Organic and inorganic fouling in heat exchangers – Industrial case study: Analysis of fouling state

[Display omitted] •Crude oil fouling deposits are complex layers of organic and inorganic matter.•Plant data plus history tracking models to estimate deposit composition profiles.•Model predictions in agreement with experimental samples.•Temperature and pressure drop important for fouling monitoring...

Full description

Saved in:
Bibliographic Details
Published in:Applied energy 2017-11, Vol.206, p.1250-1266
Main Authors: Diaz-Bejarano, E., Behranvand, E., Coletti, F., Mozdianfard, M.R., Macchietto, S.
Format: Article
Language:English
Subjects:
Crude oil
Diagnosis
Fouling
Heat exchanger
Inorganics
Monitoring
Troubleshooting
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •Crude oil fouling deposits are complex layers of organic and inorganic matter.•Plant data plus history tracking models to estimate deposit composition profiles.•Model predictions in agreement with experimental samples.•Temperature and pressure drop important for fouling monitoring.•New model-based analysis tool for fouling monitoring, diagnosis and troubleshooting. A comprehensive model-based thermo-hydraulic methodology is used to investigate fouling behaviour in refinery heat exchangers where high concentration of inorganics in the deposits was reported. The method combines a data-driven analysis of plant measurements (including pressure drop) with a model-based analysis using advanced models of shell-and-tube heat exchangers undergoing fouling. A deposit model capable of tracking composition and deposition history was extended to include thermal-conductivity mixing models appropriate for various deposit structures. Substantial new and useful information can be extracted from the plant measurements in comparison to current practice: the thickness, the effective conductivity, and the radial conductivity and composition profiles of the deposits, reflecting the exchanger operation history. Episodes of rapid and acute fouling, and deposition of inorganic materials could be identified and quantified. A validation of the approach was carried out by (i) a comparison of averaged predicted and experimental inorganic weight fractions in a mixed deposit sample collected at the end of run, and (ii) an initial comparison of predicted radial inorganics profiles and experimental ones (obtained with SEM-EDX) in deposits from similar exchangers. Both steps yielded surprisingly good agreement. The study indicates that the method employed represents a new powerful, model-based analysis tool for monitoring, diagnosis and troubleshooting of fouling in heat exchangers.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2017.10.018