Modeling and optimization of a semi-regenerative catalytic naphtha reformer

@article{Li2005ModelingAO,
  title={Modeling and optimization of a semi-regenerative catalytic naphtha reformer},
  author={Jin Li and Yuejin Tan and Liangcai Liao},
  journal={Proceedings of 2005 IEEE Conference on Control Applications, 2005. CCA 2005.},
  year={2005},
  pages={867-872}
}
Modeling and optimization of a semi-regenerative catalytic naphtha reformer has been carried out considering most of its key constituent units. A detailed kinetic scheme involving 28 pseudo-components connected by a network of 68 reactions was modeled using reaction-rate expressions. Deactivation of catalyst was modeled by including the corresponding equations of coking kinetics. The overall kinetic model was parameterized by benchmarking against industrial plant data. The ordinary differential… CONTINUE READING

References

Publications referenced by this paper.
Showing 1-10 of 20 references

Applying Analytical Derivative and Sparse Matrix Techniques to Large-Scale Process Optimization Problems

Zhong Weitao, Shao Zhijiang, Zhang Yuyue, Qian Jixin
Chinese Journal of Chem. Engng., vol.8, no. 3, pp. 212-217, 2000. • 2000
View 4 Excerpts
Highly Influenced

Modeling and Optimization of a Semi-regenerative Catalytic Naphtha Reformer

U. Taskar
Ph.D. dissertation, Texas Tech University, 1996. • 1996
View 5 Excerpts
Highly Influenced

Modeling and Optimization of a Semi-regenerative Catalytic Naphtha Reformer

U. Taskar
Ph.D. dissertation, Texas Tech University, 1996. • 1996
View 5 Excerpts
Highly Influenced

A Modified Augmented Lagrange Multiplier Method of Large-Scale Optimization

Liang Ximing, Hu Jianbo, Zhong Weitao, Qian Jixin
Dev. Chem. Eng. Mineral Process., 9(1-2), pp. 115-124, 2001. • 2001
View 1 Excerpt

Modeling of a fluidized catalytic cracking process

In-Su Han, Chang-Bock Chung, James B. Riggs
Computers Chem. Engng., vol. 24, pp. 1681-1687, 2000. • 2000

Application of the modified barrier method in large-scale quadratic programming problems

V. S. Vassiliadis, S. A. Brooks
Computers Chem. Engng., vol. 22, no. 9, pp. 1197-1205, 1998. • 1998
View 1 Excerpt

The modified barrier function approach for large-scale optimization

V. S. Vassiliadis, C. A. Floudas
Computers Chem. Engng., vol. 21, no. 8, pp. 855-874, 1997. • 1997
View 1 Excerpt

Modeling and Optimization of a Semi - regenerative Catalytic Naphtha Reformer

U. Taskar
1996

Modeling and Optimization of a Semi - regenerative Catalytic Naphtha Reformer

U. Taskar
1996

Nonlinear process model abased controlled and optimization of a model V FCC unit

P. D. Khandalekar, J. M. Riggs
Computers Chem. Engng., vol. 19. no. 11, pp. 1153-l I68, 1995. 872 • 1995