What question did this study set out to answer?

This research aims to explore the effectiveness of KOH aqueous solution combined with fly ash for CO2 capture and regeneration.

March 26, 2026Open Access

Study on CO2 fixation using alkaline aqueous solution and fly ash

Key Points

This research aims to explore the effectiveness of KOH aqueous solution combined with fly ash for CO2 capture and regeneration.
Used potassium hydroxide (KOH) aqueous solution for CO2 capture.
Mixed K2CO3 with combustion fly ash at room temperature.
Measured KOH regeneration rate using neutralization titration with HCl.
Conducted experiments to verify the CO2 capture and fixation cycle.
Achieved KOH regeneration rates of 4.5% and 6.1% with Japanese and Indonesian fly ash, respectively.
Confirmed the feasibility of using fly ash to regenerate KOH in the CO2 fixation process.

Abstract

Carbon dioxide capture technology using potassium hydroxide (KOH) aqueous solution has the characteristic that the absorption solution is less likely to deteriorate compared to conventional methods using amines. Inorganic compounds such as CaO are required to regenerate the KOH aqueous solution, so there are still challenges to overcome in achieving comprehensive CO2 emission reduction. In this study, we focused on a method that uses KOH aqueous solution for CO2 capture and combustion fly ash emitted from coal-fired power plants to regenerate the KOH aqueous solution. K2CO3 and fly ash were mixed at room temperature, and the KOH regeneration rate was confirmed by neutralization titration with HCl. The feasibility of the CO2 capture and fixation cycle was experimentally verified. KOH regeneration of 4.5 % and 6.1 % was confirmed for Japanese fly ash and Indonesian fly ash. The CO2 absorption and fixation process using KOH can be realized using fly ash. Future challenges include improving KOH regeneration efficiency.

Study on CO2 fixation using alkaline aqueous solution and fly ash

Key Points

Abstract

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