於幼華2006-07-262018-06-282006-07-262018-06-282005-07-31http://ntur.lib.ntu.edu.tw//handle/246246/22162本研究針對兩處污水處理廠的放流水 評估其回收水再利用的處理技術，目的在 於符合四項水回收再利用途徑(農業灌 溉、澆灌沖洗、都市非飲用、建築物中水 道系統、景觀與環境用水)的水質標準建 議。結果顯示，針對內湖污水廠或六堵污 水廠的放流水，僅需使用砂濾處理程序即 可做為「農業灌溉」及「澆灌沖洗」之用(唯 水中含氮量可能過高，需加設生物脫氮處 理程序)，另外，需使用砂濾+臭氧的串聯 處理程序，即可達到「建築物中水道系統 及景觀」與「環境用水」兩項回收水再利 用途徑之標準;而若水中BOD 值過高， 只需加設UV 或GAC 串聯臭氧氧化程序 做為催化之用，即可進一步降解水中有機 物質。另外，本研究亦初步針對三種存在 於放流水之中的環境荷爾蒙物質 (Bisphenol A, BPA;Nonylphenol, NP; Octylphenol ethoxylate, OPEO)做臭氧氧化 實驗，並求出其半批次試驗之反應速率常 數。The reclaimed water from domestic wastewater treatment plant is very reliable alternative water resource, because stable quantity and lower pollution of reclaimed water satisfy the requirement for many applications. Based on this, the study estimated the various wastewater reuse technology for the requirement of agricultural and landscape irrigation, streetclean, dual distribution system (toilet flushing), industrial secondary use and environmental uses. The treatment technology of this study included sand filtration, MF, ozone treatment, ozone/UV, ozone/GAC. The results showed that sand filtration or/ozone could fit the requirement of above application of wastewater reuse. In addition, this study also investigated the environmental hormone compounds in the effluent of the domestic wastewater treatment plant. The results indicated that the decomposition rates of the environmental hormone compounds (Bisphenol A, BPA;Nonylphenol, NP; Octylphenol ethoxylate, OPEO) by ozone treatment in the semi-batch reaction followed pseudo-first order kinetics.application/pdf178012 bytesapplication/pdfzh-TW國立臺灣大學環境工程學研究所回收水再利用污水處理廠放 流水環境荷爾蒙Wastewater ReuseDomestic Wastewater Treatment PlantEffluentEnvironmental Hormonesreporthttp://ntur.lib.ntu.edu.tw/bitstream/246246/22162/1/932218E002112.pdf