NSC95-EPA-Z-007-001

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摘要本研究目的在於突破傳統光觸媒製備與應用的限制 , 以結合多孔基材與添加閃爍體的方式 , 開發創新的 TiO 2 光觸媒材料 , 使用 UV-VIS、ICP、SEM/EDX、BET、XRD 等儀器建立光觸媒材料物化特性與性能鑑定技術 , 希望能根據所得之結果推估了解製備應用相關材料之最佳參數條件。並將新型光觸媒材料應用於 CO 2 的還原反應 , 以尿素為目標產物 , 使用 HPLC 或比色法等分析方法來進行產物之定性定量 , 並探討含氮反應物的種類與濃度、溶劑的種類、犧牲劑的種類、光觸媒的製備條件、溫度、pH 值等反應條件 , 對 CO 2 還原效能與生成尿素之量子效率 (quantum efficiency) 的影響程度。由影響因素對 CO 2 反應生成尿素的消長趨勢 , 推測出可能的反應途徑與機制 ; 並根據熱力與動力學的討論 , 求取其反應速率常數、速率方程式、及相關的熱力動力參數 , 以提高系統對 CO 2 的處理效能與尿素生成的選擇性 , 建立本系統的最適實驗條件。本研究可有效的將 CO 2 轉換成有用的化學有機物質 , 因此可搭配其他的濃縮分離技術 , 並評估其處理效果。此外 , 並將考慮產業廢氣的組成 , 以評估本研究的實務應用性。關鍵詞 : 光觸媒、二氧化鈦、二氧化碳、尿素、輻射能 The purpose of this study is to develop a novel composite material to study the feasibility of photo-catalytically converting carbon dioxide (CO 2 ) by ultra-violet or higher energy radiation. This composite material is made up of nano-sized TiO 2 and BaF 2 particles deposited on various porous substrates. The synthesis of this composite will be performed using TiCl 4 hydrolysis, ethylene diamine tetraacetic acid chelating agent and calcinations at 450℃ Analytical techniques, such as UV-VIS, ICP, SEM/EDX, BET and XRD, were used to investigate the characteristics of prepared composites. An experiment of reducing to urea using UV light or 60 Co source will be performed to validate the photo-catalytic capability of the prepared composite material. The reduction behavior of CO 2 will be thoroughly examined by determining the intermediate as well as final products during the process using HPLC or Colorimetric determination. Both thermodynamic and kinetic data will be obtained by varying the experimental parameters such as nitrogen-containing reactant, solvent, sacrifice reagent, temperature as well pH value. The reasonable reaction paths and mechanism will thus be proposed. This is a part of one-year integration project. It is expected that CO 2 can be effectively converted to useful carbonated substance if combining with sophisticated adsorption, absorption or concentration techniques. Keywords: photocatalyst、titanium dioxide、carbon dioxide、urea、radiation energy I
目錄摘要 .............................................................................................................................................I 目錄 ........................................................................................................................................... II 表目錄 ......................................................................................................................................IV 圖目錄 ....................................................................................................................................... V 一、前言 .................................................................................................................................... 1 二、研究目的 ............................................................................................................................ 3 三、文獻探討 ............................................................................................................................ 4 3-1 光觸媒反應催化 CO 2 之原理與機制 ........................................................................... 4 3-2 影響反應選擇性與產物分佈之因素 ......................................................................... 6 3-3 光觸媒固定化材料與添加閃爍體之創新設計 ......................................................... 6 四、研究方法 ............................................................................................................................ 8 4-1 進行步驟 ................................................................................................................... 10 4-2 光觸媒固定材料之開發 ........................................................................................... 10 4-3 光觸媒節能材料之開發 ........................................................................................... 11 4-4 光觸媒之物化特性分析 ........................................................................................... 12 4-5 CO 2 還原反應的進行與結果分析 ............................................................................. 12 五、結果與討論 ...................................................................................................................... 14 5-1 複合材料特性分析與性能鑑定 ............................................................................... 14 5-1-1 成份組成元素分析 (ICP-AES): ................................................................. 14 5-1-2 比表面積與孔隙大小分析 (BET):............................................................. 14 5-1-3 表面形態分析及元素分析 (SEM/EDX)....................................................... 15 II
Page 1: 95 年度「環保署 / 國
Page 5 and 6: 表目錄表 1 光觸媒還
Page 7 and 8: 一、前言自工業革命
Page 9 and 10: 二、研究目的本計畫
Page 11 and 12: 氧化反應 h + + H 2 O OH.+ H
Page 13 and 14: 基給攻擊破壞 , 且隨
Page 15 and 16: U 研究目標 • 光觸媒
Page 17 and 18: 260×40 0.1~3.0M acid HCl Chu et al
Page 19 and 20: UV 光源或 60 Co 射源溫
Page 21 and 22: Pt / TiO 2 / Ceramic 27.34 62.56 Ce
Page 23 and 24: 圖 9 金屬改質複合材
Page 25 and 26: 本研究使用 Degussa P-25 Ti
Page 27 and 28: 由上述反應式 , 可將
Page 29 and 30: 六、參考文獻 [1]. Dey G.
Page 31 and 32: 七、計畫成果自評 7-1
Page 38: 附件 2, 參考文獻 [27] 32

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