Characteristics of flow reversal in the kinetic regime

Jurnal Teknik Kimia Indonesia Pub Date : 2018-10-02 DOI:10.5614/jtki.2006.5.3.4

Y. Budhi

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Abstract

In principle, reactor perturbation by flow reversal can be used for manipulation of catalyst surface coverage if a dedicated and proper operation procedure can be developed. A mathematical model and analysis of reverse flow reactor behaviour for the ammonia oxidation over platinum have been performed. Series of reverse flow experiments were carried out on a laboratory reactor scale. The influence of flow reversals on the conversion and selectivity at various switching times was observed and evaluated. Other process variables such as gas residence time, reaction temperature, and oxygen concentration in the feed were points of interest. Assessment of reactor dynamics in the kinetic regimes can be achieved most expediently by implementing a comparable switching time and gas residence time. Model and experimental results indicate that regular reverse flow operation for manipulation of catalyst surface coverage always induces a decrease of conversion. It was also found that the selectivity due to flow reversal was rather insensitive to changes in the switching frequency.Keywords: Ammonia oxidation, Kinetic regime, Reactor modeling, Residence time distribution, Reverse flow reactor operation, Transient operation AbstrakPada dasarnya pertubasi reaktor oleh aliran balik dapat digunakan untuk mengatasi penutupan permukaan katalis manakala suatu suatu prosedur operasi yang spesifik dan sesuai bisa dibangun. Analisa dan model matematika kelakuan reaktor batik untuk oksidasi amoniak pada pelat platina telah dilakukan. Serangkaian percobaan aliran balik telah dilangsungkan dalam skala laboratorium. Pengaruh aliran batik terhadap konversi dan selektivitas pada berbagaijumlah putaran aliran telah diamati dan dievaluasi. Variabel proses lainnya, seperti waktu tinggal gas, temperature reaksi, dan konsentrasi oksigen pada umpan telah menjadi perhatian pada penelitian ini. Perkiraan dinamika reaktor dalam rejim kinetika umumnya dapat diperoleh melalui penelusuran implementasi jumlah putaran aliran dan waktu tinggal gas dengan perbandingan tertentu. Hasil percobaan dan pemodelan mengindikasikan bahwa operasi aliran batik reguler untuk memanipulasi penutupan permukaan katalis selalu mengakibatkan penurunan konversi. Selain itu, ditemukan juga bahwa selectivitas terhadap pembalikan aliran kurang sensitif terhadap perubahan pada frekuensi putaran aliran.Keywords: Distribusi waktu tinggal, Operasi reaktor aliran batik, Operasi transient, Oksidasi amoniak, Pemodelan reaktor, Rejim kinetika

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动力学区流动逆转的特征

原则上，如果能够制定专门的和适当的操作程序，则通过流动反转引起的反应器扰动可用于操纵催化剂表面覆盖。建立了一个数学模型，并对铂上氨氧化的逆流反应器行为进行了分析。在实验室反应器规模上进行了一系列的逆流实验。观察并评价了在不同的切换时间，回流对转化率和选择性的影响。其他过程变量，如气体停留时间，反应温度和进料中的氧气浓度是感兴趣的点。通过比较开关时间和气体停留时间，可以最方便地评估动力学状态下的反应器动力学。模型和实验结果表明，对催化剂表面覆盖度进行常规的逆流操作总是会导致转化率降低。还发现，由于流动反转的选择性对开关频率的变化相当不敏感。关键词:氨氧化，动力学机制，反应器建模，停留时间分布，逆流反应器运行，瞬态运行分析和模型matmatatika kelakan反应堆蜡染untuk - oksidasi在oniak pada pelatplatina telah dilakukan。Serangkaian percobaan aliran balik telah dilangsungkan dalam skala实验室。彭加鲁·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰·阿卡兰变量过程的温度变化、温度变化、温度变化、温度变化、温度变化、温度变化、温度变化等。Perkiraan dinamika reaktor dalam rejim kinetika umumnya dapat diperoleh melaluis peneluuran implementas jumlah putaran aliran danwaktu tinggal gas dengan perbandingan tentenu。Hasil percobaan dan peemodelan mengindikasikan bahwa operasanaliran蜡染调节器untuk memanipulasi penutupan permukaan katalis selalu mengakibatkan penurunan konversi。Selain itu, ditemukan juga bawa selectivitas terhadap pembalikan aliran kurang sensitidap perubahan pada frekuensi putaran aliran。关键词:分布waktu tinggal, Operasi reaktor aliran蜡染，Operasi transient, Oksidasi amoniak, Pemodelan reaktor, Rejim kinetika

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Jurnal Teknik Kimia Indonesia

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