The fluctuating nature of wind causes the intermittency of offshore wind generation, and consequentially has the impact on the power grid. The use of energy storage systems is thus proposed as a solution to smooth the power generation, and reduce the loss of electricity and economics induced by the electricity fluctuations. The objective of this study is to provide a methodology to estimate energy storage demands of floating offshore wind farms. The evaluation consists of three parts, including the characteristic assessment of wind sites to define the target wind site with the need of energy storage, the energy storage demands analysis of the wind farms in operation, and the estimation of energy storage demands of the target site. An evaluation methodology is proposed and presented together with a case study of floating offshore wind farms in Taiwan. Firstly, various sites for offshore wind farms are systematically investigated, among which one wind farm site that will benefit most from the use of energy storage system is chosen as the target site for further evaluation. Secondly, the energy storage demands of several operational wind sites are determined by analyzing power generation data and grid connection specifications. Finally, the energy storage demand of the target site is estimated based on the operational wind sites' energy storage demands and the consideration of differences between sites in their environmental conditions and the power generation plans. The results of this research can be used as a preliminary evaluation of the utilization of energy storage systems together with floating offshore wind technology. The presented methodology for the analysis of the target wind site and the assessment of energy storage demands can also be applied to the development of other marine renewable energy or power generation systems.