在旋轉填充床中氣提蔗糖水溶液中溶氧之研究

Shou-Chih Chen; 陳守之

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/57081

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	劉懷勝(Hwai-Shen Liu)
dc.contributor.author	Shou-Chih Chen	en
dc.contributor.author	陳守之	zh_TW
dc.date.accessioned	2021-06-16T06:34:29Z	-
dc.date.available	2019-08-08
dc.date.copyright	2014-08-08
dc.date.issued	2014
dc.date.submitted	2014-08-04
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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/57081	-
dc.description.abstract	程序強化(process intensification)或許會成為新的化學工業範例，而旋轉填充床為程序強化的重要項目之一，其是透過旋轉產生離心力取代地球重力場強化氣液間分離、混合與反應的程序，達到提昇質傳與提高效率達千倍、百倍的效果，使設備體積得以大幅度縮小，可以廣泛運用在化工分離、能源、環保等領域，減省設備成本及能源耗損。在食品工業中，飲料用水溶液對於溶氧一樣有著嚴格的要求，低溶氧量可以減少水溶液中細菌的繁殖與幫助二氧化碳溶解等效益，故本實驗利用旋轉填充床能明顯提昇質傳效果的特性，使用氮氣氣提移除蔗糖水中的溶氧，實驗變數包含轉速、液體流量與液體濃度、氣體流量，同時亦分析液膜體積質傳係數。	zh_TW
dc.description.abstract	As a novel chemical process equipment, rotating packed bed (RPB) can greatly intensify mass transfer. RPB enhances mass transfer by high centrifugal field instead of gravity, which has been substantially applied in chemical separation, energy and environmental protection. Compared with the traditional mass transfer equipment, it has many remarkable advantages especially the high efficiency. This research mainly investigated the stripping of oxygen in sucrose solution in a RPB. Various factors affect dissolved oxygen (DO) and overall volumetric mass transfer coefficient(KLa) were investigated, such as rotating speed, gas flow rate, liquid flow rate and sucrose concentration.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T06:34:29Z (GMT). No. of bitstreams: 1 ntu-103-R01524034-1.pdf: 28646358 bytes, checksum: 67fac6e85fe303ff9a33e8a9a9277702 (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	摘要 I Abstract II 目錄 III 圖目錄 VI 表目錄 X 第一章緒論 1 第二章文獻回顧 2 2-1 脫氧技術簡介 2 2-1.1 氣提溶氧 2 2-1.2 真空氣提溶氧 3 2-1.3 化學法脫氧 4 2-1.4 膜過濾脫氧 4 2-1.5 飲料裝填與脫氧技術 5 2-2 旋轉填充床 7 2-2.1 旋轉填充床的構造與床體設計 9 2-2.2 旋轉填充床的壓降 19 2-2.3 旋轉填充床之液體流態、液體滯留量、液體滯留時間 24 2-2.4 旋轉填充床之液膜質傳係數與氣膜質傳係數 29 2-2.5 旋轉填充床之微觀混合 34 2-2.6 旋轉填充床的應用與發展 37 第三章實驗設備與分析方法 46 3-1 實驗裝置 46 3-2 實驗藥品、儀器與實驗流程 48 3-2.1 實驗藥品 48 3-2.2 實驗儀器 48 3-2.3 實驗流程 49 3-3 氣提效率E (stripping efficiency)分析 51 3-4 液膜質傳係數分析 51 3-4.1 雙膜理論 (two-film theory) 51 3-4.2 旋轉填充床氣提之液膜質傳係數求法 55 3-5 物性資料 59 3-5.1 液體表面張力 (liquid surface tension) 59 3-5.2 氧氣在蔗糖水溶液中的物理性質 61 第四章實驗結果與討論 63 4-1 氣提效率E (stripping efficiency) 63 4-1.1 氣體流量對於氣提效率的影響 63 4-1.2 轉速對於氣提效率的影響 68 4-1.3 液體濃度與流量對於氣提效率的影響 69 4-2 液膜質傳係數 75 4-2.1 氣體流量對於液膜質傳係數的影響 75 4-2.2 轉速對於液膜質傳係數的影響 82 4-2.3 液體濃度與流量對於液膜質傳係數的影響 83 4-3 液膜體積質傳係數回歸式 88 4-3.1 質傳係數之經驗式分析 88 4-3.2 蔗糖水溶液與甘油水溶液氣提溶氧 92 4-3.3 填充物氣提溶氧 96 第五章結論 100 參考文獻 102 符號表 116 附錄A：氮氣氣提蔗糖水溶液中溶氧液膜質傳係數實驗數據表 121 附錄B：Matlab 程式求KLa的回歸經驗式 131 附錄C：在旋轉填充床中不同蔗糖水溶液氣提效率的比較 137
dc.language.iso	zh-TW
dc.subject	蔗糖水溶液	zh_TW
dc.subject	氣提	zh_TW
dc.subject	液膜體積質傳係數	zh_TW
dc.subject	旋轉填充床	zh_TW
dc.subject	水溶液去氧	zh_TW
dc.subject	sucrose solution	en
dc.subject	rotating packed bed	en
dc.subject	liquid-side mass transfer coefficient	en
dc.subject	stripping efficient	en
dc.subject	deoxygenated solution	en
dc.title	在旋轉填充床中氣提蔗糖水溶液中溶氧之研究	zh_TW
dc.title	Stripping oxygen from sucrose solution by a rotating packed bed	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林佳璋(Chia-Chang Lin),陳昱劭(Yu-Shao Chen),江佳穎(Chia-Ying Chiang)
dc.subject.keyword	旋轉填充床,液膜體積質傳係數,氣提,蔗糖水溶液,水溶液去氧,	zh_TW
dc.subject.keyword	rotating packed bed,liquid-side mass transfer coefficient,stripping efficient,deoxygenated solution,sucrose solution,	en
dc.relation.page	139
dc.rights.note	有償授權
dc.date.accepted	2014-08-04
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	化學工程學研究所	zh_TW
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