Recently, energy issues emerge, the energy saving and carbon reduction, into the need to consider important factors in product development. Heavy using and long operation of industrial centrifugal fans, if you can effectively improve the efficiency of the fan will be able to significantly reduce carbon emissions and electricity costs. China set the minimum efficiency threshold for selling fans, if below the threshold it cannot be sold. This study is to help the fan company in Taiwan to get through the efficiency threshold of China as the main goal. This study considers the factors of tolerance, using the CFD software and with a Taguchi method to improve the existing backward centrifugal fan design to enhance the efficiency of the fan. By Improving appearance of inlet cone and housing make air flow more smoothly. We chose the blades of the angles b1, b2, heights b1 and b2 be the factors as the Taguchi’s inner array. Moreover, we make the tolerance of angle b1, hight b2 and the overlap between inlet cone and impellers be factors in the outer array. The improved fan after tested AMCA 210, the design it enhance about 7.6 % than the original ones. In the other hand, the efficiency enhance from 63.3 % to 70.9 %. If a fan works 24-hour in a factory, we can save about 12,900 NT dollars a year, and reduce 2620 Kg of CO2 emissions a year. In addition, this study found that narrowing the ratio between the area of inlet cone throat and entrance area can enhance the efficiency about 1.9 %. On the other hand, it is found that a housing using Archimedes spiral may inference the efficiency drop about 1.6 %.