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研究生: 石茜茹
Chien Ju, Shih
論文名稱: 利用膠滲透層析儀配合氣相層析質譜儀分析柏油及食用油品中二十四種多苯環芳香烴化合物之研究
Determination of 24 PAHs in Bitumen and Cooking Oil by GPC and GC-MS
指導教授: 吳家誠
Wu, Jia-Cheng
學位類別: 碩士
Master
系所名稱: 化學系
Department of Chemistry
論文出版年: 2001
畢業學年度: 89
語文別: 中文
論文頁數: 113
中文關鍵詞: 柏油瀝青多苯環芳香烴食用油膠滲透層析儀氣相層析質譜儀
英文關鍵詞: bitumen, asphalt, PAH, cooking oil, GPC, GC-MS
論文種類: 學術論文
相關次數: 點閱:210下載:0
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  • 多苯環芳香烴(Polycyclic aromatic hydrocarbons, PAH)污染物在近幾十年來被廣泛的研究與注意。世界各國用來鋪路的瀝青材料也被證明其中含有具致癌性及具致突變性的PAH。這使得瀝青材料中PAH的研究顯得更為重要。
    本研究利用膠滲透層析儀(GPC),以二氯甲烷為動相,分離瀝青材料中大分子量的物質,收集適當分子量範圍的待測物,再以高純度氮氣濃縮,接續以氣相層析質譜儀(GC-MS)進行多苯環芳香烴的微量分析。並利用方法檢量線,對含有柏油複雜基質的樣品進行多苯環芳香烴的定性、定量分析。由實驗結果顯示除了揮發性較高的naphthalene回收率較差之外,其餘的化合物回收率良好,在72.3%至108.9%之間。方法偵測極限則在0.441 µg/g至1.346 µg/g之間,證明所建立方法有一定之實用價值。
    另外為了驗證本方法也適用於其他油品中PAH的分析,因此選定四種食用油、經過高溫油炸的食品用油以及抽油煙機所收集的廢油加以分析。由結果可以看出,GPC的淨化效果良好,添加在油品中多數的PAH也得到了可接受的回收率。

    Bitumen is widely used for road pavement and roofing. However, bitumen and its fume may contain polycyclic aromatic hydrocarbons (PAHs) and their derivatives. Some of them are known to be carcinogenic or co-carcinogenic in animals. Our study is to develop and establish an effective method for detecting and quantifying 24 major PAHs (16 PAHs and 8 methyl-substituted PAHs) in bitumen.
    Due to strong matrix effects, the pretreatment steps are crucial for the success of analytical processes. We used GPC (Gel Permeation Chromatography ) to clean up the bitumen samples and determined the content of PAH in the treated samples by GC-MS under ion selective mode after a pre-concentration step. The average recoveries, except for naphthalene, are in the range of 72.3 % to 108.9 % . The method detection limits are from 0.441 µg/g to 1.346 µg/g.
    According to our experimental results, a method of analyzing PAHs in bitumen was developed with satisfactory recoveries. This method also shares the potential to be used for other types of environmental samples. It was used to analyze several types of cooking oil that contain PAH. Results also show satisfactory recoveries.

    第一章 緒論…………………………………………………………1 一 、研究動機與內容………………………………………………..1 (一) 研究動機 ...………………………...……………………………1 (二) 實驗內容….……………………………………...………..2 二 、多苯環芳香烴之簡介…………………………………………..2 (一) 關於多苯環芳香烴化合物……………...…………………2 (二) 多苯環芳香烴的物性與化性……………………………..5 (三) 多苯環芳香烴的形成與製造……………………………..5 (四) 多苯環芳香烴在環境中所存在的量……………………..8 (五) 多苯環芳香烴的毒性與其在人體中的代謝……………..9 三 、柏油的污染……………………………………………………10 (一) 瀝青材料的應用範圍…………...……………………….10 (二) 瀝青材料的成分及物性………………………………....11 (三) 柏油對人體的傷害……………………………………....12 (四) 柏油中多苯環芳香烴的偵測方法……………………....15 四 、食用油中多苯環芳香烴…………...………………………….16 五 、膠滲透層析儀原理與應用……………………………………16 六 、GC-MS之原理與應用…………………………………………17 (一) 氣相層析儀…………....…………...…………………….17 (二) 介面體-分離儀……..…….……………………………....18 (三) 離子化室………..……………………………………....18 (四) 質量分析器……………………………………………..18 (五) 離子偵測………………………………………………..18 (六) 資料處理………………………………………………..19 (七) 在環境分析上的應用…………………………………..19 第二章 研究設備…………………………………………………..20 第三章 實驗部分…………………………………………………..26 一 、標準混合儲備溶液的配製……………………………………26 (一) 十六種多苯環芳香烴化合物混合儲備溶液(溶液A) …26 (二) 八種有甲基取代的多苯環芳香烴化合物混合儲備溶液(溶液B) …..…………………………………………….26 (三) 內標準品儲備溶液(溶液C) ...……………..…………...26 (四) 檢量標準溶液…………………………………………...28 二 、柏油溶液的配製………………………………………………28 柏油的儲備溶液(溶液D)…….…………………………….....28 三 、柏油添加多苯環芳香烴溶液的配製………………………….28 四 、食用油添加PAH標準品溶液的配製…………………………28 五 、分析條件的建立………………………………………………30 (一) 待測物在GC-MS中的分析條件…………………..…..30 (二) 標準溶液滯留時間及其再現性與檢量線之建立……...32 (三) 方法偵測極限的測定方式……………………………...33 (四) GPC的分析條件建立…………………………..……….34 (五) 柏油溶液中PAH濃度的測定………………………….34 第四章 結果與討論……………………………………………….38 一 、GPC的分析條件………………………………………….….38 二 、氣相層析質譜儀的操作條件………………………………...40 三 、由標準溶液建立之檢量線……………………………………71 四 、方法偵測極限的測定…………………………………………71 五 、真實柏油之測定………………………………………………71 六 、柏油溶液添加PAH之測定…………………………………..82 七 、食用油中PAH的測定 ………………………………………..82 第五章 結論………………………………………………………105 第六章 參考文獻…………………………………………………107

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    1. 中國石油股份有限公司道路柏油規範
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