船舶力学
船舶力學
선박역학
JOURNAL OF SHIP MECHANICS
2010年
6期
606-618
,共13页
钻井隔水管%深水%船体运动%非线性动力
鑽井隔水管%深水%船體運動%非線性動力
찬정격수관%심수%선체운동%비선성동력
drilling riser%deepwater%vessel motion%nonlinear dynamics response
文章建立了波浪、海流和船体运动等载荷综合作用下的深水钻井隔水管非线性时域动力响应模型,模型考虑了顶部张力和隔水管内部泥浆对隔水管动力响应的影响,计人了张力沿隔水管长度的变化,并采用有限差分法求解了四阶偏微分运动方程.计算了随机波浪和规则波浪下船体运动对深水钻井隔水管非线性动力响应的影响,研究分析了船体平均偏移以及波频响应和低频响应的周期和幅值对深水钻井隔水管动力响应的影响.结果表明,船体运动对深水钻井隔水管动力响应有较大的影响,在随机波浪和海流作用下,考虑船体运动时,隔水管上部最大弯矩增大了59%.船体的平均偏移主要影响底部最大弯矩.船体波频运动对上部最大弯矩有较大影响,随着波频响应的周期和幅值的变化,上部最大弯矩变化较快,而低频响应的则主要影响隔水管上部弯矩.
文章建立瞭波浪、海流和船體運動等載荷綜閤作用下的深水鑽井隔水管非線性時域動力響應模型,模型攷慮瞭頂部張力和隔水管內部泥漿對隔水管動力響應的影響,計人瞭張力沿隔水管長度的變化,併採用有限差分法求解瞭四階偏微分運動方程.計算瞭隨機波浪和規則波浪下船體運動對深水鑽井隔水管非線性動力響應的影響,研究分析瞭船體平均偏移以及波頻響應和低頻響應的週期和幅值對深水鑽井隔水管動力響應的影響.結果錶明,船體運動對深水鑽井隔水管動力響應有較大的影響,在隨機波浪和海流作用下,攷慮船體運動時,隔水管上部最大彎矩增大瞭59%.船體的平均偏移主要影響底部最大彎矩.船體波頻運動對上部最大彎矩有較大影響,隨著波頻響應的週期和幅值的變化,上部最大彎矩變化較快,而低頻響應的則主要影響隔水管上部彎矩.
문장건립료파랑、해류화선체운동등재하종합작용하적심수찬정격수관비선성시역동력향응모형,모형고필료정부장력화격수관내부니장대격수관동력향응적영향,계인료장력연격수관장도적변화,병채용유한차분법구해료사계편미분운동방정.계산료수궤파랑화규칙파랑하선체운동대심수찬정격수관비선성동력향응적영향,연구분석료선체평균편이이급파빈향응화저빈향응적주기화폭치대심수찬정격수관동력향응적영향.결과표명,선체운동대심수찬정격수관동력향응유교대적영향,재수궤파랑화해류작용하,고필선체운동시,격수관상부최대만구증대료59%.선체적평균편이주요영향저부최대만구.선체파빈운동대상부최대만구유교대영향,수착파빈향응적주기화폭치적변화,상부최대만구변화교쾌,이저빈향응적칙주요영향격수관상부만구.
A time domain computer model for deepwater drilling riser subjected to waves,ocean currents and vessel motion was developed in this paper.The vessel motions effects on the dynamic response of deepwater riser are investigated,including mean offsets,wave frequency motions,low frequency motions,period and amplitude of the motion.The results show that vessel motion has an important effect on the dynamic response of deepwater riser,and lead to an increase of upper maximum bending moment by 59% compared to the case without vessel motion,under random waves and current.The mean vessel offset has main effect on lower maximum bending moment.Wave frequency motion has notable effect on the upper maximum bending moment of the drilling riser,and changed sharply with amplitude or period of the wave frequency motion decreasing.Low frequency motion mainly affects the upper maximum bending moment of the drilling riser.
