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不同构形扬矿软管的流固耦合模态分析 被引量:2

Analysis of Fluid-Solid Coupling Model for a Lifting Hose with Difference Configuration
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摘要 以1 000 m水深处100 m长扬矿软管为研究对象,以集矿机在作业范围中间点处形成的软管构形为参考构形,基于有限元理论,建立了两端为固定约束的软管在内流和外流共同作用下的流固耦合模型,研究了内流密度、内流粘度、软管直径及弹性模量对单拱和双拱2种不同构形软管流固耦合振动频率及振型特性的影响。结果表明,双拱构形软管的湿模态前六阶频率小于单拱构形软管;随着内流密度增加,2种构形软管固有频率缓慢降低;随着软管弹性模量和软管直径增加,软管的固有频率明显提高;内流粘度改变对软管固有频率影响较小,可忽略不计;内流密度、内流粘度、软管直径及弹性模量改变时,单拱和双拱2种不同构形软管的振型不发生变化。 With a 100 m length lifting hose at 1000 m depth below sea-level as the research subject and the hose configuration of the mining collector formed at the middle point of the operation range taken as the reference configuration,a fluid-solid coupling model was established based on the finite element theory for hoses with both ends fixed under a combined action of internal and external flow. The effects of internal flow density,intrinsic viscosity,hose diameter,and elastic modulus on the fluid-solid interaction frequency and formation characteristics of both single-arch hose and double-arch hose were studied. The results showed that the frequency of the first six orders of the double-arch hose in wet mode was lower than that of the single-arch hose. With the increase of internal flow density,the natural frequencies of tubes with two configurations decreased slowly. While with the increase of the elastic modulus and the diameter of the hose,the natural frequency of the hose increased significantly. However,the changes of the internal flow viscosity had little influence on the natural frequency of the hose,which could even be ignored. The changes of the internal flow density,inflow viscosity,inner and outer diameter of the hose,as well as elastic modulus had no impact on the vibration mode of both types of hoses.
作者 邓旭辉 郭浍良 史浩浩 郭小刚 金星 DENG Xu-hui;GUO Hui-liang;SHI Hao-hao;GUO Xiao-gang;JIN Xing(College of Civil Engineering and Mechanics,Xiangtan University,Xiangtan 411105,Hunan,China;State Key Laboratory of Exploitation and Utilization of Deep Sea Mineral Resources,Changsha 410012,Hunan,China)
出处 《矿冶工程》 CAS CSCD 北大核心 2018年第6期6-11,共6页 Mining and Metallurgical Engineering
基金 国家自然科学基金重点项目(51434002)
关键词 管道输送 深海采矿 扬矿软管 湿模态 振型特性 流固耦合 pipeline transportation deep-sea mining lifting hose wet mode characteristics of vibration fluid-solid coupling
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