Bioenergy is a promising alternative energy because it can be derived from either crops or agricultural wastes and can help to ease the shortage of energy resources. When the bioenergy is derived from agricultural wastes, it both reduces the waste problem and increases the availability of food-related crops. Rice husk, one of the most common agricultural residues in Asia, is mainly comprised of lignocellulosic material including cellulose (~36%), hemicellulose (~22%), lignin (~20%), and ash (~11%). With appropriate pretreatment of the rice husk, the bioenergy yield can be effectively increased. The pretreatment reagents used in this study couples the hydrofluoric acid (HF) with alkaline peroxide (NaOH+H2O2). The HF helps to extract SiO2 from the rice husk; it also decreases the crystallinity of rice husk. After extraction of the SiO2 from rice husk with HF, HF treated rice husk was pretreated with alkaline peroxide solution for a reaction time of 30 min and a solid loading of 10% at 80oC. This study focuses on minimizing the use of pretreatment reagents by recycling the alkaline solution while still maintaining the bioenergy yield. The results indicated that alkaline peroxide pretreatment resulted in the maximum glucose yield of 813±23 mg glucose/ g treated rice husk during the cyclic recovery of alkaline solution. And the average glucose yield was 750±30 mg glucose/ g treated rice husk, when the number of cycle times was 10. In this study, the maximum and average of cellulose conversion can be obtained at 99±1% and 95±4%, respectively. And the chemical input in cyclic recovery can be greatly reduced to 47±7 % of original chemical input.