变截面倾斜烟道导流板对AIG入口流场的影响

doi:10.3785/j.issn.1008-973X.2011.08.021

2011, Vol. 45

Issue (8): 1453-1457 DOI: 10.3785/j.issn.1008-973X.2011.08.021

能源工程

变截面倾斜烟道导流板对AIG入口流场的影响

毛剑宏, 蒋新伟, 钟毅, 宋浩, 吴卫红,
潘淑萍, 高翔, 骆仲泱, 岑可法

浙江大学能源清洁利用国家重点实验室,浙江杭州 310027

The effect of splitters layout at variable cross-section
inclined flue on AIG inlet flow field

MAO Jian-hong, JIANG Xin-wei, ZHONG Yi, SONG Hao, WU Wei-hong,
PAN Shu-ping, GAO Xiang, LUO Zhong-yang, CEN Ke-fa

State Key Laboratory of Clean Energy Utilization, Zhejiang University, Hangzhou 310027, China

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摘要：

结合某实际电厂选择性催化还原（SCR）系统,对该系统喷氨格栅（AIG）上游变截面烟道处导流板的布置进行研究,以优化AIG入口的速度流场分布.基于fluent软件,对带有变截面烟道的AIG上游的速度流场进行数值模拟,研究变截面处导流板等角度布置方案和变角度布置方案对AIG入口流场的影响,并分析流场分布变化的原因.结果表明,在等角度布置的条件下,导流板的引流作用使Z向两壁面处的速度分布随角度变化呈现相反的趋势,并在布置角度为64°时标准偏差系数Cv值最低达到15.4%,但靠近两壁面处的速度分布仍不均匀.针对这种情况对导流板进行了变角度优化布置,结果发现,优化方案可以提高两壁面处速度分布以及AIG上游整体速度分布的均匀性Cv值从15.4%降至12.4%.

Abstract:

To optimize the velocity distribution of AIG inlet, the design for splitters of variable cross-section flue at the AIG upstream was researched in a coal fire plant selective catalytic reaction(SCR) system. The velocity distribution of AIG upstream with variable crosssection flue was simulated by Fluent software, the effect of uniform splitters installation angle and different installation angle in variable cross-section flue on flow field of AIG inlet was researched and the change of flow field distribution was analyzed. The results show that in the condition of uniform installation angle, the guiding effect of splitters makes the velocity distribution at the two walls perform inverse trends, these two conteracting trends nullify the effect of the splitters and make the Cv value lowest, 15.4% at installation angle of 64°. However, the velocity distribution near two walls at the Z direction is still not uniform. Then a new optimization design method using different installation angle near two walls is put forward, the results show that the optimization design can improve the uniformity of velocity distribution near two walls and makes the Cv value decrease from 15.4% to 12.4%.

出版日期: 2011-09-08

X 701

通讯作者: 高翔,男,教授,博导. E-mail: xgao@zju.edu.cn

作者简介: 毛剑宏(1964—),男,教授级高工,从事大气污染控制的研究.E-mail: maojh@zjenergy.com.cn

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毛剑宏, 蒋新伟, 钟毅, 宋浩, 吴卫红, 潘淑萍, 高翔, 骆仲泱, 岑可法. 变截面倾斜烟道导流板对AIG入口流场的影响[J]. J4, 2011, 45(8): 1453-1457.

MAO Jian-hong,JIANG Xin-wei,ZHONG Yi,SONG Hao,WU Wei-hong,PAN Shu-ping,GAO Xiang. The effect of splitters layout at variable cross-section
inclined flue on AIG inlet flow field. J4, 2011, 45(8): 1453-1457.

链接本文:

https://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2011.08.021 或 https://www.zjujournals.com/eng/CN/Y2011/V45/I8/1453

［1］闫志勇,骆仲泱,高翔,等.NH3选择性催化还原NO数学模型［J］.浙江大学学报：工学版,2007,41(12): 2093-2097.
YAN Zhiyong, LUO Zhongyang, GAO Xiang, et al. Mathematic model of selective catalytic reduction of NO with NH3 in experimentscale reactor ［J］. Journal of Zhejiang University: Engineering Science, 2007, 41(12): 2093-2097.
［2］ WANG Zhihua, ZHOU Junhu, ZHANG Yanwei, et al. Experiment and mechanism investigation on advanced reburning for NOx reduction: influence of CO and temperature ［J］. Journal of Zhejiang University Science: Life Science, 2005, 6B(3): 187-194.
［3］董建勋,李辰飞,王松岭,等.还原剂分布不均匀对SCR脱硝性能影响的模拟分析［J］.电站系统工程,2007,23(1): 21-24.
DONG Jianxun, LI Chenfei, WANG Songling, et al. Simulation of effect of nonuniformity of reagent distribution on SCR DeNOx performance ［J］. Power System Engineering, 2007, 23(1): 21-24.
［4］雷达,金保升.喷氨格栅处烟气速度场对高效SCR均流与还原剂混合性能的影响［J］.热能动力工程,2009,24(1): 113-119.
LEI Da, JIN Baosheng. Influence of the flue gas velocity field at an ammoniainjection grid on uniform flows and reducingagent mixing performance of a highefficiency SCR Device ［J］. Journal of Engineering for Thermal Energy & Power, 2009, 24(1): 113-119.
［5］张彦军,高翔,骆仲泱,等.SCR脱硝系统入口烟道设计模拟研究［J］.热力发电,2007,36(1)： 15-23.
ZHANG Yanjun, GAO Xiang, LUO Zhongyang, et al. Simulation study on design of inlet flue duct for SCR denitrification system ［J］. Thermal Power Generation, 2007, 36(1): 15-23.
［6］ KEVIN R, MEL A, MICHAEL V. Numerical modeling for design optimization of SCR applications ［C］∥ ICAC NOx Forum. Washington: ICAC, 2000: 1-6.
［7］ ADAMS B, CREMER M, VALENTINE J, et al. Use of CFD modeling for design of NOx reduction systems in utility boilers ［C］∥ Proceedings of IJPGC02. Phoenix: ASME Digital Library, 2002: 695-702.
［8］沈丹,仲兆平,过小玲.600MW电厂SCR烟气脱硝反应器内不同导流板的流场数值模拟［J］.电力环境保护.2007,23(1): 42-45.
SHEN Dan, ZHONG Zhaoping, GUO Xiaoling. Numerical simulation of different guide plates in selective catalytic reduction denitrification reactor of 600MW power plant ［J］. Electric Power Environmental, 2007, 23(1): 42-45.

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