative humidity. From the Mollier diagram the humidity ratio - x - can be estimated to 0.0037 (kg_h2o /kg_{dry_air}).

The state of the room air is 20 ^oC and 40% relative humidity. From the Mollier diagram the humidity ratio can be estimated to 0.0057 (kg_h2o /kg_{dry_air}).

The latent heat flow can be calculated as

Q_l = (2465.56 kJ/kg) (1.202 kg/m³) (10000 m³/h) ((0.0057 (kg_h2o /kg_{dry_air} )) - (0.0037 ( kg_h2o /kg_{dry_air} ))) / 3600

= 16.5 kW