Abstract
In order to reduce the viscosity of heavy oil, the performance of emulsifying viscosity reducers is limited. In this study, a new kind of amphiphilic low molecular weight viscosity reducer was prepared by emulsion copolymerization of acrylamide (AM), acrylic acid (AA), 2-acrylamido-2-methylpropanesulfonic acid (AMPS), and Butene benzene (PB). The synthesis feasibility and viscosity reduction mechanism of viscosity reducer in heavy oil were explored using Materials Studio software from the perspective of molecular dynamics. The results of the molecular dynamics simulation revealed that the addition of viscosity reducer into heavy oil varied the potential energy, non-potential energy, density and hydrogen bond distribution of heavy oil. Benefiting from its structure, the benzene ring in PB was well embedded in the interlayer structure of asphaltene, contributing to weaken the network structure of the heavy oil. Moreover, the two strong polar groups (COO− and SO3−) of AA and AMPS, which constituted the branched chains of the viscosity reducer’s molecular structure, gradually disassembled the network structure from the ‘inward’ to the ‘outward’ of the heavy oil network structure, thereby driving heavy oil viscosity reduction (as clarified by molecular dynamics). Owing to its temperature resistance, this kind of new amphiphilic low molecular copolymer could be an effective viscosity reducer for heavy oil cold recovery at elevated temperatures.
Highlights
Introduction published maps and institutional affilChina is one of the world’s major heavy oil producing countries with abundant geological reserves
Prior to synthesis of viscosity reducer by emulsion polymerization, a s the requisite amounts of AM:acrylic acid (AA):AMPS:PB were introduced into the three-necked flask
0.6 reducer exhibited multiple distribution peaks. This could be ascribed to the amphiphilic function of the viscosity reducer, which contributed to break down the “planar” structure in heavy oil as a result to weaken the interaction between asphaltene and resin
Summary
Acrylamide (AM, 99.9%), acrylic acid (AA, 99.5%), 2-acrylamido-2-methylpropanesulfonic. Instruments acid (AMPS, 99%)and were obtained from Tianjin Beilian Fine Chemical Development Co., Ltd, sulfonic acid. ◦ C), 99.5%), sodium hydroxide (NaOH, 96%), tween-80, petroleum ether Were procured from (99.5%), anhydrous ethanol (99.5%), andand isopropanol were (99.5%), isopropanol were eth sulfite. SZ36-1 was obtained from procured from Tianjin Fuchen chemical reagent factory, Tianjin, China. Fourier transform infrared spectrometer: 560, TA, 2/g, pore volume:0.23 cm alumina. /g), glass glass indicator indicator adsorption adsorption column, column, muffle muffle furnace furnace were were purchased purchased from from. CA, USA; Brookfield DV3T viscometer, Bolfe, MA, USA
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