沙钢5800 m3高炉开炉至今,运行状况良好,在长期实践中,摸索出了合理的喷煤比。在保证氧过剩系数、理论燃烧温度和透气阻力系数的前提下,提出合理的喷煤比还应保证合适的炉腹煤气量指数。根据沙钢5800 m3高炉的实际操作数据,提出氧过剩系数应高于0.71,理论燃烧温度约为2350℃,透气阻力系数约为1.8~2.0。研究发现,由于5800 m3高炉的炉缸直径偏小,合理的炉腹煤气量指数应在68 m/min以内。该高炉在原燃料和操作稳定的前提下,合理的喷煤比约为180 kg/t。
Since blown,the Shasteel 5800m3 blast furnace is operated stably and smoothly. According to the operating ex-perience,reasonable pulverized coal rate has been found. Oxygen excess ratio,theoretical flame temperature and per-meability resistance index have been considered. Besides,boshgas volume index should also be considered. Accord-ing to actual operation data,the oxygen excess ratio should be above 0.71,and the theoretical flame temperature should be 2 350℃,and permeability resistance index should be in the range of 1.8-2.0. At the same time,the reasonable bosh gas volume index should be no more than 68 m/min. It is because of smaller hearth diameter of 5800m3 blast furnace. If the raw materials and operation are stable,the proper pulverized coal rate is 180 kg/t.
参考文献
| [1] | Kazuyoshi YAMAGUCHI;Hiromitsu UENO;Shin'ichi MATSUNAGA .Test on High-Rate Pulverized Coal Injection Operation at Kimitsu No. 3 Blast Furnace[J].ISIJ International,1995(2):148-155. |
| [2] | Akira MAKI;Atsushi SAKAI;Noriyoshi TAKAGAKI;Kimitoshi MORI;Tatsuro ARIYAMA;Michitaka SATO;Ryota MURAI .High Rate Coal Injection of 218 kg/t at Fukuyama No. 4 Blast Furnace[J].ISIJ International,1996(6):650-657. |
| [3] | 张寿荣,于仲洁.中国炼铁技术60年的发展[J].钢铁,2014(07):8-14. |
| [4] | 刘竹林.炼铁理论与工艺[M].北京:化学工业出版社,2009 |
| [5] | 周师庸,徐君,徐万仁.高炉高喷煤水平下对回旋区内残炭的研究[J].钢铁,2000(12):9. |
| [6] | 徐万仁,朱仁良,张龙来,朱锦明.高炉高煤比操作的实践[J].钢铁,2005(09):9-12,29. |
| [7] | 项钟庸;王筱留.高炉设计--炼铁工艺设计理论与实践[M].北京:冶金工业出版社,2007 |
| [8] | 项钟庸.以高炉炉腹煤气量指数取代冶炼强度的研究[J].钢铁,2007(09):16-18. |
| [9] | 项钟庸.用高炉炉腹煤气量指数来衡量高炉强化程度[J].炼铁,2007(02):2-4. |
| [10] | 卫继刚.大型高炉合理炉腹煤气量指数的控制及探讨[J].钢铁,2012(03):15-19. |
| [11] | 张福明,钱世崇,张建,毛庆武,苏维.首钢京唐5500m3高炉采用的新技术[J].钢铁,2011(02):12-17. |
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