As environmental consciousness grows, the concept of green environment has gradually become an important issue for sustainable developments. Applying the concept to green building design including materials selection and its construction can not only reduce effectively the amount of pollution but also save the cost of future electricity usage. Therefore, in the present study, life cycle assessment methods are employed to investigate the environmental impact of a building for the purpose of making it a green building. The assessment covers from materials selection to the actual construction process of each floor of the building, and applies carbon footprint concept to analyze their life-cycle carbon emissions. Then, appropriate carbon reduction strategies are proposed. In the end, this study also applies cost-benefit analysis to find how the usage of green-building materials can achieve the carbon reduction benefits. The demonstrative example in this study is the design draft of the new College of Engineering Building of National Taiwan University. With regard to materials to be used, Eco-indicator 99 of SimaPro7.3 is employed to analyze the environmental impact of each floor of the building. The life cycle carbon emission of the building is estimated. The result shows that the usage of steel and PVC causes the greatest environmental impact, and the impact per ton of PVC is approximately four times that of the steel. Thus, reducing the amount of PVC usage should be considered seriously to make the building be a green one. This study also finds based on environmental inventory study that the building under its current design will emit a total of 646,272 kg carbon dioxide during its life-cycle counting from its construction to its future daily use. If the usage of cement is replaced by pozzolan, the carbon emission can be reduced by 22,569 kg with a 3.94% of return-on-investment (ROI). If solar panel is further installed, the daily life carbon emission can be reduced by 14.56% with an additional 6.78% ROI.