Title :
The effect of residence time on the CO2 reduction from combustion flue gases by an AC ferroelectric packed bed reactor
Author :
Jogan, Katsuhiko ; Mizuno, Akira ; Yamamoto, Tosiaki ; Chang, Jen-Shih
Author_Institution :
Dept. of Eng. Phys., McMaster Univ., Hamilton, Ont., Canada
Abstract :
An experimental investigation was conducted to reduce CO2 from combustion gases using an AC ferroelectric packed bed reactor. This ferroelectric packed bed reactor consists of two mesh electrodes packed with ferroelectric particles between them. An AC voltage is applied to the reactor to generate partial or spark discharges. The results show the following: the CO2 gas reduction rate increases with increasing flue gas residence time and primary applied power; the CO2 gas reduction rate increases with decreasing gas flow rate and dielectric constant of packed ferroelectric particles; and the CO2 concentration is reduced by up to 18000 ppm, and 108 g of CO2 are removed by 1 kWh of primary applied energy used in the packed-bed reactor
Keywords :
air pollution detection and control; carbon compounds; combustion; electrodes; electrostatic devices; partial discharges; sparks; thermal power stations; 1 kWh; AC ferroelectric packed bed reactor; CO2; air pollution control; combustion flue gases; dielectric constant; gas flow rate; mesh electrodes; partial discharges; residence time; spark discharges; thermal power stations; AC generators; Combustion; Dielectric constant; Electrodes; Ferroelectric materials; Flue gases; Fluid flow; Inductors; Sparks; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
