好氧生物顆粒之氧氣擴散係數

Ren-Chao Chiou; 邱荏超

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/33022

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	李篤中
dc.contributor.author	Ren-Chao Chiou	en
dc.contributor.author	邱荏超	zh_TW
dc.date.accessioned	2021-06-13T04:22:14Z	-
dc.date.available	2008-07-26
dc.date.copyright	2006-07-26
dc.date.issued	2006
dc.date.submitted	2006-07-23
dc.identifier.citation	蔡德耕，「活性泍泥膠羽之氧氣輸送阻力」，碩士論文，國立台灣大學化學工程研究所，台北（2004） Arrojo B., Mosquera-Corral A, Garrido J.M., and Mendez R. Aerobic granulation with industrial wastewater in sequencing batch reactors. Water Res., 2004; 38:3389-3399. Bellouti M., Alves M.M., Novais J.M., and Mota M. Flocs vs granules : differentiation by fractal dimension. Water Res., 1997; 31: 1227-1231. Beuling E.E., Van Den Heuvel J.C., and Ottengraf S.P.P. Diffusion coefficients of metabolites in active biofilms. Biotechnol Bioeng., 2000 ; 67: 53-60 Beun J.J., Hendriks A., van Loosdrrecht MC..M., Morgenroth E., Wilderer P.A., and Heijnen J.J. Aerobic granulation in a sequencing batch reactor. Water Res., 1999; 33: 2283-2290. Beun J.J., Van Loosdrecht M.C.M., and Heijnen J.J. Aerobic granulation in a sequencing batch airlift reactor. Water Res., 2002; 36: 702-712. Cole M.J., Siegel J., Webb S.E., Jones R., and Dowling K., Dayel M.J., Parsons-Karavassils D., Grench P.M., Level M.J., and Sucharov L.O., et al. Time-domain whole-field fluorescence lifetime imaging with optical sectioning. J. Micros., 2001; 203: 246-257. Crank J. 1975. Thre mathematics of diffusion. Oxford, UK, Clarendon press. Gadella T., Jovin T.M., and Clegg R.M. Fluorescence lifetime imaging microscopy (FLIM): spatial resolution of microstructures on the nanosecone time scale. Biophys. Chem.,1993; 48: 221-239. Gapes D., Wilen B.M., and Keller J. Mass transport impacts in flocculent and granular biomass from SBR systems. Water Sci. Technol., 2004;50(10), 203–212. Jang A., Yoon Y.H., Kim I.S., Kim K.S., and Bishop P.L. Characterization and evaluation of aerobic granules in sequencing batch reactor. J. biotechnol., 2003;105:71-82 Li B.K. and Bishop P.L.. Micro-profiles of activated sludge flocdetermined using microelectrodes. Water Res., 2004; 38: 1248-1258 Liu Y. and Liu Q.S. Causes and control of filamentous growth in aerobic granular sludge sequencing batch reactors Biotechnol. adv., 2006;24: 115-127. Liu Y. and Tay J.H. State of the art of biogranulation technology for wastewater treatment. Biotechnol. adv., 2004;22: 553-563. Liu YQ, Liu Y, Tay JH. Relationship between size and mass transfer resistance in aerobic granules. Lett Appl Microbiol., 2005;40:312-315. McSwain B.S., Irvine R.L., Hausner M., and Wilderer P.A. Composition and distribution of extracellular polymeric substances in aerobic flocs and granular sludge. Appl. Environ. Microbiol., 2005;71: 1051-1057. Morgenroth E., Sherden T., Van Loosdrecht M. C. M., Heijnen J. J., and Wilderer P.A. Aerobic granular sludge in a sequencing batch reactor . Water Res.,1997; 31: 3191-3194. Neu T.R., and Lawrence J.R. Development and structure of microbial biofilms in river water studied by confocal laser scanning microscopy. FEMS Microbiol. Ecol.,1997; 24: 11-25. Neu T.R., Swerhone G.D.W., and Lawrence J.R. Assessment of lectin-binding analysis for in situ detection of glycoconjugates in biofilm systems. Microbiology, 2001; 147: 299-313. Neu T.R., Woelfl S., and Lawrence J.R. Three-dimensional differentiation of photo-autotrophic biofilm constituents by multi-channel laser scanning microscopy (single-photon and two-photon excitation). J. Microbiol. Methods.,2004; 56: 161-172. Ohashi A. and Harada H. Adhesion strenghof biofilm development in an attached –growth reactor. Water Sci Technol., 1994;29:10. Peng D.C., Bernet N., Delgenes J.P., and Moletta R. Aerobic granular sludge –A case report. Water Res., 1999; 33: 890-3. Tay J.H., Ivanov V., Pan S. and Tay S.T.L. Specific layers in aerobically grown microbial granules. Lett. appl. Microbiol., 2002;34:254-257. Tay J.H., Jiang H. L. and Tay S.T.L. High-rate biodegradation of phenol by aerobically grown microbial granules. J. Environ. Eng., 2004 130:12 (1415). Tay J.H., Liu Q.S., and Liu Y. Microscopic observation of aerobic granulation in sequencing aerobic sludge blanket reactor , J Appl Microbiol 2001a ; 91: 168-175. Tay J.H., Pan S., He Y.S. and Tay S.T.L. Effect of organic loading rate on aerobic granulation. II: Characteristics of aerobic granules. J. Environ. Eng., 2004 130:10 (1102). Wu R.M., Lee D.J., Taite T.D., and Guan J. Multilevel structure of sludge floc. J Colloid Interf Sci .,2002 ; 252: 383-392. Yamaguchi T., Yamazaki S., Uemura S., Tseng I.C., Ohashi A. and Harada H. Microbial-ecological significance of sulfide precipitation within anaerobic granular sludge revealed by micro electrodes study . Water Res., 2001; 35: 3411-3417.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/33022	-
dc.description.abstract	本論文中，藉由微電極儀器去量測好氧顆粒DO反應數據，並利用適合的質傳方程式去求解擴散係數。因實驗樣品不同，分為兩部分討論。第一部分，量測反應活性較小的兩種好氧顆粒，分別為貯存於4oC冰箱數個月的醋酸及酚好氧顆粒。生物外觀上觀察，可明顯看出醋酸好氧顆粒的粒徑大於酚好氧顆粒。在較高的水流流速通過好氧顆粒，減少表面質傳阻力至忽略。一維無反應質傳方程式，進行估算可發現，直徑對擴散係分為兩區：較大顆粒的醋酸好氧微顆粒，1.28-2.50 mm，具有較大的擴散係數1.24-2.28 x10-9 m2 s-1 ;較小顆粒的酚生顆粒，0.42-0.78 mm，具有較小的擴散係數2.50-7.65 x10-10 m2 s-1。　　藉由微電極及雷射共軛焦顯微鏡量測，可發現好氧顆粒內部為層狀結構。穏態酚生顆粒內溶氧濃度數據說明好氧顆粒之表層具有高反應活性。考慮內部平均氧氣濃度做為邊界可求出擴散係數為1.34-1.82x10-9 m2 s-1。同時處慮非穏態及態態的溶氧數據可知，醋酸好氧顆粒表層之擴散係數為0.6-1.3x10-9 m2s-1；而酚好氧顆粒則為2.5-4.6x10-10m2s-1。由實驗結果顯示，反應及擴散圴為好氧顆粒內部氧氣傳輸的限制因素。	zh_TW
dc.description.abstract	The dissolved oxygen (DO) concentration in aerobic granules were measured using microelectrodes, based on which the diffusivity of oxygen was thereby estimated. Considering granules of low bioactivity, the acetate-fed granules of size 1.28-2.50 mm exhibited diffusivity of 1.24-2.28 x10-9 m2 s-1; while phenol-fed granules of size 0.42-0.78 mm had diffusivities of 2.50-7.65 x10-10 m2 s-1. Based on confocal laser scanning microscope testing the interior of granules exhibited layered structure. The steady-state DO concentrations of phenol-fed granule were recorded, showing that oxygen had been depleted in the surface reacting layer of granule. The oxygen diffusivity inside this reacting layer was estimated 1.34-1.82x10-9 m2 s-1 by assuming an mean oxygen concentration. Considering both steady-state and transient DO responses, the acetate-fed granule had diffusivity of oxygen of 0.6-1.3x10-9 m2s-1, while the phenol-fed granules had diffusivity of 2.5-4.6x10-10m2s-1. Both reaction and diffusion limits the oxygen transport in aerobic granules.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T04:22:14Z (GMT). No. of bitstreams: 1 ntu-95-R93524081-1.pdf: 1475886 bytes, checksum: c525c91cf24031af682f244161d4738b (MD5) Previous issue date: 2006	en
dc.description.tableofcontents	目錄頁次中文摘要 ……………………………………………………………………Ⅰ 英文摘要 ……………………………………………………………………Ⅱ 目錄 ……………………………………………………………………Ⅲ 表目錄 ……………………………………………………………………Ⅴ 圖目錄 ……………………………………………………………………Ⅵ 第一章文獻回顧 1-1 好氧生物顆粒 ……………………………………………1 1-1-1 好氧生物顆粒的機制及形成…………………1 1-1-2 影響好氧生物微之變因………………………4 1-1-3 生物顆粒結構組成……………………………6 1-2 好氧生物顆粒特及應用…………………………………6 1-3 染色法於ECP上的應用……………………………………7 1-4 微電極的應用……………………………………………8 第二章實驗方法 2-1 實驗樣品…………………………………………………12 2-2 實驗儀器…………………………………………………14 2-3 實驗方法…………………………………………………16 2-3-1 微電極樣品測試………………………………………16 2-3-2 樣品螢光染色…………………………………………17 第三章結果與討論 3-1 無反應之好氧顆粒及汙泥膠羽氧氣擴散………………19 3-1-1 外界水流流速的選擇…………………………………19 3-1-2 好氧顆粒DO反應………………………………………20 3-1-3 氧氣擴散係數…………………………………………25 3-1-4 好氧顆粒大小與擴散係之關係………………………26 3-2 穏態反應系統之好氧顆粒氧氣擴散……………………42 3-2-1 穏態生物顆粒DO反應…………………………………42 3-2-2 擴散係數與反應常數…………………………………46 3-3 非穏態反應系統之好氧顆粒氧氣擴散…………………46 3-4 非穏態分析比較…………………………………………53 第四章結論…………………………………………………54 參考文獻………………………………………………………55
dc.language.iso	en
dc.subject	生物顆粒	zh_TW
dc.subject	granule	en
dc.title	好氧生物顆粒之氧氣擴散係數	zh_TW
dc.title	Diffusivity of oxygen in aerobic granules	en
dc.type	Thesis
dc.date.schoolyear	94-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	徐治平,曾秀瑱,朱曉萍
dc.subject.keyword	生物顆粒,	zh_TW
dc.subject.keyword	granule,	en
dc.relation.page	57
dc.rights.note	有償授權
dc.date.accepted	2006-07-23
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	化學工程學研究所	zh_TW
顯示於系所單位：	化學工程學系

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