Kay Thomsen scite author profile

Absorption-based systems that typically employ amines such as monoethanolamine (MEA) are in commercial use for scrubbing CO2 from industrial flue and process gases. However, many challenges must be overcome when applying amine-based technology for the treatment of pulverized coal-fired power plants such as toxicity, degradation, high energy consumption associated with regeneration of the solvent, low regeneration pressure and cost of the chemicals. Other solvents such as aqueous solutions of ammonia (NH3) (Chilled Ammonia Process) and aqueous solution of potassium carbonate (K2CO3) are mature non-amine alternatives to the state-of-the-art MEA technology. Technology based on NH3 is capable of capturing CO2 at high loadings compared with MEA-based technology. In addition, NH3-based technology can strip CO2 at high pressure, thereby reducing CO2 compression costs and it has a kinetic of absorption comparable to the amine technologies at temperatures around 25°C. However, this process requires gas washing to reduce the NH3 emissions in the scrubbed flue gas [1-2]. The K2CO3-based process has lower regeneration energy requirements and no emission issues. However, it has a low kinetic of absorption, a very low loading capacity, and low-pressure of CO2 regeneration. Both the solvents (NH3 and K2CO3) have no problems of degradation and toxicity and they have low costs compared to the amines [3].

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Bioco2, a New Danish Funded Project for Improved Low Cost Biogas Upgrading and Pure Co2 Production

Neerup

Almeida

Thomsen

et al. 2019

SSRN Journal

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Kay Thomsen

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Bioco2, a New Danish Funded Project for Improved Low Cost Biogas Upgrading and Pure Co2 Production

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