TY - GEN
T1 - Abatement of toluene from gas streams by using dielectric barrier discharge
AU - Li, Jingxin
AU - Li, Jian
AU - Liang, Wenjun
AU - Ma, Dongzhu
AU - Zheng, Feng
AU - Jin, Yuquan
PY - 2011
Y1 - 2011
N2 - Abatement of gaseous toluene via alterable frequency dielectric barrier discharge (DBD) plasma in a coaxial cylindrical reactor was carried out at atmospheric pressure and room temperature. During plasma processing to decompose toluene, discharge power was analyzed by using the Q-V Lissajous diagram. It suggested that, the specific energy density (SED) increased with the increasing of applied voltage and AC frequency, respectively. Furthermore, the experiment was focused on the effect of gas flow rate and initial concentration on the toluene abatement efficiency and abatement amount. It is obviously that the toluene abatement efficiency descends when gas flow rate and initial concentration is increased, however with the increasing of gas flow rate and initial concentration, the toluene abatement amount ascended earlier, and then began to descend. Moreover whether voltage or AC frequency is fixed, gas flow rate of the largest abatement amount is 6.3 cm/s, and initial concentration of the largest abatement amount is 2066 mg/m3. With the increasing of the applied voltage, the toluene energy efficiency descended. Comparing various gas flow rates, it can be found that Energy(6.3cm/s) Energy(10.1cm/s) Energy(2.5cm/s). Furthermore, when applied voltage ascended from 10kV to 15kV, the energy efficiency dropped rapidly. But when applied voltage increased from 15kV to 20 kV, the energy efficiency dropped slowly.
AB - Abatement of gaseous toluene via alterable frequency dielectric barrier discharge (DBD) plasma in a coaxial cylindrical reactor was carried out at atmospheric pressure and room temperature. During plasma processing to decompose toluene, discharge power was analyzed by using the Q-V Lissajous diagram. It suggested that, the specific energy density (SED) increased with the increasing of applied voltage and AC frequency, respectively. Furthermore, the experiment was focused on the effect of gas flow rate and initial concentration on the toluene abatement efficiency and abatement amount. It is obviously that the toluene abatement efficiency descends when gas flow rate and initial concentration is increased, however with the increasing of gas flow rate and initial concentration, the toluene abatement amount ascended earlier, and then began to descend. Moreover whether voltage or AC frequency is fixed, gas flow rate of the largest abatement amount is 6.3 cm/s, and initial concentration of the largest abatement amount is 2066 mg/m3. With the increasing of the applied voltage, the toluene energy efficiency descended. Comparing various gas flow rates, it can be found that Energy(6.3cm/s) Energy(10.1cm/s) Energy(2.5cm/s). Furthermore, when applied voltage ascended from 10kV to 15kV, the energy efficiency dropped rapidly. But when applied voltage increased from 15kV to 20 kV, the energy efficiency dropped slowly.
KW - Alterable frequency
KW - abatement efficiency
KW - dielectric barrier discharge
KW - specific energy density
KW - toluene
UR - http://www.scopus.com/inward/record.url?scp=80052165106&partnerID=8YFLogxK
U2 - 10.1109/ICBMEI.2011.5921091
DO - 10.1109/ICBMEI.2011.5921091
M3 - Conference contribution
AN - SCOPUS:80052165106
SN - 9781612841069
T3 - BMEI 2011 - Proceedings 2011 International Conference on Business Management and Electronic Information
SP - 819
EP - 822
BT - BMEI 2011 - Proceedings 2011 International Conference on Business Management and Electronic Information
T2 - 2011 International Conference on Business Management and Electronic Information, BMEI 2011
Y2 - 13 May 2011 through 15 May 2011
ER -
