ABSTRACT
Numerous failures and eventual losses in the chemical industry have been traced to corrosion processes.
Failures resulting from the inability of metals to support designed load requirements because of losses
imposed by corrosion effects can be combated economically through the use of chemical inhibitors. Despite
the fact that synthetic inhibitors are effective, nonetheless they are associated with problems of toxicity,
disposal, litigation and enormous costs. In order to protect the environment and reduce cost, the use of green
inhibitors as substitutes and partial replacement of chemical inhibitors have become a method of choice.
However, inhibitors are environment specific, therefore necessitating the need for deeper research into the
metal-inhibitor-media combination that would produce the best results. In this study, stand-alone and
synergistic inhibitor combinations were employed. In the synergistic combination a fractional substitution
model was introduced to tailor the inhibitor to a desired performance. Mild steel and Aluminium samples
sourced from the chemical industries were immersed in 0.5 M HCl and 0.5 M H2SO4 solution in the absence
and presence of varying inhibitor concentrations of potassium chromate (PC) (K2CrO4), aniline (AN)
C6H5NH2, Cassia fistula (CF), Terminalia catappa (TC) and Synergistic Admixtures (SA). Weight Loss
(WL) and Tafel Polarization (TP) techniques were adopted. WL data were recorded every 4 days for 60 days,
while TP data were obtained instantaneously from the potentiostat after 90 minutes immersion period.
Adsorption, Scanning Electron Microscopy (SEM) analysis and Artificial Neural Network (ANN) modelling
of the ML data were also conducted. Precisely 1910 WL experiments were performed, out of which the best
Inhibitor Efficiency (IE%) was by SA of 2PC+6CF (81.29) for steel in H2SO4 and 4PC+4CF (81.27) for Al
in HCl media, while the stand-alone systems of CF (54.5) and TC (78.36) at 10 and 4 g/L concentration
performed best for steel immersed in HCl and Al immersed in H2SO4 respectively. TP results showed the SA
of 4PC+4AN, 2PC+6AN, 2PC+6TC and 6PC+2AN as having high IE% of 99.99 for steel in HCl, steel in
H2SO4, Al in HCl and Al in H2SO4 respectively. Langmuir, Freundlich and Frumkin isotherms best described
the 16 stand alone systems used based on R-value. Fourteen of the systems were best described by Langmuir
while the remaining two were best explained by Freundlich and Frumkin isotherms respectively. SEM
analysis indicated that the introduction of the inhibitors stifled the corrosion reactions for mild steel and
aluminium in both acid media, as the micrograph displayed an almost smooth surface, while the frequency of
pit occurrence was lowered when compared to the uninhibited samples. ANN model results showed that the
trend depicted in the experimental data were captured almost perfectly by the neural network fitting tool.
Thus, the control of corrosion induced wastage of infrastructure through novel inhibitor systems and the
development of a modelling tool that could be used to mimic the exact corrosion process rather than costly
experimentation are major contributions of the work. Fuzzy deduction systems and their composite forms are recommended for the development of predictive corrosion rate models.
ADESHOLA, O (2021). Inhibition Evaluation Of Chemical And Plant Extracts On The Corrosion Of Metallic Alloys In Acidic Environment. Afribary. Retrieved from https://tracking.afribary.com/works/inhibition-evaluation-of-chemical-and-plant-extracts-on-the-corrosion-of-metallic-alloys-in-acidic-environment-1
ADESHOLA, OMOTOSHO "Inhibition Evaluation Of Chemical And Plant Extracts On The Corrosion Of Metallic Alloys In Acidic Environment" Afribary. Afribary, 20 May. 2021, https://tracking.afribary.com/works/inhibition-evaluation-of-chemical-and-plant-extracts-on-the-corrosion-of-metallic-alloys-in-acidic-environment-1. Accessed 21 Nov. 2024.
ADESHOLA, OMOTOSHO . "Inhibition Evaluation Of Chemical And Plant Extracts On The Corrosion Of Metallic Alloys In Acidic Environment". Afribary, Afribary, 20 May. 2021. Web. 21 Nov. 2024. < https://tracking.afribary.com/works/inhibition-evaluation-of-chemical-and-plant-extracts-on-the-corrosion-of-metallic-alloys-in-acidic-environment-1 >.
ADESHOLA, OMOTOSHO . "Inhibition Evaluation Of Chemical And Plant Extracts On The Corrosion Of Metallic Alloys In Acidic Environment" Afribary (2021). Accessed November 21, 2024. https://tracking.afribary.com/works/inhibition-evaluation-of-chemical-and-plant-extracts-on-the-corrosion-of-metallic-alloys-in-acidic-environment-1