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https://hdl.handle.net/11147/3411
Title: | Investigation of Catalytic Activity and Selectivity of Pd and Ni Loaded Clinoptilolite Rich Natural Zeolite for Citral Hydrogenation | Authors: | Uçar, Şule | Advisors: | Yilmaz, Selahattin | Publisher: | Izmir Institute of Technology Izmir Institute of Technology |
Abstract: | The preparation of active and selective clinoptilolite rich natural zeolite supported palladium and nickel catalysts for the liquid phase hydrogenation of citral was investigated. The catalysts were prepared by impregnation and ion exchange methods. Catalytic activity and selectivity tests were performed in a semi-batch reactor for different calcination temperatures, pressures, stirring rates, reaction temperatures, amount of catalysts, ethanol sources, catalyst metal loadings and catalysts preparation methods. Catalyst deactivation was also investigated. The characterization results showed that clinoptilolite was the major mineral in natural zeolite used as catalyst and catalyst support. It was thermally stable up to 440°C and its stability improved with Pd and Ni loading. Catalysts with loading of 0.72, 2.42, 5.63 % Pd and 3.12 % Ni were prepared by impregnation method. One catalyst was prepared by Pd ion exchange (5.66 %). Surface areas of the catalyst samples changed with calcination temperature, method of metal loading, amount of metal loading. A calcination temperature of 430°C and catalyst metal loading of 2.42 % Pd provided the largest surface area (38.96 m2/g) among the catalysts prepared by impregnation. The catalyst prepared by ion exchange had a much more larger surface area (49.46 m2/g) than those prepared by impregnation. The product distribution changed with catalysts prepared by different methods, catalyst metal loadings, catalyst calcination temperatures and reaction temperatures. The results showed that the Pd catalyst prepared by impregnation favoured the hydrogenation of the conjugated double bond of citral, giving citronellal as the primary hydrogenation products, whereas the amounts of unsaturated alcohols were very minor. High selectivity to citronellal was obtained for the catalyst calcined at 430°C containing 2.42 % Pd. The product distribution and the reaction rates were affected significantly by the reaction temperature (80, 100 and 120°C). The highest selectivity to citronellal (88 %) and the yield of citronellal (87 %) were obtained at 120°C. Higher reaction rates were observed as temperature increased. Increasing the amount of the catalyst in the reaction medium (150, 250 and 400 mg/100mL) affected the reaction rates, selectivity and the yield of citronellal. The highest amount of citronellal yield (91 %) was obtained when the reaction was carried out in the presence of the largest amount of the catalyst (400 mg/100 mL) used in this study. Different product distributions were obtained with various ethanol sources. Higher yields and selectivities were obtained with more pure solvent. Product distribution changed with catalyst metal loading. First increased significantly by changing catalyst loading from 0.72 to 2.42 % Pd and then rised slowly when metal loading changed from 2.42 to 5.63 % Pd. This was attributed to active metal surface area and its dispersion. Impregnated Pd catalysts regained their activities and selectivities upon regeneration. Ni impregnated catalyst showed a different product distribution. It showed a lower activity for a given temperature. Overall selectivities of the best Pd catalyst and Ni catalysts were similar. Pd catalyst prepared by ion exchange gave different products and its selectivity to citronellal was the lowest. This was attributed to the metal and catalyst surface interactions. | Description: | Thesis (Master)--Izmir Institute of Technology, Izmir, 2002. Includes bibliographical references (leaves: 92-96) Text in English; Abstract: Turkish and English xvii, 96 leaves |
URI: | http://hdl.handle.net/11147/3411 |
Appears in Collections: | Master Degree / Yüksek Lisans Tezleri |
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File | Description | Size | Format | |
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T000122.pdf | MasterThesis | 2.46 MB | Adobe PDF | View/Open |
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