中国造船
中國造船
중국조선
SHIPBUILDING OF CHINA
2014年
1期
11-18
,共8页
邓辉%张志宏%顾建农%刘巨斌
鄧輝%張誌宏%顧建農%劉巨斌
산휘%장지굉%고건농%류거빈
浅水%亚临界航速%船舶%水压场%有限差分法%非线性效应
淺水%亞臨界航速%船舶%水壓場%有限差分法%非線性效應
천수%아림계항속%선박%수압장%유한차분법%비선성효응
shallow water%subcritical speed%ship%hydrodynamic pressure field%finite difference method%nonlinear effects
基于浅水波动势流理论和薄船假定,建立了考虑非线性效应和色散效应影响的浅水船舶水压场理论模型。采用有限差分方法对浅水亚临界航速船舶水压场进行了数值计算,为了保证非线性方程计算过程的稳定性,在船体和上下游边界条件中添加了人工粘性项,通过与试验结果比对,验证了所建立的船舶水压场理论模型和计算方法的准确性,并分析了不同航道宽度、不同水深及不同水深弗劳德数下非线性效应对船舶水压场的影响。结果表明,航道宽度越窄,水深越浅,非线性效应对船舶水压场影响越大,而当船舶以近临界速度在不同宽度的航道内航行时,非线性效应的影响均不容忽视。
基于淺水波動勢流理論和薄船假定,建立瞭攷慮非線性效應和色散效應影響的淺水船舶水壓場理論模型。採用有限差分方法對淺水亞臨界航速船舶水壓場進行瞭數值計算,為瞭保證非線性方程計算過程的穩定性,在船體和上下遊邊界條件中添加瞭人工粘性項,通過與試驗結果比對,驗證瞭所建立的船舶水壓場理論模型和計算方法的準確性,併分析瞭不同航道寬度、不同水深及不同水深弗勞德數下非線性效應對船舶水壓場的影響。結果錶明,航道寬度越窄,水深越淺,非線性效應對船舶水壓場影響越大,而噹船舶以近臨界速度在不同寬度的航道內航行時,非線性效應的影響均不容忽視。
기우천수파동세류이론화박선가정,건립료고필비선성효응화색산효응영향적천수선박수압장이론모형。채용유한차분방법대천수아림계항속선박수압장진행료수치계산,위료보증비선성방정계산과정적은정성,재선체화상하유변계조건중첨가료인공점성항,통과여시험결과비대,험증료소건립적선박수압장이론모형화계산방법적준학성,병분석료불동항도관도、불동수심급불동수심불로덕수하비선성효응대선박수압장적영향。결과표명,항도관도월착,수심월천,비선성효응대선박수압장영향월대,이당선박이근림계속도재불동관도적항도내항행시,비선성효응적영향균불용홀시。
Based on the shallow water wave potential flow theory and the slender ship assumption, a mathematical model for pressure field considering nonlinear effects and the dispersive effects induced by ship motion at subcritical speed in shallow water was established. The pressure field was calculated by using finite difference method. In order to overcome the instability of the nonlinear equation, artificial viscous effects were added in radiation condition and ship boundary conditions. Computation results were compared with experimental results, by which both the mathematical model and calculation method were validated. The nonlinear effects on the ship hydrodynamic pressure field in different width of channel, different depth water and Froude numbers at different depth were analyzed. The results show that the nonlinear effects on the hydrodynamic pressure field became greater, with the width and the depth getting narrow and shallow respectively. If a ship is moving at near-critical speed, then the nonlinear effects must be considered in any channel.
