|本期目录/Table of Contents|

[1]柯世堂,赵林,葛耀君,等.超大型排烟冷却塔风压分布及双孔道位置优化[J].建筑科学与工程学报,2009,26(02):52-56.
 KE Shi-tang,ZHAO Lin,GE Yao-jun,et al.Wind Pressure Distribution and Double Holes Position Optimization for Super Large-scale Cooling Towers with Flue Gas[J].Journal of Architecture and Civil Engineering,2009,26(02):52-56.
点击复制

超大型排烟冷却塔风压分布及双孔道位置优化(PDF)
分享到:

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

卷:
26卷
期数:
2009年02期
页码:
52-56
栏目:
出版日期:
2009-06-20

文章信息/Info

Title:
Wind Pressure Distribution and Double Holes Position Optimization for Super Large-scale Cooling Towers with Flue Gas
作者:
柯世堂1,赵林1,葛耀君1,高玲2,赵煜3
1.同济大学土木工程防灾国家重点实验室,上海200092;2.华东电力设计院,上海200063; 3.长安大学公路学院,陕西西安710064
Author(s):
KE Shi-tang1, ZHAO Lin1, GE Yao-jun1, GAO Ling2, ZHAO Yu3
1. State Key Laboratory for Disaster Reduction in Civil Engineering, Tongji University, Shanghai 200092, China; 2. East China Electric Power Design Institute, Shanghai 200063, China; 3. School of Highway, Chang'an University, Xi'an 710064, Shaanxi, China
关键词:
排烟冷却塔 风压分布 风洞试验 阻力系数 压力系数
Keywords:
cooling tower with flue gas wind pressure distribution wind-tunnel test drag coefficient pressure coefficient
分类号:
TU991.42
DOI:
-
文献标志码:
A
摘要:
为了研究烟塔合一技术中开孔孔洞的形状和相对位置对塔的稳定性和压力分布的影响,以采用这一技术的中国最高、最大的某电厂超大型烟塔合一冷却塔为研究对象,通过风洞试验对比了该塔筒表面开孔的排烟冷却塔和常规无孔冷却塔在开孔处的风压分布和塔筒整体阻力系数,得到了排烟冷却塔在烟道开孔周围塔筒表面的局部风压分布特征; 通过改变两孔道间的夹角来考虑两孔道间的相对位置对冷却塔整体受力的影响; 对比了开孔冷却塔与未开孔冷却塔的受力性能。结果表明:两孔道相对位置的变化对冷却塔整体阻力系数影响很大; 开孔后冷却塔整体阻力系数均大于未开孔时的阻力系数。
Abstract:
In order to research the influence of the form of hole and holes' relative position on stability and pressure distribution of natural draft cooling tower(NDCT)with flue gas injection, taking China's highest and biggest super large-scale cooling tower with flue gas injection which used this technology as study object, the wind pressure distribution and whole drag coefficient were compared around open hole flue about cooling tower with flue gas and without flue gas in wind-tunnel test, then the characteristics of local wind pressure distribution around the flue gas of cooling tower weregained. Finally, the whole strength's influence caused by changing angle of two holes' relative position was considered, and the strength performance of a lone cooling tower without the hole was compared with. The results show that the changing of two holes' relative position has great influence on whole drag coefficient; the whole drag coefficient of cooling tower with open hole is bigger than that of cooling tower without open hole.

参考文献/References:

[1] NIEMANN H J,KOPPER H D.Influence of Adjacent Buildings on Wind Effects on Cooling Towers[J].Engineering Structures,1998,20(10):874-880.
[2]VILADKAR M N,KARISIDDAPPA C R,BHARGAVA P,et al.Static Soil-structure Interaction Response of Hyperbolic Cooling Towers to Symmetrical Wind Loads[J].Engineering Structures,2006,28(9):1236-1251.
[3]阎文成,张彬乾,李建英.超大型双曲冷却塔风荷载特性风洞试验研究[J].流体力学实验与测量,2003,17(增):85-89. YAN Wen-cheng,ZHANG Bin-qian,LI Jian-ying.Investigation on Characteristics of Wind Load for Super Large Hyperbolic Cooling Tower in Wind Tunnel[J].Experiments and Measurements in Fluid Mechanics,2003,17(S):85-89.
[4]张彬乾,李建英,阎文成.超大型双曲冷却塔双塔干扰的风荷载特性研究[J].流体力学实验与测量,2003,17(增):93-97. ZHANG Bin-qian,LI Jian-ying,YAN Wen-cheng.Investigation on Interrelation of Wind Load for Double Super Large Hyperbolic Cooling Tower[J].Experiments and Measurements in Fluid Mechanics,2003,17(S):93-97.
[5]赵 林,葛耀君,曹丰产.双曲薄壳冷却塔气弹模型的等效梁格方法和实验研究[J].振动工程学报,2008,21(1):31-37. ZHAO Lin,GE Yao-jun,CAO Feng-chan.Equivalent Beam-net Design Theory of Aero-elastic Model About Hyperbolic Thin-shell Cooling Towers and Its Experimental Investigation[J].Journal of Vibration Engineering,2008,21(1):31-37.
[6]刘天成,赵 林,丁志斌.圆形截面冷却塔不同表面粗糙度时绕流特性的试验研究[J].工业建筑,2006,36(增1):301-304. LIU Tian-cheng,ZHAO Lin,DING Zhi-bin.Test Research of Flow Feature for Hyperbolic Circular Section Cooling Tower with Different Superfacial Roughness[J].Industrial Construction,2006,36(S1):301-304.
[7]李鹏飞,赵 林,葛耀君,等.超大型冷却塔风荷载特性风洞试验研究[J].工程力学,2008,25(6):60-67. LI Peng-fei,ZHAO Lin,GE Yao-jun,et al.Wind Tunnel Investigation on Wind Load Characteristics for Super Large Cooling Towers[J].Engineering Mechanics,2008,25(6):60-67.
[8]赵 林,李鹏飞,葛耀君.效静风荷载下超大型冷却塔受力性能分析[J].工程力学,2008,25(7):79-86. ZHAO Lin,LI Peng-fei,GE Yao-jun.Numerical Investigation on Performance of Super Large Cooling Towers Under Equivalent Static Wind Load[J].Engin-eering Mechanics,2008,25(7):79-86.
[9]刘若斐,沈国辉,孙炳楠.大型冷却塔风荷载的数值模拟研究[J].工程力学,2006,23(增1):177-183. LIU Ruo-fei,SHEN Guo-hui,SUN Bing-nan.Numeri-cal Simulation Study of Wind Load on Large Hyperbolic Cooling Tower[J].Engineering Mechanics,2006,23(S1):177-183.

相似文献/References:

备注/Memo

备注/Memo:
收稿日期:2009-02-18
基金项目:国家自然科学基金重大研究计划项目(90715039); 科技部重大科技项目(2008ZX06004-001)
作者简介:柯世堂(1982-),男,安徽池州人,工学博士研究生,E-mail:keshitang@163.com。
更新日期/Last Update: 2009-06-20