湿法烟气脱硫(WFGD)喷雾塔的分析优化

2016/09/18   下载量: 4

方案摘要

方案下载
应用领域 环保
检测样本 废气
检测项目
参考标准 暂无

Sulfur dioxide is the major environmental contaminant that contributes to smog and soot. The reduction of air pollu-tants is a worldwide goal that has become a focus for sustainable environmental development strategies. As emission standards increase, the waste gas cleaning system will be required to adapt or be upgraded. Wet FGD is character-ized as one of the most reliable and effective SO2 removal techniques, with the added benefit of low operating cost. However, implementation and maintenance is considered high. Spray towers are essential elements in the emission cleaning system. Control of the droplets throughout the tower geometry is critical to ensuring maximum reduction and minimal scaling. In order to improve the scrubber, nozzle characteristics and placement must be optimized to reduce the cost of the system implementation and mitigate risks of inadequate pollution removal. A series of large flow rate, hydraulic full and hollow cone injectors were investi-gated for this study. Computational Fluid Dynamics (CFD) simulations were used to examine a standard industrial-size wet scrubber design for injection system optimization. ANSYS Fluent solvers were used with Lagrangian particle tracking meth-od for heat and mass transfer between gas and liquid. The alkaline sorbent material and SO2 reaction was modeled to determine uniformity and efficacy of the system. Surface chemical mechanisms were used to simulate the reaction rate. Drop size, liquid rheology, and injector array layout were examined to achieve SO2 removal above 90%. Wall impingement and flow pattern results were evaluated, due to their impact in minimizing equipment corrosion and plugging.

方案下载
配置单
上一篇 在一个双稳湍流涡旋火焰中,对间歇性动态的时间-频率定位
下一篇 注入尿素控制Nox方法的CFD设计和分析

文献贡献者

北京欧兰科技发展有限公司
金牌会员第17年
查看全部资料
相关仪器 更多
相关方案
更多

相关产品

当前位置: 欧兰科技 方案 湿法烟气脱硫(WFGD)喷雾塔的分析优化

关注

拨打电话

留言咨询