空气动力学学报
空氣動力學學報
공기동역학학보
Acta Aerodynamica Sinica
2015年
5期
678-685
,共8页
陶天友%王春峰%王浩%李爱群
陶天友%王春峰%王浩%李愛群
도천우%왕춘봉%왕호%리애군
大跨度斜拉桥%裸塔%风场模拟%抖振控制%多重调谐质量阻尼器
大跨度斜拉橋%裸塔%風場模擬%抖振控製%多重調諧質量阻尼器
대과도사랍교%라탑%풍장모의%두진공제%다중조해질량조니기
long-span cable-stayed bridge%free-standing tower%wind field simulation%buffe-ting control%multiple tuned mass dampers (MTMD)
以主跨1088 m 的苏通大桥为工程背景,根据规范推荐的风谱模型分别模拟了不同风速下裸塔结构的三维脉动风场,基于 ANSYS 进行了裸塔在强风作用下的风致抖振响应及其 MTMD 减振控制研究,重点探讨了 MTMD用于大型斜拉桥裸塔抖振控制的效果及其中的关键影响因素。结果表明:TMD 的数量、MTMD 的质量比、频带宽、阻尼比等参数的变化对其减振效果的影响不尽一致;合理设置 MTMD 参数可大大降低斜拉桥裸塔的抖振位移响应,实现主塔结构抖振的有效控制。分析结果可为大跨度斜拉桥裸塔结构的风致抖振控制提供参考。
以主跨1088 m 的囌通大橋為工程揹景,根據規範推薦的風譜模型分彆模擬瞭不同風速下裸塔結構的三維脈動風場,基于 ANSYS 進行瞭裸塔在彊風作用下的風緻抖振響應及其 MTMD 減振控製研究,重點探討瞭 MTMD用于大型斜拉橋裸塔抖振控製的效果及其中的關鍵影響因素。結果錶明:TMD 的數量、MTMD 的質量比、頻帶寬、阻尼比等參數的變化對其減振效果的影響不儘一緻;閤理設置 MTMD 參數可大大降低斜拉橋裸塔的抖振位移響應,實現主塔結構抖振的有效控製。分析結果可為大跨度斜拉橋裸塔結構的風緻抖振控製提供參攷。
이주과1088 m 적소통대교위공정배경,근거규범추천적풍보모형분별모의료불동풍속하라탑결구적삼유맥동풍장,기우 ANSYS 진행료라탑재강풍작용하적풍치두진향응급기 MTMD 감진공제연구,중점탐토료 MTMD용우대형사랍교라탑두진공제적효과급기중적관건영향인소。결과표명:TMD 적수량、MTMD 적질량비、빈대관、조니비등삼수적변화대기감진효과적영향불진일치;합리설치 MTMD 삼수가대대강저사랍교라탑적두진위이향응,실현주탑결구두진적유효공제。분석결과가위대과도사랍교라탑결구적풍치두진공제제공삼고。
With the increase of the height and structural complexity of the long-span cable-stayed bridge tower,the buffeting response of the free-standing tower and its control become one of the key issues in bridge engineering.In this paper,Sutong Bridge,a long-span cable-stayed bridge with a main span of 1088 m is taken as the engineering background.3-dimensional wind turbulence field for the free-standing tower is simulated according to the measured specification spectrum,the buffeting response of the free-standing tower under the action of strong wind and its control using MTMD are studied based on ANSYS.The control effect on buffeting of the free-standing tower of long-span cable-stayed bridge and the key MTMD parameters are investigated. Results show that the influences of the MTMD parameters including the number of TMD,mass ratio,frequency bandwidth and damping ratio are not identical.The MTMD with reasonable pa-rameters can greatly decrease the buffeting displacements for the free-standing tower of the cable-stayed bridge,and therefore effectively control the buffeting of the main tower.Results can pro-vide references for wind-induced buffeting control of the free-standing tower of long-span cable-stayed bridges.