上海船舶运输科学研究所学报
上海船舶運輸科學研究所學報
상해선박운수과학연구소학보
JOURNAL OF SHANGHAI SCIENTIFIC RESEARCH INSTITUTE OF SHIPPING
2011年
1期
15-20,51
,共7页
伍锐%季盛%沈浩%郭永崧%陈洋
伍銳%季盛%瀋浩%郭永崧%陳洋
오예%계성%침호%곽영숭%진양
螺旋桨%激振力%空泡%脉动压力%伴流
螺鏇槳%激振力%空泡%脈動壓力%伴流
라선장%격진력%공포%맥동압력%반류
propeller%excitation force%cavitation%pressure fluctuation%wake
研究了螺旋桨诱导的船体表面脉动压力试验预报值随空气含量变化的规律及螺旋桨模型空泡形态随含气量变化的规律,并与实桨空泡对比分析;探索了脉动压力试验预报与实桨测量值最接近的空气含量控制准则;比较了螺旋桨模型在船模伴流场和修正后的伴流场中工作时,螺旋桨诱导的船体表面脉动压力预报值及螺旋桨模型空泡形态,与实船测量观察结果进行对比,并就伴流场修正对螺旋桨诱导的船体表面脉动压力试验预报的影响作了探讨;研究了螺旋桨诱导的船体表面脉动压力的预报值随桨模试验转速变化的规律。
研究瞭螺鏇槳誘導的船體錶麵脈動壓力試驗預報值隨空氣含量變化的規律及螺鏇槳模型空泡形態隨含氣量變化的規律,併與實槳空泡對比分析;探索瞭脈動壓力試驗預報與實槳測量值最接近的空氣含量控製準則;比較瞭螺鏇槳模型在船模伴流場和脩正後的伴流場中工作時,螺鏇槳誘導的船體錶麵脈動壓力預報值及螺鏇槳模型空泡形態,與實船測量觀察結果進行對比,併就伴流場脩正對螺鏇槳誘導的船體錶麵脈動壓力試驗預報的影響作瞭探討;研究瞭螺鏇槳誘導的船體錶麵脈動壓力的預報值隨槳模試驗轉速變化的規律。
연구료라선장유도적선체표면맥동압력시험예보치수공기함량변화적규률급라선장모형공포형태수함기량변화적규률,병여실장공포대비분석;탐색료맥동압력시험예보여실장측량치최접근적공기함량공제준칙;비교료라선장모형재선모반류장화수정후적반류장중공작시,라선장유도적선체표면맥동압력예보치급라선장모형공포형태,여실선측량관찰결과진행대비,병취반류장수정대라선장유도적선체표면맥동압력시험예보적영향작료탐토;연구료라선장유도적선체표면맥동압력적예보치수장모시험전속변화적규률。
To improve Lab prediction of propeller induced pressure fluctuation, three of the main influence factors are studied in the SSSRI cavitation tunnel. The law of variation of propeller-induced ship hull pressure fluctuation due to different tunnel gas contents is studied. The law of propeller model cavitation pattern variation is also observed at different gas contents, compared with that of its corresponding full-scale propeller. The norm of tunnel gas content is explored to fit the experimental prediction with its corresponding full scale test. Then, the experimental prediction of propeller-induced ship hull pressure fluctuation and cavitation pattern in ship model wake was compared with that in amended wake by HOEKSTRA method, comparative analysis to the full scale propeller is also given, The influence of amendment of the wake field is explored for experimental prediction of the propeller-induced ship hull pressure fluctuation. Finally, the law of experimental prediction variation of propeller-induced ship hull pressure fluctuation due to different model rotate-speed is studied.