Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop
Terephthalic acid (TPA) is a primary chemical intermediate used to manufacture polyester. Around 70% of the terephthalate feedstocks used worldwide are produced by using the commercial Amoco process. The importance of this process is evident from the fact that almost 100% of new TPA commercial plant...
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my-uitm-ir.270902020-01-14T04:06:00Z Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop 2019 Yeop, Mohamad Zarqani Acids Terephthalic acid (TPA) is a primary chemical intermediate used to manufacture polyester. Around 70% of the terephthalate feedstocks used worldwide are produced by using the commercial Amoco process. The importance of this process is evident from the fact that almost 100% of new TPA commercial plants have adopted this method. However, this process has led to health and environment concern due to the use of bromine promoter and acetic acid solvent. So far, several process improvements for TPA production have been proposed by previous researchers and hydrothermal process is known as one of the most promising route. In the hydrothermal method, high temperature water was employed in replacement of acetic acid organic solvent as reaction medium. The advantages of hydrothermal method include environmental friendly, cheap, naturally abundant and easy to handle. Hence, the aim of the experiment is to investigate the influence of the process parameters on the TPA yields at specified conditions. In this work, TPA was synthesized under subcritical conditions (250°C, 300°C and 350°C) and supercritical condition (400°C) using batch micro-bomb reactor by varying parameters such as water loading, hydrogen peroxide (H2O2) and manganese bromide (MnBr2) catalyst loading while reaction time was set at 60 minutes. The TPA yield was quantitatively analysed using high performance liquid chromatography (HPLC), meanwhile the presence of main functionality groups in the TPA product was analysed using fourier transform infrared spectroscopy (FTIR). The overall composition of the product obtained was identified and confirmed using gas chromatography-mass spectrometer (GC-MS). The optimum TPA yield of 94.56 % was achieved at 350°C with combination parameters of 2.5 mL water, 1.5 mL hydrogen peroxide and 2.0 mL manganese bromide respectively. The result shows that hydrothermal method provides an alternative route for p-xylene oxidation to produce TPA at comparable yield with conventional route using suitable combination of /7-xylene, hydrogen peroxide, manganese bromide and water loadings. In addition to the batch system result, a continuous micro-bomb reactor system was also successfully designed, developed and commissioned for future works. The process of designing the new hydrothermal system was based on the parameters obtained from the batch micro-bomb reactor in this work. The pressure vessel as a main unit of the continuous system was locally fabricated and adapted from ASME BPV (2007) design code. The development of this system is essential to study in details other aspects of TPA synthesis that was not possible using the batch system. 2019 Thesis https://ir.uitm.edu.my/id/eprint/27090/ https://ir.uitm.edu.my/id/eprint/27090/1/TM_MOHAMAD%20ZARQANI%20YEOP%20EH%2019_5.pdf text en public masters Universiti Teknologi MARA Faculty of Chemical Engineering |
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Acids Yeop, Mohamad Zarqani Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop |
| description |
Terephthalic acid (TPA) is a primary chemical intermediate used to manufacture polyester. Around 70% of the terephthalate feedstocks used worldwide are produced by using the commercial Amoco process. The importance of this process is evident from the fact that almost 100% of new TPA commercial plants have adopted this method. However, this process has led to health and environment concern due to the use of bromine promoter and acetic acid solvent. So far, several process improvements for TPA production have been proposed by previous researchers and hydrothermal process is known as one of the most promising route. In the hydrothermal method, high temperature water was employed in replacement of acetic acid organic solvent as reaction medium. The advantages of hydrothermal method include environmental friendly, cheap, naturally abundant and easy to handle. Hence, the aim of the experiment is to investigate the influence of the process parameters on the TPA yields at specified conditions. In this work, TPA was synthesized under subcritical conditions (250°C, 300°C and 350°C) and supercritical condition (400°C) using batch micro-bomb reactor by varying parameters such as water loading, hydrogen peroxide (H2O2) and manganese bromide (MnBr2) catalyst loading while reaction time was set at 60 minutes. The TPA yield was quantitatively analysed using high performance liquid chromatography (HPLC), meanwhile the presence of main functionality groups in the TPA product was analysed using fourier transform infrared spectroscopy (FTIR). The overall composition of the product obtained was identified and confirmed using gas chromatography-mass spectrometer (GC-MS). The optimum TPA yield of 94.56 % was achieved at 350°C with combination parameters of 2.5 mL water, 1.5 mL hydrogen peroxide and 2.0 mL manganese bromide respectively. The result shows that hydrothermal method provides an alternative route for p-xylene oxidation to produce TPA at comparable yield with conventional route using suitable combination of /7-xylene, hydrogen peroxide, manganese bromide and water loadings. In addition to the batch system result, a continuous micro-bomb reactor system was also successfully designed, developed and commissioned for future works. The process of designing the new hydrothermal system was based on the parameters obtained from the batch micro-bomb reactor in this work. The pressure vessel as a main unit of the continuous system was locally fabricated and adapted from ASME BPV (2007) design code. The development of this system is essential to study in details other aspects of TPA synthesis that was not possible using the batch system. |
| format |
Thesis |
| qualification_level |
Master's degree |
| author |
Yeop, Mohamad Zarqani |
| author_facet |
Yeop, Mohamad Zarqani |
| author_sort |
Yeop, Mohamad Zarqani |
| title |
Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop |
| title_short |
Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop |
| title_full |
Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop |
| title_fullStr |
Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop |
| title_full_unstemmed |
Parametric influence on terephthalic acid synthesis through hydrothermal approach / Mohamad Zarqani Yeop |
| title_sort |
parametric influence on terephthalic acid synthesis through hydrothermal approach / mohamad zarqani yeop |
| granting_institution |
Universiti Teknologi MARA |
| granting_department |
Faculty of Chemical Engineering |
| publishDate |
2019 |
| url |
https://ir.uitm.edu.my/id/eprint/27090/1/TM_MOHAMAD%20ZARQANI%20YEOP%20EH%2019_5.pdf |
| _version_ |
1783733924798660608 |