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ANALISIS PRODUKSI OZON DENGAN METODE DIELECTRIC BARRIER DISCHARGE (DBD) MENGGUNAKAN KONFIGURASI ELEKTRODA BATANG-SPIRAL
This research aims to analyze ozone production using the Dielectric Barrier Discharge (DBD) method with a rod–spiral electrode configuration varied at electrode gaps of 1.0 mm, 1.5 mm, and 2.0 mm. The study was conducted at the High Voltage and Electrical Measurement Laboratory, Faculty of Engineering, Sriwijaya University. The research method includes literature review, the design and fabrication of the ozone generator chamber, and experimental testing with voltage variations ranging from 4 kV to 6.5 kV using a high-voltage AC transformer. The ozone concentration was measured using an Ozone Analyzer BMT 964 BT, while the Partial Discharge (PD) phenomena were recorded using a Picoscope 2000 series to determine the relationship between PD intensity and ozone production. The results indicate that the rod–spiral electrode configuration with a 1.0 mm gap produces the highest ozone concentration compared to 1.5 mm and 2.0 mm gaps. Increasing the input voltage is directly proportional to the increase in ozone concentration due to the intensification of the electric field and oxygen ionization process. The PD data also shows that the number of positive discharges increases with the rise of the applied voltage and the decrease in electrode gap distance. At a 1.0 mm gap, the highest number of positive PD events was recorded at 2221 occurrences under a voltage of 6.5 kV.
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