Wax plug growth in
pipeline pigging significantly impacts the crude
oil transportation, even resulting in a wax blockage accident of pipeline.
A pigging facility was constructed to conduct the pigging experiments.
A physical model was proposed to illustrate the mechanism of wax plug
transportation. Furthermore, a theoretical model was developed to
estimate the wax plug transportation force per unit contact area.
It is found that the wax plug transportation force per unit contact
area is independent of the wax plug length and radius, while correlated
to the wax yield stress and the interfacial lubrication coefficient.
These predicted correlativities match with the experimental results.
Additionally, the experimental results show that the wax plug transportation
force per unit contact area is independent of the pig geometry and
hardness. With the experimental results, the interfacial lubrication
coefficient for wax sample prepared from crude oil and diesel oil
were calculated to be 0.0749 and 0.0442, respectively. It is indicated
that the extruded diesel oil at the contact surface provides a better
lubrication effect for wax plug transportation than the extruded crude
oil. Experiments with different pig geometries and hardnesses were
performed to verify the modeling results. The cases of two field wax
blockage accidents were used for validation. With the results from
the developed model, an engineering implication was presented accounting
for formation condition of wax blockage and emergency operation scheduling
as well as selection of an appropriate pig diameter.