Journal of the Korean Institute of Gas (한국가스학회지)

The Korean Institute of GAS (한국가스학회)
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Modeling of Liquid Hold-up in Fixed-bed Reactor for Fischer-Tropsch Synthesis

고정층 Fischer-Tropsch 반응기의 액상 왁스 정체 현상 모델링

  • Park, Chansaem (School of chemical and biological engineering, Seoul National University) ;
  • Jung, Ikhwan (School of chemical and biological engineering, Seoul National University) ;
  • Park, Seongho (School of chemical and biological engineering, Seoul National University) ;
  • Na, Jonggeol (School of chemical and biological engineering, Seoul National University) ;
  • Kshetrimayum, Krishnadash (School of chemical and biological engineering, Seoul National University) ;
  • Han, Chonghun (School of chemical and biological engineering, Seoul National University) ;
  • Lee, Jong Yeol (R&D Center, KOGAS) ;
  • Jung, Jongtae (R&D Center, KOGAS)
  • Received : 2014.07.03
  • Accepted : 2014.08.26
  • Published : 2014.08.31
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Abstract

Fischer-Tropsch synthesis mainly produces a wax which is a viscous liquid for long carbon chain. When a catalytic fixed-bed reactor is used for Fischer-Tropsch synthesis, the wax generated on a catalyst surface can keep adsorbing on the catalyst surface. This liquid hold-up causes significant pressure drop and clogging problems through the reactor. Thus, the model for liquid hold-up is required to design the size of reactor and catalyst particles. In this study, the liquid hold-up model considering structural and operational conditions was proposed based on empirical equations for convective mass transfer between the syngas flow and the wax-adsorbed catalyst. The developed model was validated by comparing with the experimental data from Knochen's work (2010). The influence of reactor length and coross section on the wax hold-up in reactor were analyzed and the optimal reactor size were proposed.

Fischer-Tropsch 합성은 주로 긴 carbon 사슬을 가지고 있는 높은 점도의 왁스를 product로 생산한다. 촉매 고정층 반응기를 이용하여 Fischer-Tropsch 합성을 수행할 경우, 왁스는 촉매입자의 표면에서 생산되어 촉매입자 표면에 흡착되어 있다. 이런 왁스의 hold-up 현상이 반응기 전체의 압력강하는 증가시키고 내부 흐름을 막는 문제를 일으킨다. 따라서 반응기 내부에 왁스가 hold-up되는 현상에 대한 모델링을 통해 왁스 hold-up 현상을 최소화 할 수 있는 반응기 및 촉매 입자의 크기를 결정하는 설계 과정이 필요하다. 본 연구에서는 왁스가 hold-up된 촉매 입자와 기체 흐름 사이의 대류 물질 전달 실험 모델을 이용하여 반응기 구조 및 운전 조건을 고려할 수 있는 반응기 내부 왁스 hold-up 모델을 개발하였다. 개발된 모델은 실험 데이터를 제공한 Knochen의 연구 결과와 비교하여 모델의 우수성을 검증하였다. 이 모델을 이용하여 반응기의 길이와 단면이 반응기 내부 왁스 hold-up 현상에 어떻게 영향을 미칠 수 있는지 분석해 보았다.

Keywords

References

  1. Bukur, Dragomir B, Lang, Xiaosu, Akgerman, Aydin, Feng, Zhentao, "Effect of process conditions on olefin selectivity during conventional and supercritical Fischer-Tropsch synthesis", Industrial & engineering chemistry research, 36(7), 2580-2587, (1997) https://doi.org/10.1021/ie960507b
  2. Hans M. Wyss, Daniel L. Blair, Jeffrey F. Morris, Howard A. Stone, and David A. Weitz, "Mechanism for clogging of microchannels", Physical Review E, 74, (2006)
  3. Ergun, Sabri, "Fluid flow through packed columns", Chem. Eng. Prog., 48, 89-94, (1952)
  4. Ion Iliuta, Fai1cu al Larachi, and Bernard P. A. Grandjean, "Pressure Drop and Liquid Holdup in Trickle Flow Reactors: Improved Ergun Constants and Slip Correlations for the Slit Model", Industrial & engineering chemistry research, 37, 4542-4550, (1998) https://doi.org/10.1021/ie980394r
  5. Jens Knochen, Robert Guttel, Carsten Knobloch, Thomas Turek, "Fischer-Tropsch synthesis in milli-structured fixed-bed reactors: Experimental study and scale-up considerations", Chemical Engineering and Processing: Process Intensification, 49, 958-964, (2010) https://doi.org/10.1016/j.cep.2010.04.013
  6. Sharma, Amit, Philippe, Regis, Luck, Francis, Schweich, Daniel, "A simple and realistic fixed bed model for investigating Fischer-Tropsch catalyst activity at lab-scale and extrapolating to industrial conditions", Chemical engineering science, 66(24), (2011)