基于FLUENT的圆筒形海工平台外部流场数值模拟
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摘要
为了探究浮态制造过程中风和浪的作用下圆筒型海工平台附近流场信息,基于Fluent对风和浪作用下圆筒型海工平台外部流场进行数值模拟。结果表明:由于圆筒型海工平台的阻碍和流体的粘性,平台迎风面一侧表面压强较大,附近液面较高,空气和水流速较慢;平台背风面附液面较平,空气和水流速较小;平台两侧液面较低,但空气和水流速较快;同时在迎风面和背风面均有漩涡存在。研究结果对于圆筒形海工平台制造具有指导意义。
Numerical simulation of the external flow field of the cylindrical offshore platform is carried out based on Fluent to explore the external flow field around the cylindrical offshore platform under the action of wind and wave.The results show that there is a larger pressure on the surface,higher liquid level,and slower velocity of air and water around the windward side of the platform because of the obstruction of the cylinder offshore platform and the viscosity of the fluid.The liquid surface is flat and velocity of air and water is slower around the leeward side.In both sides of the platform,liquid level is lower,but the velocity of air and water is faster.At the same time,there are vortexes near the windward and leeward side.The research results can provide areference basis for the manufacturing of the cylindrical offshore platform.
Numerical simulation of the external flow field of the cylindrical offshore platform is carried out based on Fluent to explore the external flow field around the cylindrical offshore platform under the action of wind and wave.The results show that there is a larger pressure on the surface,higher liquid level,and slower velocity of air and water around the windward side of the platform because of the obstruction of the cylinder offshore platform and the viscosity of the fluid.The liquid surface is flat and velocity of air and water is slower around the leeward side.In both sides of the platform,liquid level is lower,but the velocity of air and water is faster.At the same time,there are vortexes near the windward and leeward side.The research results can provide areference basis for the manufacturing of the cylindrical offshore platform.
引文
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[4]王飞.圆筒型深水钻井储油平台浮态制造的关键问题研究[D].镇江:江苏大学,2013.
[5]江本帅,张永康,王匀,等.大型海洋工程装备的浮态制造方法研究[J].机械设计与制造,2013,51(4):165-167,171.
[6]Alfonsi G.Numerical Simulations of Wave-Induced Flow Fields around Large-Diameter Surface-Piercing Vertical Circular Cylinder[J].Computation,2015,27(3):386-426.
[7]苏甲,蒋武杰,赵强.基于OShip软件的船舶绕流场数值模拟与分析[C].北京:第十三届全国水动力学学术会议暨第二十六届全国水动力学研讨会论文集,2014.
[8]沈翰.巨型圆筒形海工平台浮态超常制造过程的流固耦合分析[D].镇江:江苏大学,2013.
[9]陈刚,吴晓源.深水半潜式钻井平台的设计和建造研究[J].船舶与海洋工程,2012,28(1):9-14.
[10]兰雅梅,郭文华,宋秋红,袁军亭.基于VOF方法的造波、消波技术[J].中国海洋平台,2010,25(1):22-25,31.
[11]董志,詹杰民.基于VOF方法的数值波浪水槽以及造波、消波方法研究[J].水动力学研究与进展(A辑),2009,24(1):15-21.
[12]陶毅涵.基于CFD的规则波中船舶波浪力模型研究[D].大连:大连海事大学,2014.
[13]王健.基于FLUENT的CFD方法在船海工程中的实用性研究[D].大连:大连理工大学,2012.
[14]Canabes J P G.Direct Numerical Simulation of the Flow Past a Curved Circular Cylinder[D].Norwegian University of Science and Technology,2010.
[15]胡坤,李振北.ANSYS ICEM CFD工程实例详解[M].北京:人民邮电出版社,2014.
[16]年继业.基于Fluent的浮船坞抱桩泊碇外力计算研究[D].大连:大连理工大学,2013.
[17]常欣,郭春雨,王超,等.Fluent船舶流体力学仿真工程应用基础[M].哈尔滨:哈尔滨工程大学出版社,2011.
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