运用CFX模拟分解炉模型内的流动、煤粉燃烧、CaCO3的分解过程,对系统进行气体组分质量平衡和热量平衡计算,结果表明:O2的相对误差<3%,CO2的相对误差<9%,热量的相对误差<9%,表明用CFX模拟分解炉时的可靠性达90%以上;当计算参数如CaCO3量或煤粉量变化0.01%时,炉内温度分布、出口温度、CaCO3分解率等变量几乎没有变化,而当计算参数的变化量大于0.01%时,计算结果就看出变化,即CFX的模拟计算结果响应这两个计算参数变化的灵敏度可达到近万分之一。
Using CFX to simulate the flow, coal combustion and CaCO3 decomposition process of the calciner model, calculating mass balance and thermal balance calculation of gas components in the system, the results show that the relative error of O2 is less than 3%, CO2 is less than 9%, and the relative error of thermal is less than 9%, indicate that the reliability of using CFX to simulate calciner is more than 90%. When computational condition such as the amount of CaCO3 or pulverized coal is changed by 0. 01%, the temperature distribution of the furnace, the outlet temperature and the decomposition rate of CaCO3 is almost unchanged, while the variation is greater than 0. 01%, the results are seen to be changed. That is the sensitivity of simulation results calculated by CFX in response to these two calculation parameters can reach nearly 1/10000 .
参考文献
| [1] | 熊会思.预热器和分解炉的发展(一)[J].新世纪水泥导报,2002(05):42-46. |
| [2] | 陈作炳;陈思维;豆海建;彭建新;黄继全;崔亚伟.五级旋风预热器冷模单体流场数值研究[J].武汉理工大学学报,2005(5):56-58. |
| [3] | 黄来;陆继东;李昌军;胡芝娟;王世杰;吴君棋.双喷腾分解炉内气固两相流场的数值模拟[J].硅酸盐学报,2003(8):748-753. |
| [4] | 谢峻林;梅书霞.SLC-S分解炉增加物料进口时气固两相流场的数值模拟[J].硅酸盐学报,2007(10):1382-1386. |
| [5] | Liu Huanpeng;Liu Wentie;Zheng Jianxiang;Jianmin Ding;Zhao Xiujian;Lu Huilin.Numerical study of gas-solid flow in a precalciner using kinetic theory of granular flow[J].Chemical Engineering Journal,20042(2):151-160. |
| [6] | 叶旭初;李祥东;胡道和.喷旋管道式分解炉内燃烧、分解过程的CFD模拟[J].南京工业大学学报(自然科学版),2006(1):62-66. |
| [7] | 黄来;陆继东;任合斌;胡芝娟;王世杰.双喷腾分解炉中燃烧和分解耦合数值的模拟[J].硅酸盐学报,2004(10):1271-1275. |
| [8] | 梅书霞;谢峻林;何峰;金明芳.DD分解炉燃烧与分解耦合过程的数值模拟[J].化工学报,2013(3):897-905. |
| [9] | 杨力远 .预分解窑煅烧过程计算机模拟[D].武汉理工大学,2004. |
| [10] | 刘晖.新的气体平均比热容温度线性关系式[J].内蒙古石油化工,2013(11):13-15. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%