Nowadays, there are various choices of reformation strategies for saving energy for existing buildings. The different building types and designs also have the most appropriate and efficient combination of renovation strategies. However, in the past, the selection of strategies can only rely on architects’ experiences without any systemic principle. Thus, this study attempts to obtain the best combination of reformation strategies in fixed cost through the simulation model, EnergyPlus coupled with genetic algorithm. The former is utilized to analyze the annual energy consumption for improving the optimization of reformation strategies, and the latter is used to make a proper choice among alternatives. In addition, the final decision will be affected by both the energy saving and the cost of reformation strategies during the building renovation process. Hence, this study also makes an effort to find a trade-off line for a collision between two objectives to provide a basis of selection, by means of the constraint method and weight method in multi-objective programming for selections of reformation strategies. The results represent that the use of Energyplus coupled with genetic algorithm for the application of selections of building renovation strategies can effectively shorten the searching time. Besides, albeit the selected combination of reformation strategies is not guaranteed to be the best, it will be close to the optimal solution at least. Finally, the trade-off line derived from multi-objective programming can effectively estimate the correlation between the use cost and the decrease of energy consumption to offer a basis of selection of strategies to decision-makers.