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| 題名: | 乙醇及硫酸鹽改質鋯、鈰氧化鋁基觸媒以提升 C4F8 之催化活性;Enhancement of Catalytic Activity of Al2O3 for C4F8 Conversion via Modification with Zr, Ce, Ethanol, and Sulfate |
| 作者: | 馬何莫;Machmud, Amir |
| 貢獻者: | 環境工程研究所 |
| 關鍵詞: | 氧化鋁基觸媒;活化能;全氟化合物;alumina-based catalysts;activation energy;C4F8 |
| 日期: | 2021-10-29 |
| 上傳時間: | 2021-12-07 13:41:47 (UTC+8) |
| 出版者: | 國立中央大學 |
| 摘要: | 評估經鈰、鋯、硫酸鹽和乙醇改質的氧化鋁基觸媒在 ? 650oC 溫度下催化水解 C4F8 的效果。通過酸改質提升觸媒的表面積,並進一步研究稀土元素、酸量和表面積之間的相互作用。此後,進行穩定性測試以評估 ASE (乙醇及硫酸鹽改質 Al2O3 觸媒)、ACSE (乙醇及鈰改質Al2O3 觸媒) 和 AZSE (乙醇及鋯改質 Al2O3 觸媒) 對 C4F8 的轉化性能。穩定性測試結果表明,C4F8在650oC反應24h時的轉化性能ACSE>AZSE>ASE,同時,評估水氣和氧含量的耦合效應。總體而言,ACSE 觸媒在 650oC表現出良好的活性,在沒有水氣的情況下, 650oC 時催化熱解的最高轉化率為 9.56%,而在 550oC 和 38% H2O(g) 的條件下,催化水解的最高轉化率為 100%。此外,在 650oC 和 21% 的氧氣條件下,催化氧化的最高轉化率為 95%,而催化水解和氧化的耦合在 450oC 下實現了 91% 的 C4F8 轉化率。ACSE觸媒對C4F8之催化水解、熱解和氧化的活化能分別為67.2、60.1和79.9 kJ/mol。 C4F8 轉化後的主要產物包括 CO2、CO 和 COF2,同時也產生少量 的CHF3、C2F4、C3F6O。本研究證實以鈰、硫酸鹽和乙醇對觸媒進行改質,可有效提高氧化鋁基觸媒轉化C4F8的活性和穩定性。;The effectiveness of alumina-based catalysts modified by cerium, zirconium, sulfate, and ethanol in the catalytic hydrolysis of C4F8 at temperatures ? 650oC is evaluated. Modification of catalysts enhances the acid amount and surface area. The interplay among rare earth elements, acid amount, and surface area is further investigated. Thereafter, a stability test was carried out to evaluate the performance of ASE (sulfate-modified-Al2O3 catalysts), ACSE (cerium-modified-Al2O3 catalysts), and AZSE (zirconium-modified-Al2O3 catalysts) for C4F8 destruction. Ethanol was used to modify catalysts and is designated with the symbol (E). The results of the stability test show that the performances ACSE>AZSE>ASE for C4F8 conversion at 650oC during 24 h reaction. Coupling effects of water and oxygen content have been evaluated. Overall, the ACSE catalyst shows good performance at 650oC. The highest conversion by catalytic pyrolysis was 9.56 % at 650oC in the absence of water vapor. The highest conversion by catalytic hydrolysis was 100% at 550oC with 38% H2O(g). Furthermore, the highest conversion by catalytic oxidation was 95% at 650oC with 21% oxygen. Coupling of catalytic hydrolysis and oxidation achieves 91% C4F8 conversion at 450oC. The activation energies of ACSE catalysts in catalytic hydrolysis, pyrolysis, and oxidation are 67.2, 60.1, and 79.9 kJ/mol, respectively. The major products from C4F8 conversion include CO2, CO, and COF2. Small amounts of CHF3, C2F4, C3F6O were also identified as products. This study has confirmed that modifying alumina-based catalysts with cerium, sulfate, and ethanol improves the activity and stability of alumina-based catalysts for C4F8 conversion. |
| 顯示於類別: | [環境工程研究所 ] 博碩士論文
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