轴流泵内部流场的二维粒子成像测速试验

为研究0.8Qopt工况下,叶轮及导叶进出口的流场分布情况,选择比转速ns=700的轴流泵进行模型缩放,并对其进行结构改造,以得到能够适合于2D-PIV内部流场测试的试验台。结构改造包括：采用透明的有机玻璃材料代替传统金属材料,达到内部可视化的目的;将传统的锥形扩散式导叶体设计成圆柱状,以减小光学折射的复杂程度;合并转轮室及导叶外筒壁,使之成为一个整体,以消除叶轮区域与导叶区域之间法兰对内部流场的遮挡;将导叶内轴承后移,并加装筋板,使得载荷能够顺利传递到基础中。综合以上手段,成功改造了试验泵段。在PIV试验过程中,利用轴编码器及同步装置,取得了很好的同步效果。同时,以有机玻璃空心球作为示踪粒子...

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Published in	农业工程学报 Vol. 29; no. 23; pp. 93 - 98
Main Author	张华施卫东陈斌张德胜胡啟祥
Format	Journal Article
Language	Chinese
Published	江苏大学流体机械工程技术研究中心,镇江,212013%合肥工业大学化工机械研究所,合肥,230009 2013
Subjects	PIV 叶顶泄漏小流量泵泵段改造流场试验轴向漩涡轴流泵轴流泵 transformation of pump section 试验轴向漩涡 pumps tip leakage 泵段改造流场 experiment 泵 low flow condition axial vortex axial flow pump 小流量 flow field PIV 叶顶泄漏
Online Access	Get full text
ISSN	1002-6819
DOI	10.3969/j.issn.1002-6819.2013.23.013

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Abstract	为研究0.8Qopt工况下,叶轮及导叶进出口的流场分布情况,选择比转速ns=700的轴流泵进行模型缩放,并对其进行结构改造,以得到能够适合于2D-PIV内部流场测试的试验台。结构改造包括：采用透明的有机玻璃材料代替传统金属材料,达到内部可视化的目的;将传统的锥形扩散式导叶体设计成圆柱状,以减小光学折射的复杂程度;合并转轮室及导叶外筒壁,使之成为一个整体,以消除叶轮区域与导叶区域之间法兰对内部流场的遮挡;将导叶内轴承后移,并加装筋板,使得载荷能够顺利传递到基础中。综合以上手段,成功改造了试验泵段。在PIV试验过程中,利用轴编码器及同步装置,取得了很好的同步效果。同时,以有机玻璃空心球作为示踪粒子,配合新的标定方式,取得了理想的试验效果。从试验结果分析可知：在0.8Qopt流量下,叶轮进口边外缘处受叶顶泄漏影响,使得该处来流向轮毂侧偏转,但叶轮进口前端截面上的流场整体分布较为均匀;叶轮轮毂与导叶轮毂之间存在的顺时针方向漩涡,对叶轮出口边根部附近的流场造成较大的影响,且叶轮出口边与导叶进口边轴向间隙内的流场具有整体向外缘偏转的趋势;导叶出口以后的流线方向则向轮毂侧偏转,且在出口边外缘处出现局部高速区域。
AbstractList	TH312; 为研究0.8Qopt工况下，叶轮及导叶进出口的流场分布情况，选择比转速ns=700的轴流泵进行模型缩放，并对其进行结构改造，以得到能够适合于2D-PIV 内部流场测试的试验台。结构改造包括：采用透明的有机玻璃材料代替传统金属材料，达到内部可视化的目的；将传统的锥形扩散式导叶体设计成圆柱状，以减小光学折射的复杂程度；合并转轮室及导叶外筒壁，使之成为一个整体，以消除叶轮区域与导叶区域之间法兰对内部流场的遮挡；将导叶内轴承后移，并加装筋板，使得载荷能够顺利传递到基础中。综合以上手段，成功改造了试验泵段。在PIV试验过程中，利用轴编码器及同步装置，取得了很好的同步效果。同时，以有机玻璃空心球作为示踪粒子，配合新的标定方式，取得了理想的试验效果。从试验结果分析可知：在0.8Qopt流量下，叶轮进口边外缘处受叶顶泄漏影响，使得该处来流向轮毂侧偏转，但叶轮进口前端截面上的流场整体分布较为均匀；叶轮轮毂与导叶轮毂之间存在的顺时针方向漩涡，对叶轮出口边根部附近的流场造成较大的影响，且叶轮出口边与导叶进口边轴向间隙内的流场具有整体向外缘偏转的趋势；导叶出口以后的流线方向则向轮毂侧偏转，且在出口边外缘处出现局部高速区域。为研究0.8Qopt工况下,叶轮及导叶进出口的流场分布情况,选择比转速ns=700的轴流泵进行模型缩放,并对其进行结构改造,以得到能够适合于2D-PIV内部流场测试的试验台。结构改造包括：采用透明的有机玻璃材料代替传统金属材料,达到内部可视化的目的;将传统的锥形扩散式导叶体设计成圆柱状,以减小光学折射的复杂程度;合并转轮室及导叶外筒壁,使之成为一个整体,以消除叶轮区域与导叶区域之间法兰对内部流场的遮挡;将导叶内轴承后移,并加装筋板,使得载荷能够顺利传递到基础中。综合以上手段,成功改造了试验泵段。在PIV试验过程中,利用轴编码器及同步装置,取得了很好的同步效果。同时,以有机玻璃空心球作为示踪粒子,配合新的标定方式,取得了理想的试验效果。从试验结果分析可知：在0.8Qopt流量下,叶轮进口边外缘处受叶顶泄漏影响,使得该处来流向轮毂侧偏转,但叶轮进口前端截面上的流场整体分布较为均匀;叶轮轮毂与导叶轮毂之间存在的顺时针方向漩涡,对叶轮出口边根部附近的流场造成较大的影响,且叶轮出口边与导叶进口边轴向间隙内的流场具有整体向外缘偏转的趋势;导叶出口以后的流线方向则向轮毂侧偏转,且在出口边外缘处出现局部高速区域。
Abstract_FL	To investigate the flow field distribution at the regions of the impeller and guide vane inlet and outlet under condition of 0.8Qopt, the axial flow pump with ns=700 was selected for model scaling and structural modification, from which we could get a test bed suitable for a 2D-PIV internal flow field test. Structural modifications included: the conventional metal material was replaced with transparent organic glass material to achieve the purpose of internal visualization;the conventional conical diffuser vane was designed into cylindrical shape to reduce the complexity of optical refraction;the runner chamber was merged with a guide vane casing to form as a whole to eliminate the occlusion of the flange to an internal flow field between the region of impeller and diffuser vane;the bearing within the diffuser vane was moved backward and rib plates were installed to make the load transfer to foundation smoothly. Based on the above methods, an experiment pump section was modified successfully, and the efficiency of the experimental pump reached 73.79%, which was close to that of the prototype pump. It was indicated that less damage occurred to the original flow field with structural modification. During the PIV measurement, the shaft encoder and synchronizer were used for better synchronous effect. Meanwhile, an ideal experimental result was obtained by using organic glass hollow spheres as tracer particles, and a new calibration method. As shown in the original PIV images, the particle distribution was homogeneous with most particles appearing to be micro-exposure, which meant an ideal experiment effect. From the analysis of the experimental result, it was indicated that, owing to the effect of the tip leakage flow at the 0.8Qopt operating point, the inflow at the rim of an impeller leading edge deflects to the hub side, but the whole flow field is evenly distributed on the front section of an impeller; a clockwise vortex with an outer diameter larger than the hub between the hubs of an impeller and the guide vane causes a great impact on the flow field near the root of the impeller’s trailing edge, and the flow field in the axial clearance of the impeller trailing edge and the guide vane leading edge tends to deflect to the outer rim integrally;the streamline direction after the guide vane outlet shifts towards the hub side, which leads to a local high-speed zone at the rim of trailing edge. Moveover, the velocity of the high-speed zone is about double as much as the average velocity of the flow field downstream from the guide vane.
Author	张华施卫东陈斌张德胜胡啟祥
AuthorAffiliation	江苏大学流体机械工程技术研究中心,镇江212013 合肥工业大学化工机械研究所,合肥230009
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Author_FL	Chen Bin Shi Weidong Zhang Desheng Hu Qixiang Zhang Hua
Author_FL_xml	– sequence: 1 fullname: Zhang Hua – sequence: 2 fullname: Shi Weidong – sequence: 3 fullname: Chen Bin – sequence: 4 fullname: Zhang Desheng – sequence: 5 fullname: Hu Qixiang
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Keywords	轴流泵 transformation of pump section 试验轴向漩涡 pumps tip leakage 泵段改造流场 experiment 泵 low flow condition axial vortex axial flow pump 小流量 flow field PIV 叶顶泄漏
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Notes	11-2047/S To investigate the flow field distribution at the regions of the impeller and guide vane inlet and outlet under condition of 0.8Qopt, the axial flow pump with ns =700 was selected for model scaling and structural modification, from which we could get a test bed suitable for a 2D-PIV internal flow field test. Structural modifications included： the conventional metal material was replaced with transparent organic glass material to achieve the purpose of internal visualization; the conventional conical diffuser vane was designed into cylindrical shape to reduce the complexity of optical refraction; the runner chamber was merged with a guide vane casing to form as a whole to eliminate the occlusion of the flange to an internal flow field between the region of impeller and diffuser vane; the bearing within the diffuser vane was moved backward and rib plates were installed to make the load transfer to foundation smoothly. Based on the above methods, an experiment pump section was modified successfully, and
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Publisher	江苏大学流体机械工程技术研究中心,镇江,212013%合肥工业大学化工机械研究所,合肥,230009
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Snippet	为研究0.8Qopt工况下,叶轮及导叶进出口的流场分布情况,选择比转速ns=700的轴流泵进行模型缩放,并对其进行结构改造,以得到能够适合于2D-PIV内部流场测试的试验台。结构改造... TH312; 为研究0.8Qopt工况下，叶轮及导叶进出口的流场分布情况，选择比转速ns=700的轴流泵进行模型缩放，并对其进行结构改造，以得到能够适合于2D-PIV 内部流场测试的试验...
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SubjectTerms	PIV 叶顶泄漏小流量泵泵段改造流场试验轴向漩涡轴流泵
Title	轴流泵内部流场的二维粒子成像测速试验
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