基于正弦转速调制的离心旋转血泵温度场分析

王楚晨; 黄峰

基于正弦转速调制的离心旋转血泵温度场分析

王楚晨¹,
黄峰^1,2,

1. 中国计量大学计量测试工程学院;
2. 浙江大学流体动力与机电系统国家重点实验室

基金项目:

浙江省自然科学基金资助项目(LY20E050013)

国家自然科学基金青年基金资助项目(51505455)

流体动力与机电系统国家重点实验室开放基金资助项目(GZKF-201713)

详细信息

作者简介:
王楚晨(1996—),女,内蒙古呼和浩特人,硕士研究生(905312256@qq.com),主要从事旋转血泵研究

通讯作者:
黄峰(1986—),男,浙江台州人,博士(hf@cjlu.edu.cn),主要从事旋转血泵研究

中图分类号: TH77
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出版历程
- 收稿日期: 2020-08-09
- 刊出日期: 2022-05-27

Temperature field analysis of centrifugal rotary blood pump based on sinusoidal speed modulation

WANG Chu-chen¹,
HUANG Feng^1,2,

1. College of Metrology & Measurement Engineering, China Jiliang University;
2. State Key Laboratory of Fluid Power and Mechatronic Systems, Zhejiang University

摘要

摘要: 为研究转速调制引起的血泵内部流场温度变化是否会导致血液损伤，应用计算流体动力学方法对旋转血泵运行时的全流道流动过程进行数值模拟.计算中采用动态压力拟合公式作为进出口边界条件，选择在换热领域精确度更高的SST湍流模型.计算叶轮分别在匀转速状态和正弦调制转速状态下不同时刻的温度分布、温度升高到39～43℃时的潜在高温风险区域以及大于43℃时的极端高温风险区域在血泵中的位置分布和各区域的体积大小，同时结合血泵结构对比分析其内部的动态温升变化情况.研究结果表明：血泵流场在正弦调制转速时的温升高于匀转速状态下的流场，并产生高温风险区域；温升与血泵的叶轮结构密切相关，高温集中在靠近下泵壳的叶轮前缘和内侧；2种转速工况对血泵进出口处的血液温度影响均在2℃的安全浮动范围内，不会对血泵外部的血液造成损伤.
- 离心旋转血泵 /
- 转速调制 /
- 血液临界损伤 /
- 计算流体动力学 /
- 温度场分析
Abstract: In order to study whether the temperature change of the internal flow field in the blood pump under sinusoidal speed modulation will cause blood damage, computational fluid dynamics method was used to simulate the whole dynamic flow process of the blood pump. The inlet and outlet dynamic pressure fitting formula were adopted as boundary conditions. The shear stress transport（SST） turbulence model with higher accuracy in the heat transfer field was selected for numerical simulation. The tempe-rature distribution contour of the impeller at different time under constant and sinusoidal speeds were obtained. The distribution of the potential risk area with temperature reaching 39-43 ℃ and the risk area with temperature greater than 43 ℃ in the blood pump were obtained. In addition, the volume of each area were calculated. At the same time, the dynamic temperature rise inside the blood pump was compared and analyzed combined with the blood pump′s structure. The results show that the temperature rise inside the blood pump under the sinusoidal speed modulation is higher than that under the constant speed mode, and a high-temperature risk region is generated. The temperature rise is closely related to the impeller′s structure of the blood pump, and the high temperature is concentrated at the front edge and inner sides of the impeller near the lower pump housing. The blood temperature rise at the inlet and outlet under both conditions within the safe range of 2 ℃, which will not cause damage to the blood outside the blood pump.
- centrifugal rotary blood pump /
- speed modulation /
- critical injury of blood /
- computational fluid dynamics /
- temperature field analysis

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参考文献(18)

[1]	李珊珊,王如兴.接头蛋白Sorbs 家族在心血管疾病中作用的研究进展[J].江苏大学学报(医学版),2020,30(5):455-460.LI Shanshan,WANG Ruxing.Research progress on the role of the Sorbs family of junction proteins in cardiovascular diseases[J].Journal of Jiangsu University(medicine edition),2020,30(5):455-460.(in Chinese)
[2]	季伟敏,唐士敏,何俊德,等.心血管病早期筛查的人工智能技术应用[J].实用心电学杂志,2021,30(2) :89-92,103.JI Weimin,TANG Shimin,HE Junde,et al.Applica-tion of artificial intelligence technology in early screening of cardiovascular diseases[J].Journal of practical electrocardiology,2021,30(2) :89-92,103.(in Chinese)
[3]	MALLIDI H R,ANAND J,COHN W E.State of the art of mechanical circulatory support [J].Texas Heart Institute journal,2014,41(2):115-120.
[4]	KIRKLIN J K,NAFTEL D C,PAGANI F D,et al.Sixth intermacs annual report:a 10 000-patient data-base [J].Journal of heart and lung transplantation,2014,33(6):555-564.
[5]	周冰晶,张桂杰,荆腾,等.心衰脉动过程两级轴流血泵溶血数值模拟[J].排灌机械工程学报,2018,36(1):28-34.ZHOU Bingjing,ZHANG Guijie,JING Teng,et al.Numerical simulation on hemolysis induced by two-stage axial-flow blood pump during pulsating heart failure[J].Journal of drainage and irrigation machinery enginee-ring,2018,36(1):28-34.(in Chinese)
[6]	CHEN Zengsheng,JENA S K,GIRIDHARAN G A,et al.Shear stress and blood trauma under constant and pulse-modulated speed CF-VAD operations:CFD analysis of the HVAD[J].Medical & biological engineering & computing,2019,57:807-818.
[7]	SOUCY K G,GIRIDHARAN G A,CHOI Y,et al.Rotary pump speed modulation for generating pulsatile flow and phasic left ventricular volume unloading in a bovine model of chronic ischemic heart failure[J].Heart lung transplant,2015,34(1):122-131.
[8]	ZIMPFER D,STRUEBER M,AIGNER P,et al.Eva-luation of the HeartWare ventricular assist device Lavare cycle in a particle image velocimetry model and in clinical practice[J].European journal of cardio-thoracic surgery,2016,50(5):839-848.
[9]	云忠,谭建平.基于血液剪切损伤机理的高速螺旋血泵仿真分析[J].中山大学学报(自然科学版),2008,47(1):47-50.YUN Zhong,TAN Jianping.Simulation analysis of the high-speed spiral blood pump based on the shear injure principle of blood[J].Acta scientiarum naturalium Universitatis Sunyatseni,2008,47(1):47-50.(in Chinese)
[10]	徐胜春,范恩勇.不同时间及温度保存血液对红细胞功能的影响研究[J].国际检验医学杂志,2016,37(21):3069-3071.XU Shengchun,FAN Enyong.Study on the effect of blood preservation on red blood cell function at different time and temperature[J].International journal of laboratory medicine,2016,37(21):3069-3071.(in Chinese)
[11]	杨帆,云忠,胡及雨.轴流式血泵轴承基于血液损伤的温度场分析[J].中国医学物理学杂志,2019,36(8):968-973.YANG Fan,YUN Zhong,HU Jiyu.Blood damage-based temperature field analysis of axial flow blood pump bea-ring[J].Chinese journal of medical physics,2019,36(8):968-973.(in Chinese)
[12]	胡及雨,云忠,向闯,等.轴流血泵电机温度场分析及其对血液和组织的损伤[J].中国医学物理学杂志,2017,34(12):1254-1260.HU Jiyu,YUN Zhong,XIANG Chuang,et al.Temperature field analysis of axial blood pump motor and its damage to blood and tissue[J].Chinese journal of medical physics,2017,34(12):1254-1260.(in Chinese)
[13]	沈朋.离心式血泵内部流场数值模拟及血损研究[D].哈尔滨:哈尔滨理工大学,2017.
[14]	朱卓玲,赵伟国,黄峰.基于BP神经网络的旋转血泵生理控制[J].中国生物医学工程学报,2019,38(5):581-589.ZHU Zhuoling,ZHAO Weiguo,HUANG Feng.Physiological control of rotary blood pumps based on BP neural network[J].Chinese journal of biomedical engineering,2019,38(5):581-589.(in Chinese)
[15]	吴正洁.温度对人红细胞及血红蛋白结构功能的影响[D].广州:暨南大学,2007.
[16]	罗纪盛,左大珏,孙雪琴,等.高温对人红细胞的影响[J].华东师范大学学报(自然科学版),1988(3):105-112.LUO Jisheng,ZUO Dajue,SUN Xueqin,et al.The effect of hyperthermia on human erythrocyte[J].Journal of East China Normal University (natural science),1988(3):105-112.(in Chinese)
[17]	GARDINER J M,WU J,NOH M D,et al.Thermal analysis of the pediaflow pediatric ventricular assist device[J].ASAIO journal,2007,53(1):65-73.
[18]	郭龙辉,张杰民,赵龙,等.一种新型可植入式磁悬浮离心血泵的温度场分析[J].生物医学工程研究,2010,29(3):152-155.GUO Longhui,ZHANG Jiemin,ZHAO Long,et al.Thermal analysis of a new implantable magnetic levitation blood pump[J].Journal of biomedical engineering research,2010,29(3):152-155.(in Chinese)

施引文献(3)

期刊类型引用(2)

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2.	喻哲钦，王杰，王帅，许焰，谭建平. 血液流体设备高剪切应力内流特性与能量熵产损失. 中国医学物理学杂志. 2023(10): 1295-1301 . 百度学术