According to multiple-working-conditions characteristics of coke oven combustion process,a multimode fuzzy-expert control method with analysis layer and control layer for flue temperature is presented.

An optimization control method was presented for the flue temperature in multi-operative modes in the coordinating layer and the optimizing control layer for coke oven heating process.

Therefore, how to determine the right gas flowing rate and flue suction to stabilize the flue temperature and make the coke oven burning in the optimal status is the most cr.

An integrated model combining linear regress(LR) and supervised distributed neural networks(SDNN) based on the features of coke oven flue temperature is proposed.

The control of the flue temperature is of fundamental significance for improving the quality of coke, reducing energy sources consuming and decreasing air pollution.

Coking is a heating passage and metamorphosis process ,as well as complicate body structure, bad operation condition ,few detecting means ,therefore flue temperature accuracy control has a certain degree of difficulty.

So the relation equation of the flue and regenerator-top temperature is used as simulative flue temperature in the Optimizing Cascade Control System for the heating of coke ovens.

The features of coke oven flue temperature are analyzed,and a highly accurate soft-sensing model based on error forecasting is established to measure the coke oven flue temperature on-line.

KCl and NaCl on ignition temperature,combustion characteristics and area of heat liberation of high ash coal (HAC) is investigated by thermogrametric analysis.

The effect of different catalysts on the slime ignition temperature,burning completely temperature,and area of heating value are compared,The results show that catalysts can decrease the ignition temperature and burning completely temperature,increase the quantity of heat releasing during combustion,and the catalytic effect of the TF catalyst is better than KNO 3 catalyst.

5% in a slurrying process, the ignition temperature of coal is reduced from 582℃ to 576℃ and the burnout efficiency of fixed carbon is promoted from 91.