Anafi Nur’aini , Emma Laasonen , Vesa Ruuskanen , Tuomas Koiranen , Pertti Kauranen , Jero Ahola
{"title":"Comparative analysis of molten salt electrolytes for solid carbon production","authors":"Anafi Nur’aini , Emma Laasonen , Vesa Ruuskanen , Tuomas Koiranen , Pertti Kauranen , Jero Ahola","doi":"10.1016/j.rser.2024.115104","DOIUrl":null,"url":null,"abstract":"<div><div>The excessive amount of carbon dioxide in the atmosphere is a global problem, and thus, the mitigation of carbon dioxide emissions should be an urgent issue. Technically, CO<sub>2</sub> can be converted into valuable solid carbon through electrolysis in a molten salt electrolyte. Although studies have been conducted on the conversion of CO<sub>2</sub> into various morphologies of solid carbon, the molten salt itself has received less attention in the research literature.</div><div>Based on the inorganic mixture composition, various molten salts for CO<sub>2</sub> electrolysis are classified into four categories: molten chloride, molten chloride-oxide, molten chloride-carbonate, and molten carbonate. This review aims to fill the gap in the literature by describing the state of the art of each molten salt category with some experimental data collected in previous studies. The exploration is followed by an investigation of the performance, focusing on the efficiency, specific electrical energy consumption, corrosion of electrodes, and the presence of metal elements in the carbon product. The use of molten carbonate eliminates the potential of corrosion from Cl<sub>2</sub> and has a reported Faraday efficiency of up to 94.9%. However, electrode corrosion occurs in all types of molten salt, leading to the presence of metal elements in the solid carbon product. The economic perspective on this CO<sub>2</sub> electrolysis in molten carbonate is also discussed as an important area that should be attended to when considering future potential commercialization. Finally, this review provides guidance on selecting molten salt electrolyte by taking account their advantages and disadvantages.</div></div>","PeriodicalId":418,"journal":{"name":"Renewable and Sustainable Energy Reviews","volume":"209 ","pages":"Article 115104"},"PeriodicalIF":16.3000,"publicationDate":"2024-11-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Renewable and Sustainable Energy Reviews","FirstCategoryId":"1","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S136403212400830X","RegionNum":1,"RegionCategory":"工程技术","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"ENERGY & FUELS","Score":null,"Total":0}
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Abstract
The excessive amount of carbon dioxide in the atmosphere is a global problem, and thus, the mitigation of carbon dioxide emissions should be an urgent issue. Technically, CO2 can be converted into valuable solid carbon through electrolysis in a molten salt electrolyte. Although studies have been conducted on the conversion of CO2 into various morphologies of solid carbon, the molten salt itself has received less attention in the research literature.
Based on the inorganic mixture composition, various molten salts for CO2 electrolysis are classified into four categories: molten chloride, molten chloride-oxide, molten chloride-carbonate, and molten carbonate. This review aims to fill the gap in the literature by describing the state of the art of each molten salt category with some experimental data collected in previous studies. The exploration is followed by an investigation of the performance, focusing on the efficiency, specific electrical energy consumption, corrosion of electrodes, and the presence of metal elements in the carbon product. The use of molten carbonate eliminates the potential of corrosion from Cl2 and has a reported Faraday efficiency of up to 94.9%. However, electrode corrosion occurs in all types of molten salt, leading to the presence of metal elements in the solid carbon product. The economic perspective on this CO2 electrolysis in molten carbonate is also discussed as an important area that should be attended to when considering future potential commercialization. Finally, this review provides guidance on selecting molten salt electrolyte by taking account their advantages and disadvantages.
期刊介绍:
The mission of Renewable and Sustainable Energy Reviews is to disseminate the most compelling and pertinent critical insights in renewable and sustainable energy, fostering collaboration among the research community, private sector, and policy and decision makers. The journal aims to exchange challenges, solutions, innovative concepts, and technologies, contributing to sustainable development, the transition to a low-carbon future, and the attainment of emissions targets outlined by the United Nations Framework Convention on Climate Change.
Renewable and Sustainable Energy Reviews publishes a diverse range of content, including review papers, original research, case studies, and analyses of new technologies, all featuring a substantial review component such as critique, comparison, or analysis. Introducing a distinctive paper type, Expert Insights, the journal presents commissioned mini-reviews authored by field leaders, addressing topics of significant interest. Case studies undergo consideration only if they showcase the work's applicability to other regions or contribute valuable insights to the broader field of renewable and sustainable energy. Notably, a bibliographic or literature review lacking critical analysis is deemed unsuitable for publication.
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