High Temperature Air Combustion(HTAC) based on regenerative theory has been used in developed countries in recent years,it has many advantages such as efficient recovery of waste heat,high temperature preheating air,low pollution discharge,and so on.This Technology can be used in various furnaces in mechanical,petroleum,chemical industry.To rebuild traditional radiant-tube combustion system with HTAC technology has become important.In the transformation process,The biggest difficulty encountered is that the stability of burner combustion and control system. Because the exhaust gas heat is absorbed by the regenerator,exhaust gas discharge can be controlled at a very low temperature to realize maximum waste heat recovery.At the same time,it improves the temperature uniformity and improve the heating intensity.Thermal efficiency of the device can reach more than 80%.And compared to the traditional air preheating,21.55%energy can be saved. Revamping on traditional radiant-tube combustion system is technically feasible,but a lot of problems will be involved since the rebuild work is on the old system,this article discusses on the main problem encountered in rebuild process in site. to optimize temperature control and obtain not so high exhaust gas temperature,digital combustion control system is necessary.This control loop consists of big loop and small loop,Big loop controls the load distribution of all burners in each heating zone.Small loop controls each heating zone burner’s burning time. Compared performance of tradition radiant-tube heater with regenerative radiant-tube heater,result that regenerative radiant-tube heater have many advantage in consume fuel.Accordance with experience of replacing tradition radiant-tube heater with regenerative type,give a proposition in combustion control system, pilot burner,flame detection and prevent trouble to rebuild work of CAPL and CGL. It is recommended to use regenerative combustion technology in new annealing Line.Although the investment is 1/3 much more than the traditional combustion system,the energy saving effect is obvious and operating costs decreases.Revamping can be taken step by step according to different heating zones.Although taking a long time,it is safer and it influences the production less. Regenerative combustion burner revamping has become successful.However,the revamping work on different furnaces,particular on continuous annealing furnace with high request for temperature control,need further exploration and research. High Temperature Air Combustion (HTAC) based on regenerative theory has been used in developed countries in recent years, it has many advantages such as efficient recovery of waste heat, high temperature preheating air, low pollution discharge, and so on. This Technology can be used in various furnaces in mechanical, petroleum, chemical industry. rebuild traditional radiant-tube combustion system with HTAC technology has become important.In the transformation process, The biggest difficulty has is that the stability of burner combustion and control system. gas heat is absorbed by the regenerator, exhaust gas discharge can be controlled at a very low temperature to realize maximum waste heat recovery. At the same time, it improves the temperature uniformity and improve the heating intensity.Thermal efficiency of the device can reach more than 80%. And compared to the traditional air preheating, 21.55% energy can be saved. Revamping on traditional radiant-tube combustion s ystem is technically feasible, but a lot of problems will be involved the rebuild work in on the old system, this article discusses on the main problem encountered in the rebuild process in site. to optimize temperature control and obtain not so high exhaust gas temperature, digital combustion control system is necessary. This control loop consists of big loop and small loop, Big loop controls the load distribution of all burners in each heating zone. with regenerative radiant-tube heater, result that regenerative radiant-tube heater have many advantages in fuel consumption. Accordance with experience of replacing radiant-tube heater with regenerative type, give a proposition in combustion control system, pilot burner, flame detection and prevent Trouble to rebuild work of CAPL and CGL. It is recommended to use regenerative combustion technology in new annealing Line. Althoughthe investment is 1/3 much more than the traditional combustion system, the energy saving effect is obvious and operating costs decrease.Revamping can be taken by step by different heating zones. It takes a long time, it is safer and it influences the production less. Regenerative combustion burner revamping has become successful. However, the revamping work on different furnaces, particular on continuous annealing furnace with high request for temperature control, need further exploration and research.