Base conditions, also known as Standard conditions, consist of a specified absolute pressure and temperature. To ensure accuracy, it is important to refer to base conditions when measuring the volume of a sample of liquid or gas. This applies to both static measurement and flow measurement.

Pressure and temperature

The density of both gases and liquids depends on the pressure and temperature of the fluid. Thus volumes measured in cold conditions or in pressurised conditions will be lower than the same mass of fluid at warmer or depressurised conditions. This fact gives rise to the necessity of choosing a benchmark pressure and temperature in which all 'net' volumes will be expressed.

Ideal gas law

The density of a gas at a specific pressure can be estimated by using the ideal gas law. Doubling absolute pressure doubles the density of a gas, and doubling absolute temperature halves the density. The number of molecules in a given gas volume depends on the pressure and temperature. This is why the pressure and temperature must be stated in order for a volume measurement to mean anything.

Density correction

Density correction is also performed on liquids under measurement. For instance, the sticker on gasoline pumps that states that the volume is corrected to 15 °C (59 °F, or 60 °F in the U.S.) means that the measured volume has been compensated for thermal expansion. One would otherwise get a larger mass of gasoline in a tank filled in cold weather (which is unfair to the business) and less when it is warm (which is unfair to the consumer).

Legal definitions

Legal regulations usually require that sales to end customers be compensated to the legally defined base conditions. Where regulations do not require the use of a specific set of base conditions, contractual partners may be free to choose their own base conditions.

Base conditions are often defined jurisdictionally. For example:

Canada

Pressure 101.325 kPa absolute, temperature 15 °C [1]

USA

Pressure 14.73 psi absolute, temperature 60 °F

Mexico

Pressure 1 kgf/cm² (equivalent to 98.1 kPa absolute), temperature 20 °C

Scientific definitions

Main article: Standard conditions for temperature and pressure

Flow computers

Flow computers generally need the base conditions for each flow meter to be configured.

References

See also