基于CFD的某废气脱硫洗涤塔流场仿真与优化分析
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摘要
针对某废气脱硫洗涤系统洗涤塔流场不均匀性问题展开研究。采用AVL Fire软件对塔体进行CFD模拟。以提高速度均匀度指数和降低进出口压降为优化目标提出三种改进措施:入口段加装冲孔板;调整环形导流层数;优化冲孔板位置。仿真结果表明:添加冲孔板结构较好地提升了塔内流速均匀度指数,烟气流速更快趋于稳定,有利于塔内化学反应进行;冲孔板置于涡流终点处时,流速均匀度指数较高且压损小;建议加装冲孔板后采用无导流形式的内部结构以减小洗涤塔内整体压损。
Aiming at the problem of the flow field inhomogeneity of the scrubbing tower of a exhaust gas desulfurizing system,the CFD simulation of the tower body was carried out by using AVL Fire software.Three improvement measures were put forward to improve the speed evenness index and reduce the import and export pressure drop,which were adding punching plate to the inlet section; adjusting the number of annular diversion layer and optimizing the placement position of punching plate. The final simulation results show that the structure of adding punching plate greatly improves the velocity uniformity index in the tower,makes the flue gas flow rate more stable,and is beneficial to the chemical reaction in the tower.The uniformity index is higher and the airflow resistance loss is small when the punching plate is installed at the end. After adding punching plate,it is suggested to adopt the internal structure without diversion in order to reduce the overall pressure loss of the scrubbing tower.
Aiming at the problem of the flow field inhomogeneity of the scrubbing tower of a exhaust gas desulfurizing system,the CFD simulation of the tower body was carried out by using AVL Fire software.Three improvement measures were put forward to improve the speed evenness index and reduce the import and export pressure drop,which were adding punching plate to the inlet section; adjusting the number of annular diversion layer and optimizing the placement position of punching plate. The final simulation results show that the structure of adding punching plate greatly improves the velocity uniformity index in the tower,makes the flue gas flow rate more stable,and is beneficial to the chemical reaction in the tower.The uniformity index is higher and the airflow resistance loss is small when the punching plate is installed at the end. After adding punching plate,it is suggested to adopt the internal structure without diversion in order to reduce the overall pressure loss of the scrubbing tower.
引文
[1]WINNES H. Air pollution from ships-emission measurements and impact assessments[D]. Gothenburg:Chalmers University of Technology,2010.
[2]国际船舶网. Hamworthy公司开发的Krystallon脱硫系统[EB/OL].[2016-07-18]. http://www. eworl-dship.com/html/2012/Manufacturer_0531/51473. html.
[3]W?rtsil?. Exhaust gas scrubber installed onboard MT"SUULA"[R]. Finland:Wrtsil,2010.
[4]HANSEN J P. Exhaust gas scrubber installed on board MV ficariaseaways[R]. Strandgade:Danish Environmental Protection Agency,2012.
[5]Couple Systems. The very new exhaust gas cleaning system[R]. Hamburger:Couple Systems,2013.
[6]赵喆,田贺忠,阿庆兴,等.湿式烟气脱硫喷淋塔内部流场数值模拟研究[J].环境工程学报,2005,6(5):16-20.
[7]HANJALIC K,POPOVAC M,HADZIABDIC M. A robust near-wall elliptic-relaxation eddy-viscosity turbulence model for CFD[J]. International Journal of Heat and Fluid Flow,2004,25(6):1047-1051.
[8]李坦,靳世平,黄素逸,等.流场速度分布均匀性评价指标比较与应用研究[J].热力发电,2013(11).
[2]国际船舶网. Hamworthy公司开发的Krystallon脱硫系统[EB/OL].[2016-07-18]. http://www. eworl-dship.com/html/2012/Manufacturer_0531/51473. html.
[3]W?rtsil?. Exhaust gas scrubber installed onboard MT"SUULA"[R]. Finland:Wrtsil,2010.
[4]HANSEN J P. Exhaust gas scrubber installed on board MV ficariaseaways[R]. Strandgade:Danish Environmental Protection Agency,2012.
[5]Couple Systems. The very new exhaust gas cleaning system[R]. Hamburger:Couple Systems,2013.
[6]赵喆,田贺忠,阿庆兴,等.湿式烟气脱硫喷淋塔内部流场数值模拟研究[J].环境工程学报,2005,6(5):16-20.
[7]HANJALIC K,POPOVAC M,HADZIABDIC M. A robust near-wall elliptic-relaxation eddy-viscosity turbulence model for CFD[J]. International Journal of Heat and Fluid Flow,2004,25(6):1047-1051.
[8]李坦,靳世平,黄素逸,等.流场速度分布均匀性评价指标比较与应用研究[J].热力发电,2013(11).
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