噪声与振动控制
譟聲與振動控製
조성여진동공제
NOISE AND VIBRATION CONTROL
2015年
1期
58-62,88
,共6页
振动与波%液压管道%流固耦合%全断面硬岩推进机
振動與波%液壓管道%流固耦閤%全斷麵硬巖推進機
진동여파%액압관도%류고우합%전단면경암추진궤
vibration and wave%hydraulic pipeline%liquid-solid coupling%TBM
考虑到全断面硬岩推进机(TBM)掘进过程中轴向基础振动对流体流速和压力波动的影响,运用输流管道流固耦合轴向运动4-方程模型,分析基础振动的影响,建立轴向基础振动下的TBM液压管道轴向耦合振动方程组,并用直接解法在频域内对其进行求解,再运用MATLAB软件对管道出口处流速和压力的频域响应特性进行仿真计算,随之分析基础振动和不同结构参数对流体频域响应的影响规律。同时,为减弱基础振动对流体出口参数的影响,运用正交实验法对管道进行结构优化,优化后的管道系统流速的频域幅值整体上减小了48.61%,从而在一定程度上抑制了因基础振动带来的流体波动。
攷慮到全斷麵硬巖推進機(TBM)掘進過程中軸嚮基礎振動對流體流速和壓力波動的影響,運用輸流管道流固耦閤軸嚮運動4-方程模型,分析基礎振動的影響,建立軸嚮基礎振動下的TBM液壓管道軸嚮耦閤振動方程組,併用直接解法在頻域內對其進行求解,再運用MATLAB軟件對管道齣口處流速和壓力的頻域響應特性進行倣真計算,隨之分析基礎振動和不同結構參數對流體頻域響應的影響規律。同時,為減弱基礎振動對流體齣口參數的影響,運用正交實驗法對管道進行結構優化,優化後的管道繫統流速的頻域幅值整體上減小瞭48.61%,從而在一定程度上抑製瞭因基礎振動帶來的流體波動。
고필도전단면경암추진궤(TBM)굴진과정중축향기출진동대류체류속화압력파동적영향,운용수류관도류고우합축향운동4-방정모형,분석기출진동적영향,건립축향기출진동하적TBM액압관도축향우합진동방정조,병용직접해법재빈역내대기진행구해,재운용MATLAB연건대관도출구처류속화압력적빈역향응특성진행방진계산,수지분석기출진동화불동결구삼수대류체빈역향응적영향규률。동시,위감약기출진동대류체출구삼수적영향,운용정교실험법대관도진행결구우화,우화후적관도계통류속적빈역폭치정체상감소료48.61%,종이재일정정도상억제료인기출진동대래적류체파동。
The influence of the axial foundation vibration on the fluid flow velocity and the pressure fluctuation in TBM tunneling process was studied. Using the 4-equation model of the liquid-solid coupled axial motion and considering the effect of the foundation vibration, the axial coupling vibration equation for the TBM hydraulic pipeline was established. The equation was then solved directly in frequency domain. Meanwhile, the frequency responses of velocity and pressure at the pipe outlet were simulated using Matlab code. Then, the influence of foundation vibration and structural parameters changes of the pipeline on the frequency response of the fluid was studied. In order to reduce the influence of the axial foun-dation vibration on fluid fluctuation, the orthogonal experiment method was applied to optimize the pipeline structure. Re-sult of the optimization shows that the amplitude of fluid velocity is reduced by 48.61%in the frequency domain, and the fluid fluctuation resulted from the axial foundation vibration is suppressed.