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研究生: 游生任
ShengJen Yu
論文名稱: 以介電質放電技術轉化四氟甲烷及六氟乙烷之初步探討
指導教授: 張木彬
Moo-Been Chang
口試委員:
學位類別: 碩士
Master
系所名稱: 工學院 - 環境工程研究所
Graduate Institute of Environmental Engineering
畢業學年度: 88
語文別: 中文
論文頁數: 128
中文關鍵詞: 介電質電漿全氟化物觸媒四氟甲烷六氟乙烷
外文關鍵詞: DBD, plasma, PFC, CF4, C2F6, catalyst
相關次數: 點閱:15下載:0
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    • 第一章 前言………………………………………………………………………….1 1-1 研究緣起…………………………………………………………………………1 1-2 研究內容…………………………………………………………………………2 第二章 文獻回顧……………………………………………………………………4 2-1 氟氯碳化物之特性………………………………………………………………4 2-1-1 氟氯碳化物及全氟化物之簡介………………………………………….….4 2-1-2氟氯碳化物及全氟化物對於環境之影響………………………….….…….5 2-1-3氟氯碳化物及全氟化物之排放…………………………………………..….6 2-1-4 四氟甲烷及六氟乙烷之基本特性……………………………………….….8 2-2 電漿反應……………………………………………………………….………9 2-2-1 電漿基本理論及特性…………………………………………………….…10 2-2-2 電漿生成方式………………………………………………………………12 2-2-3 介電質放電技術之頻率效應………………………………………………16 2-3 CFCs、PFCs之管制及PFCs之現行處理技術………………………………..21 2-3-1 CFCs、PFCs之管制源由…………………………………………………...21 2-3-2 PFCs之現行處理技術………………………………………………………23 2-4 四氟甲烷及六氟乙烷在介電質放電程序中之轉化反應……………………28 2-4-1 四氟甲烷之反應機制………………………………………………………28 2-4-2 六氟乙烷之反應機制………………………………………………………32 2-4-3 觸媒反應機制………………………………………………………………36 第三章 實驗設備及方法………………………………………………………….40 3-1 實驗設備……………………………………………………………………….40 3-1-1 氣體供應系統………………………………………………………………40 3-1-2 操作參數控制系統…………………………………………………………42 3-1-3 介電質放電系統……………………………………………………………43 3-1-4 反應物及終產物之分析系統………………………………………………46 3-2 實驗方法……………………………………………………………………….47 3-2-1 研究規劃……………………………………………………………………47 3-2-2 操作參數之擇取……………………………………………………………50 3-2-3 轉化效率之表示式…………………………………………………………52 3-3 統計分析………………………………………………………………………54 第四章 結果與討論……………………………………………………………….57 4-1 影響四氟甲烷轉化率因子之探討……………………………………………57 4-1-1 四氟甲烷進流濃度對轉化率之影響………………………………………57 4-1-2 氧氣含量對四氟甲烷轉化率之影響………………………………………60 4-1-3 供電頻率對四氟甲烷轉化率之影響………………………………………61 4-1-4 結合觸媒反應對四氟甲烷轉化率之影響…………………………………63 4-1-5 氣體流量(停留時間)對四氟甲烷轉化率之影響………………………….66 4-1-6 四氟甲烷轉化反應之產物分析……………………………………………68 4-1-7 四氟甲烷之再現性分析……………………………………………………77 4-1-8 四氟甲烷經轉化後對環境影響之評估……………………………………83 4-2 影響六氟乙烷轉化率因子之探討…………………………...………………85 4-2-1 六氟乙烷進流濃度對轉化率之影響………………………………………85 4-2-2 氧氣含量對六氟乙烷轉化率之影響………………………………………87 4-2-3 供電頻率對六氟乙烷轉化率之影響…………………....…………………89 4-2-4 結合觸媒反應對六氟乙烷轉化率之影響…………………………………91 4-2-5 氣體流量(停留時間)對六氟乙烷轉化率之影響………………………….94 4-2-6 六氟乙烷轉化反應之產物分析……………………………………………96 4-2-7 六氟乙烷之再現性分析…………………………………………………..104 4-2-8 六氟乙烷經轉化後對環境影響之評估…………………………………..109 4-3 系統耗能探討……………………………………………………………....111 4-3-1 氧氣含量對系統耗能之影響……………………………………………..111 4-3-2 供電頻率對系統耗能之影響……………………………………………..112 4-3-3 結合觸媒反應對系統耗能之影響………………………………………..113 4-3-4 反應器與系統耗能之比較………………………………………………..115 4-3-5 能量效率評估……………………………………………………………..116 第五章 結論與建議……………………………………………………………119 5-1結論……………………………………………………………………………..119 5-2建議……………………………………………………………………………..121 參考文獻…………………………………..……………………………………123

    Arno, J. and Sweeney, J. D., Facing the Challenges of Reducing PFC Emissions in Plasma Chamber Cleans, Green and Clean, pp.87-97(1998)
    Beitler, C. and Berry, C., Global Warming Studies: Global Warming Impact Model, International SEMATECH Technology Transfer #95022713A-TR(1995)
    Beu, L. and Brown, P. T., An Analysis of International and U.S. PFC Emissions Esimating Methods, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Beu, L. and Brown, P. T., An Analysis of International and U.S. PFC Emissions Esimating Methods, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Chapman, B., Glow Discharge Processes, A Wiley-Interscience Publication, Canada, pp. 297-342(1980)
    Chen, D. T., David, M. M., Tiers, G. V. D. and Schroepfer, J. N., A Carbon Arc Process for Treatment of CF4 Emissions, Environ. Sci. Technol., Vol. 32, pp.3237-3240(1998)
    Chen, D. T., David, M. M., Tiers, G. V. D. and Schroepfer, J. N., A Carbon Arc Process for Treatment of CF4 Emissions, Environ. Sci. Technol., Vol. 32, pp.3237-3240(1998)
    Gilliland, T., Results from Texas Instruments'' Evaluation of Praxair''s PFC Recycling Unit, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Gilliland, T., Results from Texas Instruments'' Evaluation of Praxair''s PFC Recycling Unit, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Hashimoto, T., Kishida, Y., Shirai, Y. and Ohmi, T., Process Gas Recycling System, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Hitachi, S. T. and Hitachi, S. K., Catalytic Decomposition of PFC, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Hitachi, S. T. and Hitachi, S. K., Catalytic Decomposition of PFC, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Ibuka, S., Japan''s Use of ClF3, A Partnership for PFC Emissions Reductions, Technical Programs Present, Texas(1998)
    Ito, T., Noumura, T. and Ehara, Y., Frequency Acceleration of NOx Reduction Rate on Superimposing Discharge Mode, Musashi Institute of Technology, 1-28-1(1999)
    Ito, T., Noumura, T. and Ehara, Y., Frequency Acceleration of NOx Reduction Rate on Superimposing Discharge Mode, Musashi Institute of Technology, 1-28-1(1999)
    Ito, T., Noumura, T. and Ehara, Y., Frequency Acceleration of NOx Reduction Rate on Superimposing Discharge Mode, Musashi Institute of Technology, 1-28-1(1999)
    Ito, T., Noumura, T. and Ehara, Y., Frequency Acceleration of NOx Reduction Rate on Superimposing Discharge Mode, Musashi Institute of Technology, 1-28-1(1999)
    Ito, T., Noumura, T. and Ehara, Y., Frequency Acceleration of NOx Reduction Rate on Superimposing Discharge Mode, Musashi Institute of Technology, 1-28-1(1999)
    Mills, C., Haber, J., Ford, J., Renzi, A., Fumoso, L., Dunn, V. and Schultz, J., University Physics, Harris Benson, pp.668 - 671(1991)
    Mitsuharu, K., Film Deposition by Plasma Techniques, ISBN 3-540-54057 Springer-Verlag Berlin Heidelberg New York, pp.11-48(1992)
    Mocella, M. T., PFC Recovery: Technologies, and Considerations for Post-Recovery Processing, Global Semiconductor Industry Conference on PFC emission Control, April, CA(1998)
    Mocella, M. T., Environmental Issues in Plasma Processing: A Review of Technologies for PFC Emission Control, SEMICON Europe ( 1997)
    Mocella, M. T., Environmental Issues in Plasma Processing: A Review of Technologies for PFC Emission Control, SEMICON Europe ( 1997)
    Otakar, S., Industrial Separators for Gas Cleaning, A Wiley-Interscience Publication, pp.360-379(1979)
    Otakar, S., Industrial Separators for Gas Cleaning, A Wiley-Interscience Publication, pp.360-379(1979)
    Rand, S. D., PFC Emission Reduction Partnership Update, A Partnership for PFC Emissions Reductions,Technical Programs Present, Texas(1998)
    Raizer, Y. P., Allen, J. E. and Kisin, V. I., Gas Discharge Physics, ISBN 3-540-19462-2 Springer-Verlag Berlin Heidelberg New York, pp.8-33(1991)
    Raul, S. and Kushner, M. J., Argon Metastable Densities in Radio Frequency Ar, Ar/O2 and Ar/CF4 Electrical Discharge, J. Appl. Phys., Vol.82(6), pp. 2805-2812(1997)
    Raul, S. and Kushner, M. J., Argon Metastable Densities in Radio Frequency Ar, Ar/O2 and Ar/CF4 Electrical Discharge, J. Appl. Phys., Vol.82(6), pp. 2805-2812(1997)
    Scanlan-Rohrer, A., Butterer, K., Cochran, R., et al., Organic Chemistry, 3th Ed, The Benjamin/Cummings Publishing Company, Inc., America, pp.10, 394-405(1995)
    Sharpe, A. G., Inorganic Chemistry, Longman Scientific & Technical, pp.400-429(1992)
    Sharpe, A. G., Inorganic Chemistry, Longman Scientific & Technical, pp.400-429(1992)
    Sharpe, A. G., Inorganic Chemistry, Longman Scientific & Technical, pp.400-429(1992)
    US EPA;Global Semiconductor Industry Conference on Perfluorocompound Emission Control, Proceeding, Monterey, CA, USA(1998)
    US EPA;Global Semiconductor Industry Conference on Perfluorocompound Emission Control, Proceeding, Monterey, CA, USA(1998)
    Wiley, B., Nicholls, L., Austin, E., Fumoso, L., Herbert D. and Monokoff, I., Catalytic Chemistry, Willey Series in Chemical Engineering, pp.373-376(1992)
    Wiley, B., Nicholls, L., Austin, E., Fumoso, L., Herbert D. and Monokoff, I., Catalytic Chemistry, Willey Series in Chemical Engineering, pp.373-376(1992)
    Xu, X., Dynamics of High- and Low-Pressure Plasma Remediation, Ph.D. Thesis, University of Illinois, Department of Electrical Engineering (1999)
    Yamamoto, T., Chang, J. S., Kostov, K., Okayasu, Y., Kato, T., Iwaizumi, T. and Yoshimura, K., NF3 Treatment by Ferrolelectric Packed Plasma Reactor(1999)
    Zyn, V. I., Kinetic Identification of a Mechanism of Complex Plasma Chemical Reactions, Plasma Chemistry and Plasma Processing, Vol.18, No. 3, pp.395-408(1998)
    Internet: Chemistry WebBook, http://webbook.nist.gov/cgi/cbook.exe, 1998/9/4
    Internet: 行政院環保署, http://www.epa.gov.tw/J/toxic/jtoxic.htm,1999/9/22
    Internet: TSIA(台灣半導體產業協會網址), http://www.tsia.com.tw, 1999/10/24
    陸志鴻, 金屬物理學, 正中書局, pp.10-21(1968)
    王奕凱及陳陵援, 工業觸媒研討會資料, 中國石油股份有限公司及中國化學工程學會編印, pp.75-76, 202-207(1978)
    徐武軍, 工業觸媒講義, 中國石油公司研究及訓練中心編印, pp.1-13(1978)
    大學化學編輯委員會, 普通化學, 新學識文教出版中心, pp.10-6(1979)
    郁仁貽, 新編化學(下), 徐氏基金會, pp.26-56(1985)
    赤崎正則, 村岡克紀,渡邊征夫, 狫原建治, 電漿工學的基礎, 復文書局, pp.9-44(1990)
    阿部東彥, 加田正之, 入三欲, 電漿化學, 復文書局, pp.15(1991)
    顏月珠, 現代統計學, 三民書局, pp.315-363(1995)
    黃俊博, 電漿技術用於轉化二氧化碳及甲烷之初步研究, 碩士論文, 中央大學環境工程研究所 (1997)
    楊士朝, 以低溫電漿去除氮氧化物之可行性研究, 碩士論文, 中央大學環境工程研究所 (1998)
    楊登任, 以觸媒輔助介電質放電技術添加氫氣轉化二氧化碳之初步研究, 碩士論文, 中央大學環境工程研究所 (1999)
    王雅玢, 二氯二氟甲烷及三氟甲烷於高週波電漿系統中之反應機制, 博士論文, 成功大學環境工程系(1999)

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