Journal
ADSORPTION SCIENCE & TECHNOLOGY
Volume 37, Issue 1-2, Pages 127-138Publisher
SAGE PUBLICATIONS INC
DOI: 10.1177/0263617418817602
Keywords
Antisolvent crystallization; solubility; mathematical model; dissolution heat
Funding
- International Technical Cooperation Projects of People's Republic of China [2010DFA24580-501]
- Fundamental Research Funds for the Central Universities [HIT.NSRIF.201174]
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One of the main challenges of the ammonia-based CO2 capture process is how to further reduce the regeneration energy consumption. An antisolvent crystallization method was proposed to strengthen the crystallization process of carbonized ammonia, and heating the crystal products instead of rich solution can greatly reduce renewable energy consumption. The main component of the crystal product was NH4HCO3 analyzed by X-ray diffraction. Therefore, it is very important to study the thermodynamic properties of ammonium bicarbonate in the ternary system of NH3-H2O-ethanol. In this paper, the solubility curves under different temperature and solvent compositions were determined by static method and the mathematical model of solubility was established. The effects of the addition of ammonium carbamate which was produced in the initial stage of the CO2 absorption process and the addition of ammonia on the solubility in ternary system of NH4HCO3-H2O-ethanol were studied. The dissolution heat was also calculated in the end. The research of this article has a guiding significance for the antisolvent method to strengthen the crystallization of carbonized ammonia of ammonia-based carbon capture technology. It is helpful to further strengthen the crystallization process of low carbonized ammonia and improve the crystallization yield.
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