Molecular dynamics simulation of deposition of high waxy crude oil on different pipeline walls

Abstract

ABSTRACT Wax deposition occurs in the process of waxy crude oil pipeline transportation, which seriously affects the normal operation of crude oil pipeline. At present, non-metallic pipes have been proved to be effective in delaying the occurrence of wax deposition. Therefore, based on the pipeline walls of 20 G steel, glass fiber reinforced plastic (FRP), and polyethylene (PE), the microscopic mechanism of wax deposition during the pipeline transportation of waxy crude oil was studied by molecular dynamics simulation. The simulation results show that the waxy crude oil clusters undergo diffusion, deposition, reverse diffusion processes, and finally a wax deposition layer is formed on the pipeline surface. On the pipe walls of different materials, the surface free energy affects the interface energy of the solid-liquid contact surface between the waxy crude oil and the pipe wall, which is the main factor for the low surface free energy pipe to have the anti-wax effect. At the same time, according to the analysis of the contact angle on different materials in the simulation results, the difference in pipeline materials can only delay the formation speed of the wax deposition layer and cannot completely prevent the occurrence of wax deposition..