A theoretical study of factors affecting corrosion in supercritical water reaction vessels

Simon J Halstead

doi:10.1016/j.supflu.2013.01.023

A theoretical study of factors affecting corrosion in supercritical water reaction vessels

Simon J Halstead

The University of Manchester

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

Abstract

This paper reports a molecular dynamics study of the pKW of water, pKa of HCl and pKb of NaOH in supercritical water at a pressure of 1000 atm. The extent of acid/base dissociation is known to be an important factor in the corrosion of supercritical water reaction vessels. This work describes classical molecular dynamics simulations using the SPC/e water model to gain insight into the controlling factors. The results indicate that the dissociation of water has a maximum at 448 K, whereas both the dissociation of HCl and NaOH become less favourable with increasing temperature due to a decrease in entropy. The simulation results are compared to values calculated from the generalised Born theory, and there is a qualitative agreement in the trend.

Original language	English
Pages (from-to)	261-267
Number of pages	6
Journal	The Journal of Supercritical Fluids
Volume	79
DOIs	https://doi.org/10.1016/j.supflu.2013.01.023
Publication status	Published - Jul 2013

Keywords

Supercritical; Water; pKa; pKb; pKW; Corrosion

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10.1016/j.supflu.2013.01.023

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abstract = "This paper reports a molecular dynamics study of the pKW of water, pKa of HCl and pKb of NaOH in supercritical water at a pressure of 1000 atm. The extent of acid/base dissociation is known to be an important factor in the corrosion of supercritical water reaction vessels. This work describes classical molecular dynamics simulations using the SPC/e water model to gain insight into the controlling factors. The results indicate that the dissociation of water has a maximum at 448 K, whereas both the dissociation of HCl and NaOH become less favourable with increasing temperature due to a decrease in entropy. The simulation results are compared to values calculated from the generalised Born theory, and there is a qualitative agreement in the trend.",

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AB - This paper reports a molecular dynamics study of the pKW of water, pKa of HCl and pKb of NaOH in supercritical water at a pressure of 1000 atm. The extent of acid/base dissociation is known to be an important factor in the corrosion of supercritical water reaction vessels. This work describes classical molecular dynamics simulations using the SPC/e water model to gain insight into the controlling factors. The results indicate that the dissociation of water has a maximum at 448 K, whereas both the dissociation of HCl and NaOH become less favourable with increasing temperature due to a decrease in entropy. The simulation results are compared to values calculated from the generalised Born theory, and there is a qualitative agreement in the trend.

KW - Supercritical; Water; pKa; pKb; pKW; Corrosion

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DO - 10.1016/j.supflu.2013.01.023

M3 - Article

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SP - 261

EP - 267

JO - The Journal of Supercritical Fluids

JF - The Journal of Supercritical Fluids

ER -

A theoretical study of factors affecting corrosion in supercritical water reaction vessels

Abstract

Keywords

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