A Novel Approach for the Estimation of the Efficiency of Demulsification of Water-In-Crude Oil Emulsions
Slavko Nešić, Olga Govedarica, Mirjana Jovičić, Julijana Žeravica, Sonja Stojanov, Cvijan Antić, Dragan Govedarica

TL;DR
This paper introduces a new neural network method to estimate how well demulsifiers break oil-water emulsions, improving efficiency and reducing costs in the oil industry.
Contribution
A novel neural network approach is proposed for estimating demulsification efficiency, outperforming traditional response surface methods.
Findings
Neural networks provided higher accuracy in predicting demulsification efficiency compared to response surface methodology.
The optimal neural network architecture achieved an R2 validation performance of 0.991932.
Automated neural networks identified improved processing conditions and reduced energy consumption.
Abstract
Undesirable water-in-crude oil emulsions in the oil and gas industry can lead to several issues, including equipment corrosion, high-pressure drops in pipelines, high pumping costs, and increased total production costs. These emulsions are commonly treated with surface-active chemicals called demulsifiers, which can break an oil–water interface and enhance phase separation. This study introduces a novel approach based on neural networks to estimate demulsification efficiency and to aid in the selection of demulsifiers under field conditions. The influence of various types of demulsifiers, demulsifier concentration, time required for demulsification, temperature and asphaltene content on the demulsification efficiency is analyzed. To improve model accuracy, a modified full-scale factorial design of experiments and the comparison of response surface method with multilayer perception…
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Taxonomy
TopicsEnhanced Oil Recovery Techniques · Petroleum Processing and Analysis · Fluid Dynamics and Mixing
