哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2013年
6期
753-762
,共10页
毕国军%刘军%房晓明%王立权
畢國軍%劉軍%房曉明%王立權
필국군%류군%방효명%왕립권
柔性管道铺设%动力学建模%刚性有限元方法%拉格朗日方程%动力学分析
柔性管道鋪設%動力學建模%剛性有限元方法%拉格朗日方程%動力學分析
유성관도포설%동역학건모%강성유한원방법%랍격랑일방정%동역학분석
flex-lay system%dynamic modeling%rigid finite element method%Lagrange equation%dynamic analysis
针对海底柔性管道铺设系统的动力学性能及其关键影响因素分析问题,利用刚性有限元方法对柔性管道进行了离散化处理,建立了包含刚性单元及弹簧阻尼单元的刚柔耦合系统运动链。在关节坐标系统下,应用第二类拉格朗日方程对系统进行了动力学建模,引入海浪影响下的铺管船六自由度运动波动对模型进行了数值求解分析。结果表明,铺管船升沉及纵摇运动波动对柔性管道铺设系统的动力学性能影响显著,特别是恶劣海况条件下的大幅值扰动,将导致管道张力及铺管速度产生剧烈振动。通过缩减比例样机模拟实验对理论分析结果进行了验证,所述动力学模型及分析结论可为后续驱动控制系统设计提供依据。
針對海底柔性管道鋪設繫統的動力學性能及其關鍵影響因素分析問題,利用剛性有限元方法對柔性管道進行瞭離散化處理,建立瞭包含剛性單元及彈簧阻尼單元的剛柔耦閤繫統運動鏈。在關節坐標繫統下,應用第二類拉格朗日方程對繫統進行瞭動力學建模,引入海浪影響下的鋪管船六自由度運動波動對模型進行瞭數值求解分析。結果錶明,鋪管船升沉及縱搖運動波動對柔性管道鋪設繫統的動力學性能影響顯著,特彆是噁劣海況條件下的大幅值擾動,將導緻管道張力及鋪管速度產生劇烈振動。通過縮減比例樣機模擬實驗對理論分析結果進行瞭驗證,所述動力學模型及分析結論可為後續驅動控製繫統設計提供依據。
침대해저유성관도포설계통적동역학성능급기관건영향인소분석문제,이용강성유한원방법대유성관도진행료리산화처리,건립료포함강성단원급탄황조니단원적강유우합계통운동련。재관절좌표계통하,응용제이류랍격랑일방정대계통진행료동역학건모,인입해랑영향하적포관선륙자유도운동파동대모형진행료수치구해분석。결과표명,포관선승침급종요운동파동대유성관도포설계통적동역학성능영향현저,특별시악렬해황조건하적대폭치우동,장도치관도장력급포관속도산생극렬진동。통과축감비례양궤모의실험대이론분석결과진행료험증,소술동역학모형급분석결론가위후속구동공제계통설계제공의거。
In order to conduct a comprehensive study on the dynamic performance and critical parameters of a sub?sea flex?lay system, a discretisation of a flexible pipeline was performed utilizing the rigid finite element method, and kinematic link of the rigid and flexible coupling system consisting of rigid elements and spring damping ele?ments was also established. A dynamic model was constructed with Lagrange second order equation in joint coordi?nates system;numerical calculation and analysis were conducted taking into account the laying vessel six DOF kine?matic fluctuations under sea waves. Results show that heave and pitch fluctuations have significant impact on the dy?namic performance of the subsea flex?lay system. Especially as it pertains to rough sea conditions, severe vibration in laying speed and pipe tension force could be induced by kinematic fluctuations. An experimental study on re?duced scale prototype was performed and analogous results obtained. The proposed dynamic model and analytical re?sults can be applied in subsequent driving control system designs.
