eprintid: 12984
rev_number: 2
eprint_status: archive
userid: 1
dir: disk0/00/01/29/84
datestamp: 2023-11-10 03:27:32
lastmod: 2023-11-10 03:27:32
status_changed: 2023-11-10 01:50:03
type: article
metadata_visibility: show
creators_name: Sulaimon, A.A.
creators_name: De Castro, J.K.M.
creators_name: Vatsa, S.
title: New correlations and deposition envelopes for predicting asphaltene stability in crude oils
ispublished: pub
keywords: Crude oil; Curve fitting; Deposition; Forecasting; Mean square error; Oil wells; Operating costs; Petroleum industry; Porous materials; Regression analysis; Stability, Asphaltene stability; Correlation coefficient; Instability index; Optimization procedures; Production pipelines; Root mean square errors; SARA analysis; Statistical indicators, Asphaltenes, asphaltene; computer simulation; correlation; crude oil; optimization; precipitation (chemistry); regression analysis; stability analysis
note: cited By 21
abstract: The precipitation and deposition of asphaltene are among the most pressing issues in the petroleum industry. This flow assurance issue may cause formation damage in porous media, the plugging and coking of wellbore and production pipelines and difficulties in the refining process. Such events lead to additional operating costs for the company. Therefore, knowing the conditions at which asphaltene may precipitate and can be stable may enable its management. Existing models of asphaltene stability are dependent on saturate, aromatic, resin and asphaltene (SARA) analysis which can be very expensive and time-consuming. Therefore, using regression analysis as well as MATLAB curve fitting and optimization procedures, a new set of correlations and asphaltene stability envelops (ASEs) based on the newly developed Density-Based Asphaltene/Resin ratio (DBAR), Density-Based Saturate/Aromatic ratio (DBSAr) and the Density-Based Colloidal Instability Index (DBCII) all as functions of oil density have been developed to consistently predict asphaltene stability. The new criteria were developed for the correlations by considering the boundary between stable and unstable regions in their respective plots. The new envelopes showed 83 reliability by accurately predicting asphaltene stability in 24 (eight stable and 16 unstable samples) out of 29 (13 stable and 16 unstable) crude oil samples. The correlation coefficient (R2), average absolute relative error (AARE) and the root-mean-square error (RMSE) for the new DBAR correlation are 0.9456, 0.8357 and 0.1219 respectively. The DBSAr correlation resulted in R2 of 0.9437, AARE of 0.1860 and RMSE of 0.2450. For the DBCII, the statistical indicator results were 0.9639 for the R2, 0.1376 for the RMSE and 0.1038 for the AARE. © 2019 Elsevier B.V.
date: 2020
publisher: Elsevier B.V.
official_url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078081147&doi=10.1016%2fj.petrol.2019.106782&partnerID=40&md5=ee0a2a43863d8f076d4b1b3e9caf7c9d
id_number: 10.1016/j.petrol.2019.106782
full_text_status: none
publication: Journal of Petroleum Science and Engineering
volume: 190
refereed: TRUE
issn: 09204105
citation:   Sulaimon, A.A. and De Castro, J.K.M. and Vatsa, S.  (2020) New correlations and deposition envelopes for predicting asphaltene stability in crude oils.  Journal of Petroleum Science and Engineering, 190.   ISSN 09204105