@article{9184,
  author = {E.R. Mercer and C.F. A. M. van Deursen and F.J. J. Peeters and W.A. Bongers and F.M. A. Smits and M.C. M. van de Sanden and A. Bogaerts},
  title = {Preheating applied on a 915MHz CO2 microwave plasma: Unlocking the potential for heat recycling in plasma systems},
  abstract = {We investigated the effects of inlet gas preheating on plasma performance in a vortex-stabilized 915 MHz CO2 microwave plasma reactor. Spatially resolved spectroscopic measurements of the plasma were employed to understand how preheating affects the temperature profile. Thermographic measurements of the reaction chamber analyzed losses through the wall, offering deeper insights into the thermal changes within the system. The overall conversion performance was evaluated using gas chromatography. We demonstrate that recycling less than 10% of the input power to preheat CO2 (T inlet = 700 K) can increase the energy efficiency of CO2 conversion by up to 1.7 times at conditions near atmospheric pressure (700 mbar), at moderate microwave power (1132 W). The results indicate that preheating affects plasma fluid dynamics, resulting in shifts in plasma contraction and increased spatial temperature profile, or reactive volume, with higher inlet temperatures. This study provides new insights into the potential of integrating heat recycling in plasma reactors for future industrial applications.},
  year = {2025},
  journal = {Chemical Engineering Journal},
  volume = {522},
  pages = {167294},
  doi = {10.1016/j.cej.2025.167294},
  language = {eng},
}