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介绍配套了气垫式保真筒的深海天然气水合物采样器的结构及其工作原理,同时为提升气垫式保真筒的保压性能,基于压降模型仿真分析了关键参数(预充压力、气腔长度、筒体长度、筒体内径和筒体壁厚)对采样终了筒内压降的影响。仿真研究结果表明:预充压力、气腔长度和筒体壁厚对气垫式保真筒的保压性能影响较大,且取值越大保压效果越好;筒体长度、筒体内径与筒内压降正相关且对其影响较小;同时综合保真筒的整体性能来讲,提高预充压力和增加气腔长度是提高气垫式保真筒的保压性能可选的有效方式。 相似文献
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A hydraulic power unit(HPU) is the driving "heart" of deep-sea working equipment.It is critical to predict its dynamic performances in deep-water before being immerged in the seawater,while the experimental tests by simulating deep-sea environment have many disadvantages,such as expensive cost,long test cycles,and difficult to achieve low-temperature simulation,which is only used as a supplementary means for confirmatory experiment.This paper proposes a novel theoretical approach based on the linear varying parameters(LVP) modeling to foresee the dynamic performances of the driving unit.Firstly,based on the varying environment features,dynamic expressions of the compressibility and viscosity of hydraulic oil are derived to reveal the fluid performances changing.Secondly,models of hydraulic system and electrical system are accomplished respectively through studying the control process and energy transfer,and then LVP models of the pressure and flow rate control is obtained through the electro-hydraulic models integration.Thirdly,dynamic characteristics of HPU are obtained by the model simulating within bounded closed sets of varying parameters.Finally,the developed HPU is tested in a deep-sea imitating hull,and the experimental results are well consistent with the theoretical analysis outcomes,which clearly declare that the LVP modeling is a rational way to foresee dynamic performances of HPU.The research approach and model analysis results can be applied to the predictions of working properties and product designs for other deep-sea hydraulic pump. 相似文献
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为解决国内现有天然气水合物采样器无法实现大深度保真取样的问题,提出一种配套气垫式保真筒的深海天然气水合物采样器,并以气垫式保真筒的保压特性作为研究重点。在考虑采样过程中样品自身体积膨胀因素的基础上,建立了不含气垫保真筒和气垫式保真筒的数学模型,并通过仿真计算,对不含气垫保真筒和气垫式保真筒的保压特性进行了分析。实验结果表明基于样品自身体积膨胀的不含气垫的保真筒和气垫式保真筒保压特性理论研究是正确的,同时,也表明气垫式保真筒具有良好的保压性能,极具开发价值。 相似文献
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A hydraulic power unit (HPU) is the driving “heart” of deep-sea working equipment. It is critical to predict its dynamic performances in deep-water before being immerged in the seawater, while the experimental tests by simulating deep-sea environment have many disadvantages, such as expensive cost, long test cycles, and difficult to achieve low-temperature simulation, which is only used as a supplementary means for confirmatory experiment. This paper proposes a novel theoretical approach based on the linear varying parameters (LVP) modeling to foresee the dynamic performances of the driving unit. Firstly, based on the varying environment features, dynamic expressions of the compressibility and viscosity of hydraulic oil are derived to reveal the fluid performances changing. Secondly, models of hydraulic system and electrical system are accomplished respectively through studying the control process and energy transfer, and then LVP models of the pressure and flow rate control is obtained through the electro-hydraulic models integration. Thirdly, dynamic characteristics of HPU are obtained by the model simulating within bounded closed sets of varying parameters. Finally, the developed HPU is tested in a deep-sea imitating hull, and the experimental results are well consistent with the theoretical analysis outcomes, which clearly declare that the LVP modeling is a rational way to foresee dynamic performances of HPU. The research approach and model analysis results can be applied to the predictions of working properties and product designs for other deep-sea hydraulic pump. 相似文献
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