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＜journal article＞
Nanobubbles as corrosion inhibitor in acidic geothermal fluid

Creator	Creator Name Aikawa, Asuki 相川, 明日希アイカワ, アスキ Affiliation Affiliation Name Department of Earth Resources Engineering, Kyushu University 九州大学大学院工学府地球資源システム工学専攻 Affiliation Affiliation Name Gas Resources Department, Saibu Gas Co., Ltd., 西部ガス株式会社
	Author PID K007336 0000-0002-0922-1112 Creator Name Kioka, Arata 喜岡, 新キオカ, アラタ Affiliation Affiliation Name Department of Earth Resources Engineering, Kyushu University 九州大学大学院工学研究院地球資源システム工学部門 Affiliation Affiliation Name Institut für Geologie, Leopold-Franzens-Universität Innsbruck
	Creator Name Nakagawa, Masami ナカガワ, マサミ Affiliation Affiliation Name Department of Earth Resources Engineering, Kyushu University 九州大学大学院工学研究院地球資源システム工学部門 Affiliation Affiliation Name Department of Mining Engineering, Colorado School of Mines
	Creator Name Anzai, Satoshi アンザイ, サトシ Affiliation Affiliation Name MCS Division, Anzaikantetsu Co. Ltd., 株式会社安斉管鉄MCS事業部
Language	English
Publisher	Elsevier
Date	2021-01
Source Title	Geothermics
Vol	89
Issue	101962
Publication Type	Accepted Manuscript
Access Rights	embargoed access
Date of Available	2023-01-01
Related DOI	isVersionOf https://doi.org/10.1016/j.geothermics.2020.101962
Related DOI
Abstract	Metallic corrosion is a major issue that leads to an efficiency loss and eventual failure of the system in geothermal power plants. Despite the growing understanding of mechanisms of corrosion, inhibi...ting steel corrosion in the acidic geothermal fluids remains to present formidable challenges due to its intrinsic physicochemical complexity. Here, we study the use of nanobubbles as a possible corrosion inhibitor by testing alteration of the low-carbon steel plates immersed in acidic geothermal water with continuously injected air-nanobubbles. Nanobubbles have been used in a broad range of areas as they are eco-friendly, low-cost, easy-to-use and high-functional materials. We, for the first time to our knowledge, found that air-nanobubbles could inhibit steel corrosion, with inhibition efficiency of up to 50% in the studied acidic geothermal fluid. Air-nanobubbles could act as a nanoscopic coating material in the acidic geothermal fluid, through generating a bubble mattress and/or promoting nucleation and aggregation of a very small quantity of silica precipitation on the surface of steel plates. Our finding suggests that nanobubbles can inhibit steel corrosion in various chemically different geothermal fluids, highlighting the physicochemical significance of nanobubbles as the coating material for inhibiting metal degradation in the geothermal infrastructures. [HIGHLIGHTS] ・Corrosion testing of low-carbon steels immersed in an acidic geothermal fluid with injecting air nanobubbles. ・Air-nanobubbles facilitated the corrosion inhibition effectiveness of low-carbon steels of up to 50%. ・Air-nanobubbles inhibited corrosion through bubble mattress and/or slight silica precipitation on the steel surface.show more

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PISSN	0375-6505
EISSN	1879-3576
NCID	AA11532470
Record ID	4481575
Subject Terms	Nanobubbles
	Steel corrosion
	Corrosion inhibitor
	Acidic geothermal fluid
	Bubble mattress
	Silica nanoparticle
Created Date	2021.07.09
Modified Date	2021.07.12