Simulation of Supercritical Water Gasification Reaction of Glycerol and Reactor Structure Study

Jiarong Yin; Jinbiao Wang

doi:10.54097/q93r4426

Authors

Jiarong Yin
Jinbiao Wang

DOI:

https://doi.org/10.54097/q93r4426

Keywords:

Supercritical water gasification; Reaction simulation; Reactor structure; Transient kinetic simulation; Thermo-mechanical coupled field analysis.

Abstract

The study established a reactor model with a volume of 500 ml that can withstand high temperature and high pressure, and firstly used the simulation software ANSYS FLUENT 2023R1 to simulate the process of generating H2-rich gaseous products by reacting glycerol in supercritical water at a temperature of 374°C and a pressure of 23 Mpa, and the results showed that the pressure and temperature were uniformly distributed in the fluid domain of the reactor. The results show that the pressure and temperature are uniformly distributed in the fluid domain of the reactor. Secondly, according to the pressure distribution obtained from the simulated reaction, the transient dynamics and thermo-mechanical coupling field analysis were applied to the inner wall of the reactor cavity in ANSYS Workbench to study the stress displacement. Finally, the results of the two analyses are compared to conclude that the pressure field can affect the trend of stress and displacement of the reactor structure, and the temperature field at higher temperatures can increase the values of stress and displacement.

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