TITLE:
CO2 Transformation at Controlled Temperature with Lithium Hydroxide Solution and Metallic Lithium
AUTHORS:
Elizabeth Teresita Romero-Guzmán, José Luis Iturbe-García
KEYWORDS:
Metallic Lithium, Lithium Hydroxide Solution, Hydrogen, Atmospheric CO2 Transformation, Lithium Carbonate
JOURNAL NAME:
Journal of Minerals and Materials Characterization and Engineering,
Vol.12 No.3,
April
30,
2024
ABSTRACT: This paper presents a study on CO2 atmospheric transformation which was reacted directly with lithium hydroxide solution and metallic lithium. This solution was obtained through the reaction between metallic lithium and deionized water where hydrogen is produced and by exposing the metal at ambient conditions. In the transformation process, atmospheric CO2 gas reacts directly with LiOH solution, in both cases, the CO2 transformation kinetics was different. For this purpose, reactions between CO2 and LiOH solution were carried out under controlled temperature and the second process only with metallic lithium, which was exposed at room temperature, however, in these two processes lithium carbonate oxide was formed and identified. According to the results, the efficiency in CO2 transformation is a function of temperature value which was variable until completely obtaining the by-product, its XRD characterization indicated the formation only of Li2CO3 in both procedures. Under laboratory conditions lithium compounds selectively reacted with CO2. In the same way, there is an alternative procedure to obtain LiOH and Li2CO3 for different applications in various areas.