There were three types of hot spring water in Taiwan, including chlorine, carbonate and sulfate salt types. When the hot spring water was transported by pipeline system, the carbonate was easily precipitated in the interior of pipeline and storage tank, which considered as an essential problem for the hot spring industry. The huge maintenance cost and the produce of wasted pipes were considered as an environmental problem. Therefore, to solve scaling problems with green technologies, ultrasound energy was studied to the simulation process of hot spring transportation system. The hot spring scaling formation mechanisms and the performance of ultrasound inhibition process were studied basing on the changes of pH values and calcium ion concentrations. The experimental results indicated that the cations and anions were easily collided to form the precipitations under the low recirculation flow rate and the calcium were maintained in low concentration. Inversely, in high recirculation flow rate the calcium ion existed in higher concentration. When the temperature change in hot spring recirculation system, similar variation trends affected with flow rate also found. Higher temperature in spring water resulted in higher calcium concentrations remained. Thus, low flow rate and temperature could form a stable cations and anions collision reaction in hot spring water which resulted in high opportunity of scaling problems. The results indicated that scaling inhibition with ultrasound was depended on water flow rate and temperature. When the control system was under lower spring water flow rate and temperature, the performance of scaling problem inhibition was well. However, the performance was not obvious under higher water flow rate and temperature. The experimental results of this study are insufficient to conclude the optimization control conditions of ultrasound assisted inhibition process, which needs further researches and studies to fulfill the requirements.