Fossil fuels-Coal, oil, natural gas, occupy the dominant position of the current human energy consumption structure, resulting in the gradual increase in atmospheric concentrations of greenhouse gases, which will cause global warming. It will bring a serious threat to human health and sustainable economic development. Carbon capture and storage technologies, CCS, is regarded as one of the most important method to solve the global warming problem. However, the development of this method has always been in controversy, which mainly focus on the environmental impact and safety risks brought by CCS. And the main obstruction of the develop-ment is the lack of policy support and the poor public understanding of CCS. There-fore, it is of great significance to establish relevant policies, on which environmental impact assessment is also absolutely necessary. Strategic environmental assessment is a routinely method, which needs effective environmental assessment tools to achieve solid results. Lifecycle assessment, which is just a quantitative and system thinking environmental management method, examines on the resource investment and pollutant discharge of one product or service at vari-ous life stages from the beginning to the very end. Concise assessment mode is taken use of in this thesis to do the environmental impact assessment on the lifecycles of the product, further as a reference of environmental designs and decisions. When lifecycle assessment and strategic environmental assessment are under the same system bound-aries, environmental performance evaluation and systematical analysis on the envi-ronmental impact of the policy and strategy, which is quite suitable during the stage of environmental impact assessment and for the selection of alternatives. The year of 2025 is set as the baseline year in this thesis to evaluate whether CCS is suitable for coal-fired power plants in Taiwan to carry on. And the baseline plan is taking no efforts on core-fired units in traditional Taiwanese coal-fired power plants, while the alternative is applying CCS on the core-fired units. Lifecycle assessment tool Simapro8.1 is used at first to perform inventory analysis on the input and output of each stages of the two schemes. Then pattern quantification of the potential im-pacts was accomplished by ReCiPe3.0. In the last, this work corresponded the results to the project evaluation matrix in the specification and instruction of the strategic en-vironmental assessment, providing quantized environmental information for policy-makers. The results shows the alternative scheme has positive effects on the reduction of four impact categories, climate change, particle formation, land acidification and cli-mate change ecosystems. And along with the improvement of power technologies, the reduction effect grows, that subcritical has the maximum impact, supercritical takes the second place, and ultra-supercritical has the minimum impact, while causing larger impacts within the aspects of resource usage, ozone bleaching, human toxicity, photo-chemical oxidant, aquatic toxicity and eutrophication. The impact result of the baseline plan is 9.07E+09, and the alternative plan is 8.51E+09, which means the impact is only reduced by 6.22% after applying CCS technologies. Under the precondition of regardless of the economic factors and secu-rity risk, whether allocating CCS to coal-fired power plants in Taiwan or not is a ques-tion for policy-makers to solve.