Neural network method for the modeling of SS 316L elbow corrosion based on electric field mapping

Azhar M. Memon; Umar T. Salman; Abdulhammed K. Hamzat; Luai M. Alhems

doi:10.1515/corrrev-2021-0057

Neural network method for the modeling of SS 316L elbow corrosion based on electric field mapping

Azhar M. Memon^*
, Umar T. Salman
, Abdulhammed K. Hamzat
, Luai M. Alhems

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Stainless steel is known for its superior corrosion resistance in industrial applications. In this work, corrosion modeling of stainless steel 316L is presented using artificial neural networks. The experimental setup consists of a loop containing stainless steel elbow with simulated seawater of known concentration continuously flowing at a specific flow rate, thus allowing to study the effect of flow dynamics and salt concentration on corrosion. Electric field mapping setup is used to collect the voltage and current information along with the temperature of the elbow section. In addition to modeling, characteristics of the observed scale deposits are also studied in-depth and briefly reported in this work.

Original language	English
Pages (from-to)	383-391
Number of pages	9
Journal	Corrosion Reviews
Volume	40
Issue number	4
DOIs	https://doi.org/10.1515/corrrev-2021-0057
State	Published - 1 Aug 2022

Bibliographical note

Publisher Copyright:
© 2022 Walter de Gruyter GmbH, Berlin/Boston.

Keywords

SS 316L elbow
corrosion modeling
electric field mapping
neural networks
scale deposition

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
General Materials Science

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10.1515/corrrev-2021-0057

Cite this

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title = "Neural network method for the modeling of SS 316L elbow corrosion based on electric field mapping",

abstract = "Stainless steel is known for its superior corrosion resistance in industrial applications. In this work, corrosion modeling of stainless steel 316L is presented using artificial neural networks. The experimental setup consists of a loop containing stainless steel elbow with simulated seawater of known concentration continuously flowing at a specific flow rate, thus allowing to study the effect of flow dynamics and salt concentration on corrosion. Electric field mapping setup is used to collect the voltage and current information along with the temperature of the elbow section. In addition to modeling, characteristics of the observed scale deposits are also studied in-depth and briefly reported in this work.",

keywords = "SS 316L elbow, corrosion modeling, electric field mapping, neural networks, scale deposition",

author = "Memon, \{Azhar M.\} and Salman, \{Umar T.\} and Hamzat, \{Abdulhammed K.\} and Alhems, \{Luai M.\}",

note = "Publisher Copyright: {\textcopyright} 2022 Walter de Gruyter GmbH, Berlin/Boston.",

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doi = "10.1515/corrrev-2021-0057",

language = "English",

volume = "40",

pages = "383--391",

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publisher = "Walter de Gruyter GmbH",

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AU - Memon, Azhar M.

AU - Salman, Umar T.

AU - Hamzat, Abdulhammed K.

AU - Alhems, Luai M.

PY - 2022/8/1

Y1 - 2022/8/1

N2 - Stainless steel is known for its superior corrosion resistance in industrial applications. In this work, corrosion modeling of stainless steel 316L is presented using artificial neural networks. The experimental setup consists of a loop containing stainless steel elbow with simulated seawater of known concentration continuously flowing at a specific flow rate, thus allowing to study the effect of flow dynamics and salt concentration on corrosion. Electric field mapping setup is used to collect the voltage and current information along with the temperature of the elbow section. In addition to modeling, characteristics of the observed scale deposits are also studied in-depth and briefly reported in this work.

AB - Stainless steel is known for its superior corrosion resistance in industrial applications. In this work, corrosion modeling of stainless steel 316L is presented using artificial neural networks. The experimental setup consists of a loop containing stainless steel elbow with simulated seawater of known concentration continuously flowing at a specific flow rate, thus allowing to study the effect of flow dynamics and salt concentration on corrosion. Electric field mapping setup is used to collect the voltage and current information along with the temperature of the elbow section. In addition to modeling, characteristics of the observed scale deposits are also studied in-depth and briefly reported in this work.

KW - SS 316L elbow

KW - corrosion modeling

KW - electric field mapping

KW - neural networks

KW - scale deposition

UR - https://www.scopus.com/pages/publications/85130962625

U2 - 10.1515/corrrev-2021-0057

DO - 10.1515/corrrev-2021-0057

M3 - Article

AN - SCOPUS:85130962625

SN - 0334-6005

VL - 40

SP - 383

EP - 391

JO - Corrosion Reviews

JF - Corrosion Reviews

IS - 4

ER -

Neural network method for the modeling of SS 316L elbow corrosion based on electric field mapping

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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