ABSTRACT
Disinfection of a room is very important to note, especially because of the presence of the coronavirus which has been confirmed to be able to spread through the air, stick to objects around it and has a high potential to transmit the virus. This is exacerbated by the presence of a new variant of the coronavirus which causes an increasing number of people to be exposed every day. One of the most effective disinfectants is ozone. Ozone is a gas formed from three oxygen atoms which is highly reactive and more unstable than oxygen. Ozone with the right concentration of about 1 ppm can kill pathogens, such as bacteria and viruses. This research focuses on designing an independent control and monitoring system based on Human Machine Interface (HMI). This control and monitoring system design can be applied to measure ozone concentration and is equipped with a timer and automatic mode. The test results obtained total accuracy value of this device with variables of voltage, current, generator temperature, ambient temperature in the box, humidity in the box, and ozone concentration is 97.3%, while total precision value is 98.5%. This research was conducted by testing the appliance in a 1.2 x 1.5 x 2.5 m room for 10 minutes and the results showed that the voltage used by the appliance is in the range of 216V to 219V with a current dropping from 0.56A to a stability point of 0.46A. The maximum temperature at the generator is around 96oC with an ambient temperature of 38oC, the humidity decreases from 81% to 68% and the ozone concentration produced can be stable around 1 ppm in 1 minute which can be used to kill bacteria and viruses. © 2023 American Institute of Physics Inc.. All rights reserved.