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Title: | 好氧顆粒薄膜生物反應器的好氧顆粒穩定性及薄膜積垢探討 Stability of Aerobic Granule and Membrane Fouling in Aerobic Granule Membrane Bioreactor (AGMBR) |
Authors: | Yu-Chaun Juang 莊育權 |
Advisor: | 李篤中(Duu-Jong Lee) |
Keyword: | 好氧顆粒,雷射掃描式共軛焦顯微鏡,好氧顆粒薄膜生物反應器,薄膜內部生物膜,Arthrobacter sp., Aerobic granule,Confocal laser scanning microscopy,aerobic granule membrane bioreactor,Internal biofilm,Arthrobacter sp., |
Publication Year : | 2010 |
Degree: | 博士 |
Abstract: | 好氧顆粒是結構緊實的生物聚集體,具有良好的沉降性,並且具有處理高強度有機污水和毒性污水的能力。由低氨鹽和低磷酸鹽的培養基培養出的好氧顆粒,在連續式反應器中運作三天即失去好氧顆粒之結構穩定性。相反的,以培養基具有高濃度的氨鹽所培養的好氧顆粒能夠在連續式薄膜生物反應器中穩定運行210天。以掃描式電子顯微鏡元素分析以及雷射掃描式共軛焦顯微鏡觀察好氧顆粒內部有大量鈣與鐵的沉澱物,以Visual MINTEQ 計算顯示磷酸鹽和氫氧化物是好氧顆粒內部沉澱物的主要物質。
好氧顆粒薄膜生物反應器在經過長期的穩定操作後,發現薄膜內部形成生物膜。從好氧顆粒薄膜生物反應器中取得好氧顆粒、外部積垢層和薄膜內部生物膜分離菌種,並分析菌種分布、尺寸大小、表面電位和生長行為,另外測量菌種在不同有機負荷下分泌胞外聚合物質的濃度。從分離菌種中挑出可能穿過微過濾膜的三株菌,其親緣關係分別近似於Ralstonia mannitolilytica strain SDV、Arthrobacter sp. BJQ-2和Actinobacterium DS3。三株菌種中只有Arthrobacter sp.會形成內部生物膜。由於Arthrobacter sp.的長度較短於其他兩株菌,所以Arthrobacter sp.通過薄膜孔洞結構時受到較小的阻力,因此提高Arthrobacter sp.在薄膜內部表面形成生物膜的能力。 Aerobic granules are compact, strong microbial aggregates that have excellent settling ability and capability to efficiently treat high-strength and toxic wastewaters. The aerobic granules cultivated with low ammonium and phosphates lost structural stability within 3 days in continuous-flow reactors. Conversely, stable aerobic granules were cultivated in substrate with high levels of ammonium salts that could stably exist for 210 days in continuous-flow membrane bioreactors. The scanning electron microscopy, energy dispersive spectroscopy microanalysis and the confocal laser scanning microscopy imaging detected large amounts of calcium and iron precipitates in granule interiors. The Visual MINTEQ version 2.61 calculation showed that the phosphates and hydroxides were the main species in the precipitate. Internal biofilm was observed in the long-term operating AGMBR system. This study isolated strains in aerobic granule, the surface fouling layer, and biofilm inside hollow-fiber membranes of an aerobic granule membrane bioreactor; analyzed their distributions, sizes, surface charges, and growth behaviors; and determined the quantities of extracellular polymeric substances (EPS) secreted by these strains under different organic loadings. Three strains, which may penetrate the microfiltration membranes, were close relatives of the Ralstonia mannitolilytica strain SDV, Arthrobacter sp. BJQ-2, and Actinobacterium DS3. Among these three strains, only Arthrobacter sp. developed an internal biofilm. The relatively short length of Arthrobacter sp. minimizes resistance to cells moving through the membrane matrix, thereby enhancing its ability to build a biofilm in the interior surface of membranes. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/45955 |
Fulltext Rights: | 有償授權 |
Appears in Collections: | 化學工程學系 |
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ntu-99-1.pdf Restricted Access | 7.79 MB | Adobe PDF |
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