摘要
Langkawi SkyCab has the highest energy demand in Langkawi Island and the demand keeps increasing year by year.This study proposed alternatives energy of a hybrid photovoltaic(PV)and fuel cell system for the SkyCab’s operation.The best sizing and configurations were chosen based on Homer simulation software.A comparative study was done between a conventional system and other hybrid combinations.The results revealed that the proposed system had reduced the cost as well as CO2 emission almost by 39%and 79%,respectively.The hybrid PV and fuel cell system is aligned with the Malaysian government’s goals of reducing carbon emissions 40%by the year 2030.
Langkawi SkyCab has the highest energy demand in Langkawi Island and the demand keeps increasing year by year. This study proposed alternatives energy of a hybrid photovoltaic(PV) and fuel cell system for the SkyCab’s operation. The best sizing and configurations were chosen based on Homer simulation software. A comparative study was done between a conventional system and other hybrid combinations. The results revealed that the proposed system had reduced the cost as well as CO2 emission almost by 39% and 79%, respectively. The hybrid PV and fuel cell system is aligned with the Malaysian government’s goals of reducing carbon emissions 40%by the year 2030.
基金
supported by the Research University Grant(GUP-Tier 1) under Vote No.19H40
