查詢結果分析
來源資料
相關文獻
- 礫間接觸氧化法對有機污染物去除之回顧與探討
- Morphological Impact on Nitrification Activity in a UCBR
- 礫間接觸氧化法放流水BOD之類神經預測
- 厭氧流體化床之生物膜顆粒層次模型及代謝活性試驗
- Development of Pre-Coagulation and Biofilm Process for Advanced Treatment of Sewage
- Design of an Irradiance-Driven Biofilm Reactor and Its Performance in Nutrients and Heavy Metal Removal
- 元培醫專實驗室廢水分析及檢測之研究
- 微生物之附著及其生物膜的形成
- 由透視度推估養豬場處理水BOD、COD及SS可行性之探討
- A Perturbation Method for Estimation of the Marginal Cost of Secondary Wastewater Treament
頁籤選單縮合
題 名 | 礫間接觸氧化法對有機污染物去除之回顧與探討=Evaluation of the Efficiency of the Pebble-based Contact Chamber Technique Applied to the Treatment of Domestic Sewage |
---|---|
作 者 | 范致豪; 王惟申; | 書刊名 | 環境保護 |
卷 期 | 29:2 民95.12 |
頁 次 | 頁91-102 |
分類號 | 445.25 |
關鍵詞 | 礫間接觸氧化法; 生物膜; 生化需氧量; Pebble-based biofilm oxidation technique; Biofilm; BOD; |
語 文 | 中文(Chinese) |
中文摘要 | 礫間接觸氧化法源至於淺流河川之自淨原理,透過礫石間附著之生物膜有效處理水中有機污染物,參考日本過去成功之操作經驗,礫間接觸氧化法之平均BOD去除率約為20~70%,而礫間接觸曝氣氧化法之平均BOD去除率約為50~80%,礫石大小約為20~150mm,孔隙率為30~40%。另外透過模擬生物膜基質利用與擴散之機制,以國內外案例探討分析,結果顯示,當比表面積越大時,BOD去除率相對較大,且去除效果會隨進流濃度增加而減少。比較國內兩處礫間淨化處理設施,由於操作期間較短、礫石粒徑大(150~300 mm)、進流水濃度過高,而造成礫間接觸氧化設施之處理效果不彰。 |
英文摘要 | The pebble-based biofilm oxidation technique, resulting from the concept of self-purification process of natural shallow river systems, employed the biofilm degradation process to treat the organic pollutants in the domestic sewage. According the practical experience in Japan, the pebble-based biofilm oxidation technique with and without purge system resulted in the BOD removal efficiency of domestic sewage at the range of 50%~80% and 20%~70%, respectively. Besides, the pebble size and porosity of the treatment system ranged around 20~150 mm and 30~40%, respectively. With the mathematical simulation of biofilm theory, data collected from foreign and domestic sites showed that better treatment efficiency might be expected with higher specific area and lower in influent concentration. From the monitoring data collected from two domestic sites, it was shown that the treatment efficiency of these two sites did not provide satisfactory performance on BOD removal, and the reasons for such a result may be due to bigger pebble sizes, instability of the biofilm system, and higher influent BOD concentration. |
本系統中英文摘要資訊取自各篇刊載內容。