期刊文献+

5000m深海采矿扬矿管所受水平液动力分析与计算 被引量:2

Analysis and Calculation of the Horizontal Hydrodynamic Force of Lifting Pipe in 5000 Meters′ mining system
原文传递
导出
摘要 大洋多金属结核深海采矿扬矿管所受水平液动力不仅受系统参数、海浪和海流的速度和加速度的影响,而且还随着时间和水深等因素而变化。分析了海浪水质点的速度和加速度与深度的关系,并根据Morison方程详细推导了液动力的修正方程,得出了液动力随时间和深度的变化曲线。在同一水深处,总液动力随时间的变化规律接近于余弦曲线,而在同一时刻,总液动力从海面至水深200m内迅速递减至67.54N,其最大值为32084.45N。为整体方案的可行性分析以及扬矿系统的设计和校核提供依据。 The horizontal hydrodynamic force of deep sea liftingpipe in the system of Polymetallic nodule is influenced not only by systemic parameters, velocity and acceleration of wave and current, but also by time and the depth below ocean surface. The relationship between velocity of water particle and the depth, as well as the relationship between the acceleration and the depth, is analyzed in the paper. Furthermore, the modified equation is deduced in detail according to Morison equation and the hydrodynamic force as a function of time and depth below ocean surface is calculated. At the same depth below ocean surface, the total hydrodynamic force is varied with increasing of time as a function of sine. While at the specified time, the total hydrodynamic force decreased fastly to 67.54N from the ocean surface to 200 meters below the surface. And the maximum of hydrodynamic force is 32084. 45N. The conclusions would be useful for the feasibility analysis of the entire scheme, the design and the check analysis of lifting system.
出处 《冶金设备》 2005年第5期5-9,共5页 Metallurgical Equipment
基金 国家长远发展专项 国际海底区域研究开发"十五"项目DY105-03-02-17
关键词 液动力 扬矿管拖曳力 惯性力 Morison方程 Hydrodynamic force Lifting pipe Inertia force Drag force Mofison equation
  • 相关文献

参考文献5

二级参考文献6

  • 1麻生和夫(日) 管胜重 等.下端装有缓冲器的阶梯式扬矿管的动力特性--锰结核采矿用的扬矿管特性[J].日本矿业会志,1998,(7):249-263.
  • 2Bath A R. Deep ocean mining technology: development and future prjects.Proceodings of 21st annual offshore technohgy conference, 1989.
  • 3Felippa C A, Chung J S.Nonlinear static analysis ocean mining pipe——part I: modeling and formulation.ASME Journal of Energy Resources Technology, 1981, 103: 11 - 15.
  • 4Chung J S.Felippa C A.Nonlinear static analysis ocean mining pipe——part Ⅱ: Numerical studies.ASME Journal of Energy Resources Technology,1981,103:16-25.
  • 5金翔龙.东太平洋多金属结核矿带海洋地址与矿床性[M].北京:海洋出版社,1997..
  • 6肖林京.深海采矿扬矿管运动学和动力学特性研究[M].北京:北京科技大学,2000..

共引文献26

同被引文献15

  • 1徐海良,何清华.海洋采矿输送管道运动阻力分析[J].矿冶工程,2004,24(5):9-12. 被引量:2
  • 2朱克强,李维扬.海洋波浪、流激励下的隔水管管线动力稳定性[J].华东船舶工业学院学报,1997,11(1):1-8. 被引量:6
  • 3Olve Sunde Rasmussen,Sigbjorn Sangesland.Compensation of surge and swab pressures in floating drilling operations[J].Journal of Petroleum Technology,2008,60(2):52-54.
  • 4甘丰录.尽快实现深水钻井装备国产化[N].中国船舶报,2010-06-11.
  • 5Korde U A.Active heave compensation on drill-ships in irregular waves[J].Ocean Engineering,1998,25(7):541-561.
  • 6Apostal M C,Haduch G A,Williams J B.A study To determine the effect of damping on Finitelement-Based,Forced-Frequency-Response models for bottomhole assembly vibration analysis[C] //SPE Annual Technical Conference and Exhibition,New Orleans,1990,15564.
  • 7Aarrestad T V,Tonnesen H A,Kyllingstad A.Drillstring vibrations:comparison between theory and experiments on a full scale research drilling rig[C] //IADC/SPE Drilling Conference,Houston,1986,SPE 14760.
  • 8龚曙光,黄云清.有限元分析与ANSYSAPDL编程及高级应用[M].国防工业出版社,北京,2009.
  • 9高本金,陈国明,殷志明,刘书杰.深水无隔水管钻井液回收钻井技术[J].石油钻采工艺,2009,31(2):44-47. 被引量:37
  • 10郭小刚,张立人,金星,肖曙曦.深海采矿流-固耦合软管系统的非线性动力学模型[J].工程力学,2000,17(3):93-104. 被引量:11

引证文献2

二级引证文献3

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部