The use of fossil fuels causes environmental pollution and contributes to the greenhouse effect. Growing concern regarding the rapid depletion of fossil fuels and global warming has motivated people to seek alternative energy sources. Algae are suitable materials for bioethanol production in Taiwan, particularly because Taiwan is surrounded by the ocean and has rich marine resources. This study was conducted to investigate the fermentation of algae hydrolysate by immobilized yeast for bioethanol production. The results showed that immobilized Saccharomyces cerevisiae Wu-Y2 displayed excellent performance in the cofermentation of glucose and galactose present in algae hydrolysate. When the hydrolysate of Gracilaria cliftonii was fermented by immobilized S. cerevisiae Wu-Y2, a final ethanol concentration of 4.9 g/L (94% conversion efficiency) was achieved. Overall, 0.25 g of ethanol can be produced from 1 g of dry Gracilaria through this method. The growth of S. cerevisiae Wu-Y2 on the immobilized particles can be observed with a scanning electron microscope. Repeated batch fermentation revealed that the immobilized cells can be reused over five successive reaction cycles without any loss of biocatalytic activity. The average ethanol concentration was 5.0 g/L (more than 98% conversion efficiency in every cycle). Fermentation of Gracilaria hydrolysate by using immobilized S. cerevisiae Wu-Y2 in a bioreactor revealed that suitable conditions for ethanol production include the addition of 10% immobilized cells, continuous back-feeding, and rest cultivation (with no aeration). When the fermentation was conducted through continuous feeding of hydrolysate at 2.3 mL/min for 96 h, an overall 13.2 L of hydrolysate was added, the average ethanol concentration was 4.1 g/L, and 54.1 g of ethanol was obtained. The findings of this study revealed that Gracilaria sp. can be a potential feedstock in biorefineries for ethanol production by using immobilized S. cerevisiae.