The content of this study is divided into two parts: (1) Evaluation of three different processes for producing ethanol, glucose and single cell protein (SCP), respectively, from the view point of economy, environmental protection and alternative food of human. (2) Exploring a way to prepare solid-acid catalysts for catalyzing dehydration of xylose, and, therefore, high-purity furfural. Based on the evaluation, it is found that the process for producing ethanol is not effiecient; therefore, the cost is high. On the other hand, SCP is more competitive owing to its simpler process as compared to ethanol. Meanwhile, SCP is full of protein, amino acid and various vatamins, which can be used as an alternative food during famine. Except ethanol, glucose and SCP, more products can be produced from glucose and xylose solution, such as furfural. Furfural is produced from dehydration of xylose. This chemical possesses diverse applications in the industry. In the second part of the research, the main objective is to prepare solid-acid catalysts for catalyzing dehydration of xylose. Nafion, a type of acid catalyst and ion exchange resin,was loaded on amorphous silica through sol-gel method and used it as the catalyst for producing furfural. From the characterizations, by using EA, TGA, SEM and XRD, it is evident that Nafion has been supported on silica. From the test of catalytic activity in a water/toluene two phases reaction system, the following results were obtained: (1) The activity changed with the volumetric ratio of water to toluene. The yield is highest as the ratio is 1 to 4. (2) The catalytic activity can be effectively increased by Nafion. However, the activity improvement is still lower than that with the presence of sulfuric acid.