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Application of mathematical model of combustion input and output of hot blast stove |
DING Hong-qi1,2,YANG Chun-jie2,SONG Zhi-huan2 |
(1. Department of Haitian,Ningbo Polytechnic,Ningbo 315800,Zhejiang,China 2. College of Control Science and Engineering , Zhejiang University,Hangzhou 310027,Zhejiang,China) |
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Abstract In the current study, a stove control model was proposed based on the mechanism model and the identification model to study the variation of the instantaneous input and output in the stove combustion process. In the present model, the mechanism model was first established to calculate the input and output during the combustion operation of stove, then the identification model was developed and verified using plant data, finally both models were then comprehensively applied to generate a new input and output model. Simulation analyses were performed to investigate the input-output relationships in these three models. Results show that the comprehensive application of the first two models can better control the stove combustion process, damp the disturbance slowly to achieve full combustion, realize the longevity under high air temperature, and thus make the hot blast stove more energy-efficient and environmentally friendly.
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Received: 14 August 2015
Published: 18 March 2016
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