Experimental Investigation of Flow Field of LargeScale Regenerative Annular Heating Furnace
PAN Liangming1,CHENG Shuming2,WU Chengbo3,YONG Haiquan2,JI Hongchun1
1. School of Power Engineering, Chongqing University, Chongqing 400044,China; 2. CISDI Industrial Furnace Ltd. Co., of Chongqing, Chongqing 400012,China;3. School of Science of Material and Engineering, Chongqing University, Chongqing 400044, China
Abstract:According to modeling theory, a cold model of a largescale regenerative annular heating furnace with scale of 1∶10 was built. Based on the principle of PIV test, with tracing particles,the highspeed camera was adopted to record velocity field. Results indicate that the airflow from burners could not be sucked by the first opposite nozzle on the other side wall,the closer the burner to soaking section,the more difficult the air removing is and gas residence time could be prolonged, and shortcircuit of flue gas could be avoided. The air velocity profile changes greatly in the chamber, the farther the air flow from the nozzle, the less the velocity change is. At a certain angle of the air jet, there are two vortexes at both sides of the burner.The higher the air flow rate,the easier the air flow reaching the opposite wall.
潘良明;程淑明;伍成波;雍海泉;季洪春. 大型蓄热式环形加热炉冷态流场试验分析[J]. 钢铁, 2008, 43(10): 78-0.
PAN Liangming;CHENG Shuming;WU Chengbo;YONG Haiquan;JI Hongchun. Experimental Investigation of Flow Field of LargeScale Regenerative Annular Heating Furnace. Iron and Steel, 2008, 43(10): 78-0.