Los puntos clave no están disponibles para este artículo en este momento.
In this study, soft gel stripping experiments were conducted under different temperature and flow velocity conditions by a flow loop. The flow area of pipes increased with increase in flow velocity. However, partial or complete removal of soft gels occurred when flow velocity increased to a critical point. The hydrodynamic force from oil flow, adhesive contact force and yield stress of soft gels were calculated and compared. The hydrodynamic force increased with increase in flow velocity. Under the dissolution and shear effect, flow area showed a step-wise increase when hydrodynamic force did not meet requirements of adhesion failure and structural failure. The soft gels were stripped completely when the force met the requirements. The lower strength of soft gels resulted in lower requirements of adhesion failure and structural failure. Thus, accumulation problems of soft gels can be solved by changing flow parameters.
Zhang et al. (Wed,) studied this question.