Response Surface Methodology Analysis of CO₂ Photocatalytic Conversion in Presence of CH₄ over Nitrogen-Doped Titania Nanotube Arrays

Abstract

Recently, in the research of photocatalytic conversion of CO₂, there has been an increasing innovative interest to simultaneously reduce the level of CO₂ emissions and produce valuable products. In this study, highly ordered nitrogen-doped titania (TiO₂) nanotube arrays, fabricated by anodization method, were used for CO₂ reduction in the presence of CH₄. Response surface methodology (RSM) was employed to assess individual and interactive effects of UV light power, CO₂:CH₄:N₂ ratios in feed and distance between the UV lamp and the reactor on CO₂ conversion. A face-centered central composite design (FCCCD) was utilized to optimize the photocatalytic process conditions. The optimal conditions for maximum CO₂ conversion of 41.5 % were determined as 250 W UV light power, 10 % CO₂ initial ratio and 2 cm distance between UV lamp and reactor.