期刊
CHEMICAL PRODUCT AND PROCESS MODELING
卷 14, 期 1, 页码 -出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/cppm-2018-0022
关键词
filtrate flux; bubble column; regularization network; Fischer-Tropsch; backwashing
资金
- Ferdowsi University of Mashhad
The effectiveness of an internal filtration system intended for separation of wax-catalyst from Fischer-Tropsch synthesis products is investigated in the present study. The generalization performances of in-house Regularization Network (RN) equipped with efficient training algorithm is recruited for prediction of filtrate flux. The network was trained by resorting several sets of experimental data obtained from a specific system of air/paraffin liquid phase/alumina oxide particle conducted in a slurry bubble column reactor. The RN is employed to explore the relationship between the slurry phase temperature (10-60 degrees C), pressure difference (0.3, 0.6 and 0.9 bar) and time (0-120 min) on the rate of outcome filtrate from various size of filter element (4, 8 and 12 microns). The superior recall and validation performances with different exemplars data points show that the optimally trained RN which has solid roots in multivariate regularization theory, is a reliable tool for prediction of filtrate flux. Faithful generalization performance of RN revels that around 66 % reduction in filtrate flux is observed by decreasing temperature from 60 degrees C to 10 degrees C for filter pore size of 4 microns. Decreasing of slurry viscosity is the main reason of such behavior. Increasing pressure driving force has a significant effect on elevating filtrate flux. Due to cake formation, filtrate flux is decreased from 2 to 1.4 (ml/min.cm(2)) at constant temperature of 60 degrees C for filter pore size of 8 microns. Furthermore, the backwashing process is more effective for smaller pore size filter and temperature variation does not have any considerable effect on filter recovery.
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