本研究旨在驗證「物理式抗垢技術應用於實場之可行性研究」,藉由立博科技提供之超淨磁抗垢設備(SSRA),於花蓮瑞穗(吉祥庭園溫泉)進行溫泉管線實場抗垢研究;研究方法採質性研究之「文獻研究法」及量性研究之「實場驗證法」兩種方式進行驗證。 藉由「文獻研究法」可知市場上常見的物理式抗垢設備計有:超音波換能器及磁能生成器應用於抑制結垢;然而,因為溫泉業者其儲槽位置及管線所經之處多有電源供應較不容易之特性及噪音問題,故較不易使用超音波換能器之抗垢系統,以磁能抗垢系統較為適用。 文獻研究研究結果亦顯示,磁能抗垢器技術適合在低溫及低流速情形下為最佳,其磁化效果可改變水樣中陰陽離子表面電位增加,產生電位互斥降低水樣中陰陽離子結合機率產生固體性顆粒進行抑制。此外,本研究亦於花蓮瑞穗(吉祥庭園溫泉)進行溫泉管線實場抗垢研究,於飯店之原水儲水槽後端架設超淨磁抗垢設備(SSRA),經SSRA設備處理之溫泉管線仍未進行換管,而未經SSRA設備之管線已更換一次,顯見SSRA設備應用於溫泉管線之抑垢已初具成效! This study focused on the feasibility study of physical decarbonatingtechnology applied to real scale production- the case study of Rueisuei hot spring area. The qualitative study (literature review) and quantitative study (real scale experiment) were applied in the verification of this research. The present study aims to investigate the influence of the magnetic effect on scaling inhibitfrom real scale hot spring hotel with the help of Li Bo. Technology Co. Ltd. Based on the research of literature review, the most commonscaling inhibitors that could be seen in the market are modular ultra-sonication and magnetic effect. Moreover, the real scale experiment indicated that the location of pipeline and storage tank for hot spring industrial is lack of power supply.The ultra-sonication was not suggested to hot spring industrial owing to energy consuming and potentialnoise consideration. The magnetic effecton scaling inhibitor was suggested to this research.The research of literature review also indicated thatthe magnetic effect on scaling inhibitor wereeffective at lower flow rate and temperature. It is because of the increasing potential of negative charges ions in the water, which decreases the formation possibility of solid precipitation from positive ions and negative ions in hot spring water. Moreover, this study has applied the magnetic effect on scaling inhibitor which is SSRA system to the real scale examination. The SSRAIIIsystem was installed at the storage tank before it supplied to the recreation service at Lucky hot spring hotel of Rueisuei hot spring area. The pipeline went through SSRA system was not changed during the experimental period. However, the pipeline without SSRA system has changed one time. The result has indicated the positivefeasibility of SSRA system applied to the hot spring pipeline system and storage tank.