The development of new drilling technologies and the reinforcement of envir
onmental legislations require improvements of drilling fluid formulations.
In particular, mineral oil-based muds have been recently replaced by low to
xic or substitution oil-based muds (SBM). The molecular composition of thes
e oils is adapted to the fluid property requirements. Very little is known
on methane solubility in these oils and in their invest emulsions under res
ervoir conditions, though this is of crucial importance for predicting gas
eruption risks when drilling. This is particularly the case of offshore dee
p drilling areas for controlling gas hydrate formation. In this work, solub
ility measurements of methane in four base oils have been performed at 90 d
egrees C and pressures from 150 to 350 bar. The solubility in the fluid mix
tures was found to be proportional to the solubility in water and oil, resp
ectively. In order to extrapolate the experimental results to other conditi
ons, a Peng-Robinson equation has been used. The critical parameters of the
unknown constituents have been determined either by correlations based on
the normal boiling point and the density or by a group contribution model.
A single binary interaction parameter has been fitted between methane and t
he other oil components. Such results can be pertinent for predicting the r
isks related to gas/mud interactions. (C) 1999 Published by Elsevier Scienc
e B.V. All rights reserved.