Jia Hui TanRubina Bahar, CEng(MIMechE)CEng(MIMechE)Rubina BaharHieng Kiat JunJaslyn Low2024-10-172024-10-172023-12-0110.1088/1755-1315/1281/1/012021https://dspace-cris.utar.edu.my/handle/123456789/2833A solar still’s performance using 3 different conductive particles embedded in the phase change material (PCM) has been studied. The conductive particles involved are aluminium scrap (Al), aluminium oxide (Al₂O₃) nano powder and copper (Cu) nano powder, whereas the PCM is paraffin wax. Four similar solar still models were built with different PCMs, differentiated as Model A, B, C, and D, filled with Al scrap-PCM, Al₂O₃ nano-PCM, Cu nano-PCM, and Al₂O₃ + Cu-nano PCM combinations, respectively. The productivity of the solar stills for Models A, B, C, and D are 1.93, 2.15, 1.93, and 2.20 kg/kJ.m² respectively. It was concluded that Al₂O₃ + Cu-nano PCM is the most efficient PCM-conductive particle combination and Cu nano powder can be replaced by aluminium scrap as an economical alternative.journal-article