Electrochemical regeneration of high-purity CO2 from (bi)carbonates in a porous solid electrolyte reactor for efficient carbon capture

IF 49.7 1区材料科学 Q1 ENERGY & FUELS Nature Energy Pub Date : 2024-10-11 DOI:10.1038/s41560-024-01654-z

Xiao Zhang, Zhiwei Fang, Peng Zhu, Yang Xia, Haotian Wang

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Abstract

Carbon dioxide (CO₂) and absorbent regeneration are the most energy-intensive processes in carbon capture loops. Conventional carbon capture technologies typically consume substantial amounts of heat and involve multiple steps for regeneration. Here we demonstrated one-step electrochemical regeneration of CO₂ and alkaline absorbent from carbon-containing solutions in a modular porous solid electrolyte (PSE) reactor. By performing hydrogen evolution and oxidation redox reactions, our PSE reactor selectively split NaHCO₃/Na₂CO₃ solutions, which typically come from air contactors after CO₂ absorption, into NaOH absorbent in the catholyte and high-purity CO₂ gas in the PSE layer. No chemicals were consumed and no by-products were generated. High Na⁺-ion transport number (~90%), high capture capacity retention (~90%), low energy consumptions (50 kJ mol_CO2⁻¹ and 118 kJ mol_CO2⁻¹ at 1 mA cm⁻² and 100 mA cm⁻² for bicarbonate, respectively) and long-term stability (>100 hours) were demonstrated. We achieved industrially relevant carbon regeneration rates of up to 1 A cm⁻² (~18 mmol cm⁻² h⁻¹), highlighting the promising application potential.

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在多孔固体电解质反应器中从（生物）碳酸盐中电化学再生高纯度二氧化碳以实现高效碳捕获

二氧化碳（CO2）和吸收剂再生是碳捕集循环中最耗能的过程。传统的碳捕集技术通常需要消耗大量热量，并涉及多个再生步骤。在这里，我们在模块化多孔固体电解质（PSE）反应器中演示了一步式电化学再生含碳溶液中的二氧化碳和碱性吸收剂。通过氢进化和氧化还原反应，我们的 PSE 反应器可选择性地将 NaHCO3/Na2CO3 溶液（通常来自吸收二氧化碳后的空气接触器）分离成阴溶液中的 NaOH 吸收剂和 PSE 层中的高纯度二氧化碳气体。既不消耗化学品，也不产生副产品。结果表明，该方法具有高 Na+ 离子传输数（约 90%）、高捕集能力保持率（约 90%）、低能耗（在 1 mA cm-2 和 100 mA cm-2 条件下，碳酸氢盐的能耗分别为 50 kJ molCO2-1 和 118 kJ molCO2-1）和长期稳定性（100 小时）。我们实现了高达 1 A cm-2 （约 18 mmol cm-2 h-1）的工业相关碳再生率，凸显了其巨大的应用潜力。

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来源期刊

Nature Energy Energy-Energy Engineering and Power Technology

CiteScore

75.10

自引率

1.10%

发文量

193

期刊介绍： Nature Energy is a monthly, online-only journal committed to showcasing the most impactful research on energy, covering everything from its generation and distribution to the societal implications of energy technologies and policies. With a focus on exploring all facets of the ongoing energy discourse, Nature Energy delves into topics such as energy generation, storage, distribution, management, and the societal impacts of energy technologies and policies. Emphasizing studies that push the boundaries of knowledge and contribute to the development of next-generation solutions, the journal serves as a platform for the exchange of ideas among stakeholders at the forefront of the energy sector. Maintaining the hallmark standards of the Nature brand, Nature Energy boasts a dedicated team of professional editors, a rigorous peer-review process, meticulous copy-editing and production, rapid publication times, and editorial independence. In addition to original research articles, Nature Energy also publishes a range of content types, including Comments, Perspectives, Reviews, News & Views, Features, and Correspondence, covering a diverse array of disciplines relevant to the field of energy.

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