This International Standard specifies methods for the calculation of compression factors of natural gases, natural
gases containing a synthetic admixture and similar mixtures at conditions under which the mixture can exist only as
a gas.
The standard is in three parts: part 1 gives an introduction and provides guidelines for the methods of calculation
described in parts 2 and 3.
Part 2 gives a method for use where the detailed molar composition of the gas is known. Part 3 gives a method for
use where a less detailed analysis, comprising superior calorific value (volumetric basis), relative density, carbon
dioxide content and (if non-zero) hydrogen content, is available.
Both methods are applicable to dry gases of pipeline quality within the range of conditions under which transmission
and distribution, including metering for custody transfer or other accounting purposes, are normally carried out. In
general, such operations take place at temperatures between about 263 K and 338 K (approximately - 10 ~C to
65 ~C) and pressures not exceeding 12 MPa (120 bar). Within this range, the uncertainty of prediction of both
methods is about _+ 0,1% provided that the input data, including the relevant pressure and temperature, have no
uncertainty.
NOTE -- Pipeline quality gas is used in this International Standard as a concise term for gas which has been processed so as
to be suitable for use as industrial, commercial or domestic fuel. Although there is no formal international agreement upon the
composition and properties of a gas which complies with this concept, some quantitative guidance is provided in 5.1.1. A
detailed gas quality specification is usually a matter for contractual arrangements between buyer and seller.
The method given in part 2 is also applicable (with increased uncertainty) to broader categories of natural gas,
including wet or sour gases, within a wider range of temperatures and to higher pressures, for example at reservoir
or underground storage conditions or for vehicular (NGV) applications.
The method given in part 3 is applicable to gases with a higher content of nitrogen, carbon dioxide or ethane than
normally found in pipeline quality gas. The method may also be applied over wider ranges of temperature and
pressure but with increased uncertainty.
For the calculation methods described to be valid, the gas must be above its water and hydrocarbon dewpoints at
the prescribed conditions.
The standard gives all of the equations and numerical values needed to implement both methods. Verified computer
programmes are available (see annex B).