Keangin P.Chawengwanicha P.Somya S.Kongsri K.Thonghom P.Mahidol University2024-11-152024-11-152024-10-24AIP Conference Proceedings Vol.3236 No.1 (2024)0094243Xhttps://repository.li.mahidol.ac.th/handle/20.500.14594/102017Many people have been infected with the coronavirus (COVID-19), which is widespread at present. Disinfection is necessary to reduce the risk of virus outbreak from use of contaminated equipment. Ultraviolet type-c (UV-C) has a wavelength between 100-280 nm. Although UV-C is a danger if people receive large doses, it can eliminate pathogens. Thus, UV-C is popularly used for sterilization in UV-C automatic sterilization machines and sterilization in medical clinics. UV-C used for disinfection has wavelengths of 222 and 254 nm, which reduce microbial loads by up to 99%. It is a technology that is clean, safe and produces no residues. However, previous research has not considered the use of UV-C for disinfection of minibuses, which is a new and highly efficient technology. The current research aims to design a UV-C disinfection system for minibuses using a computer program. The effects of power and duration of UV-C on its irradiance distribution and UV-C irradiance values in a minibus are investigated. An experimental study with a UV-C lamp having a 254 nm wavelength in a UV-C cabinet was performed to validate the results of our simulations. A UV-C meter was used to measure irradiance with different durations in a cabinet and compare this data with simulation results. The experimental results show good agreement with our simulation. The average difference between the simulation and experimental results was 4.46%. The results in this study indicate that increased power and duration of UV-C resulted in faster and more efficient disinfection. The study results can be applied to a database of UV-C emission simulations and used to design disinfection systems for other types of vehicles.Physics and AstronomyConference PaperSCOPUS10.1063/5.02401072-s2.0-8520844413515517616