The rapid growth of green energy comes with significant demand for energy storage systems. Liquid nitrogen as an energy storage material is safe and reliable, and the air separation industry is mature. Extracting energy from liquid nitrogen is the only thing that awaits. This study develops a liquid nitrogen pressurized system with benefits like low wear, low response time, absorbing waste heat, and higher pressure downstream. This research builds an LN2 Pressurize System, which successfully produces 16 bar boiler pressure with 8 bar injecting pressure. This research also built the Substitution Experiment, which replaces LN2 with water to get the precise amount of injected water and remaining water. Furthermore, a method turns the injecting water weight into injecting LN2 weight. From the result of the Substitution Experiment, 16 bar injecting pressure with a slender quantitative bottle results in less remaining water. The results of the substitution experiment and the mass substitution method reveal the injection volume of different sizes of quantitative bottles under different injection pressures and the energy conversion efficiency of the injection, providing a reference for future expansion of the system.