De Wang, Too Yang, Zhi Wen, Junxiao Feng, Ning Kong, Qin Wang, and Weimin Wang, A mathematical model for optimized operation and control in a CDQ-Boiler system, J. Univ. Sci. Technol. Beijing, 12(2005), No. 5, pp. 390-393.
Cite this article as:
De Wang, Too Yang, Zhi Wen, Junxiao Feng, Ning Kong, Qin Wang, and Weimin Wang, A mathematical model for optimized operation and control in a CDQ-Boiler system, J. Univ. Sci. Technol. Beijing, 12(2005), No. 5, pp. 390-393.
De Wang, Too Yang, Zhi Wen, Junxiao Feng, Ning Kong, Qin Wang, and Weimin Wang, A mathematical model for optimized operation and control in a CDQ-Boiler system, J. Univ. Sci. Technol. Beijing, 12(2005), No. 5, pp. 390-393.
Citation:
De Wang, Too Yang, Zhi Wen, Junxiao Feng, Ning Kong, Qin Wang, and Weimin Wang, A mathematical model for optimized operation and control in a CDQ-Boiler system, J. Univ. Sci. Technol. Beijing, 12(2005), No. 5, pp. 390-393.
Based on analyzing the thermal process of a CDQ (coke dry quenching)-Boiler system, the mathematical model for optimized operation and control in the CDQ-Boiler system was developed. It includes a mathematical model for heat transferring process in the CDQ unit, a mathematical model for heat transferring process in the boiler and a combustion model for circulating gas in the CDQ-Boiler system. The model was verified by field data, then a series of simulations under several typical operating conditions of CDQ-Boiler were carried on, and in turn, the online relation formulas between the productivity and the optimal circulating gas, and the one between the productivity and the optimal second air, were achieved respectively. These relation equations have been successfully used in a CDQ-Boiler computer control system in the Baosteel, to realize online optimized guide and control, and meanwhile high efficiency in the CDQ-Boiler system has been achieved.
Based on analyzing the thermal process of a CDQ (coke dry quenching)-Boiler system, the mathematical model for optimized operation and control in the CDQ-Boiler system was developed. It includes a mathematical model for heat transferring process in the CDQ unit, a mathematical model for heat transferring process in the boiler and a combustion model for circulating gas in the CDQ-Boiler system. The model was verified by field data, then a series of simulations under several typical operating conditions of CDQ-Boiler were carried on, and in turn, the online relation formulas between the productivity and the optimal circulating gas, and the one between the productivity and the optimal second air, were achieved respectively. These relation equations have been successfully used in a CDQ-Boiler computer control system in the Baosteel, to realize online optimized guide and control, and meanwhile high efficiency in the CDQ-Boiler system has been achieved.