Experimental and computational studies of the corrosion inhibitive effects of Zingiber officinale rhizomes on mild steel corrosion in acidic solutions

Q3 Mathematics

Journal of Nigerian Society of Physical Sciences Pub Date : 2023-08-12 DOI:10.46481/jnsps.2023.1386

Chinonso Adindu, Simeon Nwanonenyi, Chinyere Ikpa

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Abstract

The study investigates the anticorrosion potentials of Zingiber officinale (ZO) on mild steel induced in 1.0 M HCl and 0.5 M H2SO4 acid solution respectively using structural characterization (gas chromatography-mass spectroscopy, GC-MS and Fourier transform infrared spectroscopy, FTIR) and electrochemical (electrochemical impedance spectroscopy, EIS and potentiodynamic polarization, PDP) techniques respectively and theoretical simulations. The structural characterization was performed to identify chemical constituents and functional groups present in the plant extract whereas electrochemical techniques and theoretical computations were used to examine the anticorrosion potentials of the extract and validate the experimental results. The GC-MS result revealed the presence of twenty-three (23) compounds within the extract and out of which three (1-(1,5-dimethyl-4-hexenyl)-4-methyl-, dodecanoic acid and 9-Octadecenoic acid (Z)-2-hydroxy-1-(hydroxymethyl)ethyl ester) were selected for computational simulation and the results of FTIR revealed the presence of the following functional groups (O-H, C=C, C=O, C-C and C-H) in the ZO extract. The results of EIS revealed that extract of ZO exhibited corrosion inhibition efficieny of 82.7% and 93.6 % for mild steel in 1 M HCl and 0.5 M H2SO4 solution respectively at maximum inhibitor concentration of 1000 mg/L for mild steel. Also, PDP results revealed that ZO extract functioned as mixed inhibitor because both the anodic and cathodic reaction process was altered. The quantum chemical calculation results revealed that 9- Octadecenoic acid (Z)-2-hydroxy-1-(hydroxymethyl) ethyl ester had a good energy gap (\Delta E) compared to other two compounds, indicating its better adsorption interaction with the metal surface in sulfuric acid environment. This was further confirmed by its good adsorption energy of -355.55 Kcal/mol with mild steel surface in H2SO4 environment compared with -167.81Kcal/mol in HCl environment from the molecular dynamic simulation.

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生姜根茎在酸性溶液中对低碳钢缓蚀作用的实验与计算研究

采用结构表征(气相色谱-质谱，GC-MS和傅里叶变换红外光谱，FTIR)和电化学表征(电化学阻抗谱，EIS和动电位极化，PDP)技术和理论模拟分别研究了在1.0 M HCl和0.5 M H2SO4酸溶液中诱导的Zingiber officinale (ZO)对低碳钢的腐蚀电位。通过结构表征来确定植物提取物中存在的化学成分和官能团，并使用电化学技术和理论计算来检查提取物的防腐电位并验证实验结果。GC-MS结果显示萃取物中存在23种化合物，其中选择3种(1-(1,5-二甲基-4-己烯基)-4-甲基-、十二烷酸和9-十八烯酸(Z)-2-羟基-1-(羟甲基)乙酯)进行计算模拟，FTIR结果显示萃取物中存在以下官能团(O- h, C=C, C=O, C-C和C- h)。EIS结果表明，在1 M HCl和0.5 M H2SO4溶液中，ZO提取物对低碳钢的缓蚀效率分别为82.7%和93.6%，缓蚀剂的最大浓度为1000 mg/L。此外，PDP结果表明，ZO提取物由于改变了阳极和阴极反应过程而具有混合抑制剂的功能。量子化学计算结果表明，与其他两种化合物相比，9-十八烯酸(Z)-2-羟基-1-(羟甲基)乙酯具有良好的能隙(\Delta E)，表明其在硫酸环境下与金属表面有更好的吸附相互作用。分子动力学模拟表明，低碳钢表面在H2SO4环境下的吸附能为-355.55 Kcal/mol，而在HCl环境下的吸附能为-167.81Kcal/mol。

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