虽然已经有几项研究旨在分别确定微小隐孢子虫卵囊失活和溴酸盐形成的机制和相应动力学，但需要进行新的努力，以研究在自然水体中用臭氧同时控制微小隐孢子虫卵囊和溴酸盐的形成。基于这一需要，本研究的主要目的是在不同的自然水体中同时模拟微小隐球菌卵囊失活和溴酸盐的形成。开发了一个模型，用于评估和优化臭氧消毒过程，并将其作为接触器配置、操作条件和水质特征的函数。 本研究侧重于通过实验室规模的实验对模型进行评估，并阐明相关水质参数对整个系统性能的作用。包括24个参考文献、表格和图表。

Although there have been several studies aimed at determining the mechanisms and corresponding kinetics of C.parvum oocyst inactivation and bromate formation separately, new efforts are required to investigate the simultaneous control of C. parvum oocyst and bromate formation with ozone in natrural waters. Based on this need, the main objective of this study is the simultaneous simulation of C. parvum oocyst inactivation and bromate formation in various natural waters. A model was developed for the assessment and optimization of the ozone disinfection process as a function of contactor configuration, operating conditions and water quality characteristics. This study focuses on the evaluation of the model with lab-scale experiments and the elucidation of the roles of relevant water quality parameters on the overall system performance. Includes 24 references, tables, figures.