基于3D打印和CT三维重构数值模拟上呼吸道气流状态的研究方法
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中央高校基本科研业务费专项基金(17lgjc41)


Research Method for Numerical Simulation on Upper Respiratory Tract Airway State Based on 3D Printing and CT Reconstruction
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    摘要:

    目的 建立物理模型实验和数值模拟相结合的方法,用于研究上呼吸道气流状态。方法 基于网上公开CT医学图像,重建人体上呼吸道三维模型。基于3D打印技术,建立上呼吸道实验模型,进行呼吸的流量过程测量实验;通过对上呼吸道三维模型进行网格划分,采用湍流Realizable k-ε数值模型进行计算。结果 首先进行与实验工况对应的数值模拟对比研究,得到与实验吻合的结果。数值模拟结果表明,呼吸过程中的气流的流动轨迹呈抛物线形状,呼气和吸气阶段的流场、壁面压力和涡结构分布很大区别,呼吸交换过程中上下鼻道有空气残留。另外,通过脉线、压力分布和涡结构分布情况,初步分析气流对上呼吸道生理环境的影响。结论 该方法具有针对性、快速性和准确性的特点,充分发挥了物理实验可靠和数值模拟精细的优点,适用于不同个案上呼吸道不同问题的研究,对临床个性化诊疗具有价值。

    Abstract:

    Objective To establish a comprehensive method combining physical model experiment and numerical simulation for studying airflow state of upper respiratory tract. Methods Based on CT medical images published online, a three-dimensional (3D) model of human upper respiratory tract was reconstructed. Based on 3D printing technology, an experimental model of the upper respiratory tract was established and the flow process of respiration was measured. A numerical simulation model was created based on the meshing of upper respiratory tract model and the turbulent Realizable k-ε model. Results Firstly, the result of numerical simulation was compared with the experimental conditions, and good agreement was achieved. The numerical simulation results showed that the airflow in respiratory process was in a parabolic shape; the distribution of flow field, pressure on wall and vortex structure were different between inspiratory and expiratory phases; there were air residues in the upper and lower nasal passages during the respiratory exchange process. In addition, the effects of airflow on physiological environment of the upper respiratory tract were preliminarily analyzed through the steak line, pressure field and vortex structure distribution. Conclusions The method proposed in this paper has the characteristics of pertinence, rapidity and accuracy, which gives full play to the advantages of reliable physical experiments and fine numerical simulation, and is applicable for studying different problems of the upper respiratory tract in different cases, with a high value for personalized diagnosis and treatment in clinic.

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喜扬洋,詹杰民,史剑波,林凯,胡文清,邓洁.基于3D打印和CT三维重构数值模拟上呼吸道气流状态的研究方法[J].医用生物力学,2020,35(3):289-295

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  • 收稿日期:2019-04-16
  • 最后修改日期:2019-05-31
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  • 在线发布日期: 2020-06-24
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