Bowen ratio
The Bowen ratio is used to describe the type of heat transfer for a surface that has moisture. Heat transfer can either occur as sensible heat or latent heat. The Bowen ratio is generally used to calculate heat lost in a substance; it is the ratio of energy fluxes from one state to another by sensible heat and latent heating respectively.
The ratio was named by Harald Sverdrup after Ira Sprague Bowen, an astrophysicist whose theoretical work on evaporation to air from water bodies made first use of it, and it is used most commonly in meteorology and hydrology.
Formulation
The Bowen ratio is calculated by the equation:In this context, when the magnitude of is less than one, a greater proportion of the available energy at the surface is passed to the atmosphere as latent heat than as sensible heat, and the converse is true for values of greater than one. As, however, becomes unbounded making the Bowen ratio a poor choice of variable for use in formulae, especially for arid surfaces. For this reason the evaporative fraction is sometimes a more appropriate choice of variable representing the relative contributions of the turbulent energy fluxes to the surface energy budget.
The Bowen ratio is related to the evaporative fraction,, through the equation,
The Bowen ratio is an indicator of the type of surface. The Bowen ratio,, is less than one over surfaces with abundant water supplies.
| Type of surface | Range of Bowen ratios |
| Deserts | >10.0 |
| Semi-arid landscapes | 2.0-6.0 |
| Temperate forests and grasslands | 0.4-0.8 |
| Tropical rainforests | 0.1-0.3 |
| Tropical oceans | <0.1 |