Litcius/Paper detail

Study on Final Equilibrium State and Process of CO2 Reacting with Fe–C Melt

Wenhe Wu, Rong Zhu, Guangsheng Wei, Chunyang Wang, Haijuan Wang

2022Metallurgical and Materials Transactions B13 citationsDOIOpen Access PDF

Abstract

Abstract To study the final equilibrium state and process of CO 2 injecting into the Fe–C melt with different initial carbon contents, a model was established based on the method of minimization of Gibbs free energy and the corresponding experiments were carried out in a high-temperature tube furnace. When CO 2 is continuously injected into the Fe–C melt at 1873 K, the final equilibrium state of the system is such that the carbon and oxygen contents in the melt are 0.1977 and 0.0115 wt pct, respectively, and the volume ratio of CO in the gas phase is 85.75 vol pct. When the initial a [O] × a [C] in the melt is greater than those in equilibrium with CO under 0.8575 atm, the CO 2 gas removes carbon from the melt. On the contrary, the role of CO 2 gas is to add carbon and oxygen to the melt. At the same time, the variation of carbon and oxygen with time obtained by experiments was different from the theoretical calculation at extremely low carbon content, which requires further study.

Topics & Concepts

Carbon fibersOxygenThermodynamic equilibriumThermodynamicsGibbs free energyVolume (thermodynamics)Gas phaseMaterials scienceChemistryOrganic chemistryComposite materialComposite numberPhysicsMetallurgical Processes and ThermodynamicsIron and Steelmaking ProcessesAdvanced materials and composites