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
10期
1209-1213,1260
,共6页
段文洋%王瑞锋%马山%陈云赛
段文洋%王瑞鋒%馬山%陳雲賽
단문양%왕서봉%마산%진운새
甲板上浪%模型试验%相对运动%冲击压力%规则波
甲闆上浪%模型試驗%相對運動%遲擊壓力%規則波
갑판상랑%모형시험%상대운동%충격압력%규칙파
green water%ship model tests%relative motion%impact pressure%regular waves
为研究船舶甲板上浪冲击压力的特点和规律,针对ITTC国际标准船模S-175进行了水池试验。模型试验采用自航模方式,同步测量了波浪参数、船舶运动、上浪高度、上浪冲击压力等时间历程数据。采用高频率、大量程压力传感器通过改变浪高、浪向、航速、船舶艏部外飘来分析这些因素对船舶甲板上浪的影响。试验结果表明:增大船舶艏部外飘对减缓船舶甲板上浪的作用不是非常显著,在较高海情下还会加剧上浪;试验在国际上首次测到翻卷砰击上浪压力,数据显示翻卷状波浪直接冲击甲板所产生的瞬时砰击压力对甲板的破坏性远远大于波浪涌上甲板,应得到更多重视。
為研究船舶甲闆上浪遲擊壓力的特點和規律,針對ITTC國際標準船模S-175進行瞭水池試驗。模型試驗採用自航模方式,同步測量瞭波浪參數、船舶運動、上浪高度、上浪遲擊壓力等時間歷程數據。採用高頻率、大量程壓力傳感器通過改變浪高、浪嚮、航速、船舶艏部外飄來分析這些因素對船舶甲闆上浪的影響。試驗結果錶明:增大船舶艏部外飄對減緩船舶甲闆上浪的作用不是非常顯著,在較高海情下還會加劇上浪;試驗在國際上首次測到翻捲砰擊上浪壓力,數據顯示翻捲狀波浪直接遲擊甲闆所產生的瞬時砰擊壓力對甲闆的破壞性遠遠大于波浪湧上甲闆,應得到更多重視。
위연구선박갑판상랑충격압력적특점화규률,침대ITTC국제표준선모S-175진행료수지시험。모형시험채용자항모방식,동보측량료파랑삼수、선박운동、상랑고도、상랑충격압력등시간역정수거。채용고빈솔、대량정압력전감기통과개변랑고、랑향、항속、선박수부외표래분석저사인소대선박갑판상랑적영향。시험결과표명:증대선박수부외표대감완선박갑판상랑적작용불시비상현저,재교고해정하환회가극상랑;시험재국제상수차측도번권팽격상랑압력,수거현시번권상파랑직접충격갑판소산생적순시팽격압력대갑판적파배성원원대우파랑용상갑판,응득도경다중시。
In order to study the characteristics and law of green water impact pressure of ship, a water tank experi-ment was carried out for the ITTC international standard containership model S-175. In the model test, the self-pro-pulsion ship model was utilized. The wave elevation, ship motions, wave height of green water, the impact pressure on the deck were synchronously measured during the model test. During the experiment, the green water phenome-non was analyzed by using the measured data through parameter variation of a series of factors including incident wave height, wave headings, ship speed and the bow shapes. It was shown by model testing that the effectiveness was limited in reducing the impact loads from deck green water by increasing the flare of the ship's bow. On the contrary, the phenomena of green water could get intensified in a high sea state. In the model test, the impact pres-sure from rolling waves of green water was observed internationally for the first time. The measured data shows that the slamming pressure by the direct impact of rolling waves on deck is far seriously destructive, in comparison with the impact loads induced by the deck swell of green water. The impact of rolling waves on the deck requires further study.