Ozone-Generation Panel with an Atmospheric Dielectric Barrier Discharge

Autor: Guangsup Cho, Sang-Jin Kim, Kyu-Hang Lee, Byung-Koo Son, Sichan Kim, Bong-Joo Park
Rok vydání: 2020
Předmět:
Zdroj: Journal of the Korean Physical Society. 77:572-581
ISSN: 1976-8524
0374-4884
Popis: For small-scale discharge panels of volume-dielectric barrier discharge (V-DBD) and surface-DBD (S-DBD) with an Al2O3-ceramic dielectric layer and a sinusoidal alternating current (AC)-voltage at a frequency of 55 kHz, the plasma and the ozone densities in the discharge area are estimated by analyzing the I-V (current and voltage) characteristics and ozone measuring the concentration in a liter-scale container. With a plasma current in the range of 10–20 mA, the plasma density is np ∼ (1018−1019)m−3 for the V-DBD and np ∼ (1017−1018)m−3 for the S-DBD, irrespective of environmental temperature. However, the ozone density generated on DBD is strongly affected by the electrode temperature and is reduced as the environmental temperature is increased. At an environmental temperature as low as 10 °C, the ozone density generated on the V-DBD is as low as n(O3) ∼ (1017−1018)m−3 with a high electrode temperature of more than 100 °C; on the other hand, the ozone density on the S-DBD is n(O3) ∼ (1019−1020)m−3 with a low electrode temperature of ∼30 °C, which is higher by an order of 102 than the plasma density on the S-DBD plasma panel.
Databáze: OpenAIRE
Externí odkaz: