MATHEMATICAL ANALYSIS OF TRANSVERSE VIBRATION OF CONICAL SPIRAL TUBE BUNDLE WITH EXTERNAL FLUID FLOW 被引量：2

MATHEMATICAL ANALYSIS OF TRANSVERSE VIBRATION OF CONICAL SPIRAL TUBE BUNDLE WITH EXTERNAL FLUID FLOW

导出

摘要 The conical spiral tube bundle is a new type of heat transfer elements used to enhance heat transfer through flow-induced vibration. The effect of the external fluid flow on the transverse vibration of the conical spiral tube bundle is investigated with a mathematical method proposed in this article. Firstly, the natural vibration of the tube bundle is obtained by the hammering excitation method and the mode shapes of the transverse vibration are discussed. Then the effect of the external fluid flow on the transverse vibration of tube bundle is analyzed by a combination of experimental data, empirical correlations and FEM. The results show that in the frequency range from 0 Hz to 50 Hz, there exist six transverse vibrations. The external fluid flow has a significant effect on the frequency of the tube＇s transverse vibration, which are decreased by about 18% to 24% when the external fluid flow speed is 0.3 m/s. The conical spiral tube bundle is a new type of heat transfer elements used to enhance heat transfer through flow-induced vibration. The effect of the external fluid flow on the transverse vibration of the conical spiral tube bundle is investigated with a mathematical method proposed in this article. Firstly, the natural vibration of the tube bundle is obtained by the hammering excitation method and the mode shapes of the transverse vibration are discussed. Then the effect of the external fluid flow on the transverse vibration of tube bundle is analyzed by a combination of experimental data, empirical correlations and FEM. The results show that in the frequency range from 0 Hz to 50 Hz, there exist six transverse vibrations. The external fluid flow has a significant effect on the frequency of the tube＇s transverse vibration, which are decreased by about 18% to 24% when the external fluid flow speed is 0.3 m/s.

作者 YAN Ke GE Pei-qi SU Yan-cai BI Wen-bo

机构地区 Key Laboratory of High Efficiency and Clean Mechanical Manufacture

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2010年第6期816-822,共7页 水动力学研究与进展B辑（英文版）

基金 Project supported by the National Basic Research Program of China (973 Program,Grant Nos. 2007CB206900) supported by the Independent Innovation program of Shandong University (Grant No. 31360070613218)

关键词 conical spiral tube bundle mathematical model vibration characteristic FEM conical spiral tube bundle, mathematical model, vibration characteristic, FEM

分类号 O35 [理学—流体力学] O327 [理学—一般力学与力学基础]

引文网络
相关文献

参考文献5

1倪振华,田杰.输液螺旋管系振动的动力子结构分析[J].应用力学学报,1996,13(3):138-142. 被引量：3
2JIANG Bo TIAN Mao-cheng ZHANG Guan-min LI Bao-xing CHENG Lin.INFLUENCING PARAMETERS OF FLOW-INDUCED STRUCTURAL DEFORMATION FOR A CIRCULAR TUBE[J].Journal of Hydrodynamics,2009,21(4):520-525. 被引量：2
3LUAN Zhi-jian ZHANG Guan-min TIAN Mao-cheng FAN Ming-xiu.FLOW RESISTANCE AND HEAT TRANSFER CHARACTERISTICS OF A NEW-TYPE PLATE HEAT EXCHANGER[J].Journal of Hydrodynamics,2008,20(4):524-529. 被引量：11
4YAN Ke GE Pei-qi BI Wen-bo SU Yan-cai HU Rui-rong.VIBRATION CHARACTERISTICS OF FLUID-STRUCTURE INTERACTION OF CONICAL SPIRAL TUBE BUNDLE[J].Journal of Hydrodynamics,2010,22(1):121-128. 被引量：13
5刘瑞兰,苏光辉,肖刚,尚智,贾斗南,沈时芳.螺旋管结构动力特性分析[J].原子能科学技术,2000,34(5):399-404. 被引量：3

二级参考文献31

1Cheng Lin, Qiu YanSchool of Energy Source and Power Engineering, Shandong University, Jinan 250061, China.COMPLEX HEAT TRANSFER ENHANCEMENT BY FLUID INDUCED VIBRATION[J].Journal of Hydrodynamics,2003,15(1):84-89. 被引量：7
2倪振华.自由界面部件模态综合中的投影矩阵与坐标变换[J].西安交通大学学报,1989,23(6):107-112. 被引量：6
3沈世钊,武岳.膜结构风振响应中的流固耦合效应研究进展[J].建筑科学与工程学报,2006,23(1):1-9. 被引量：34
4武岳,沈世钊.索膜结构风振响应中的气弹耦合效应研究[J].建筑钢结构进展,2006,8(2):30-36. 被引量：12
5赖永星,刘敏珊,董其伍.具有内外流的换热器管束动特性分析[J].振动与冲击,2006,25(2):159-162. 被引量：9
6周海成.板式换热器的技术进展及其应用[J].压力容器,1996,13(2):168-172. 被引量：17
7杨庆山,刘瑞霞.薄膜结构气弹动力稳定性研究[J].工程力学,2006,23(9):18-24. 被引量：10
8秦新安,王铁坤.板式换热器的污堵与清洗及其对能耗的影响[J].电子与封装,2006,6(9):41-44. 被引量：1
9綦升辉,韩瑞香,种秋菊.水-水板式换热器运行故障原因及排除方法[J].煤气与热力,2007,27(4):74-75. 被引量：4
10郭永辉,刘朝.圆管螺旋流的流动与传热数值模拟[J].工业加热,2007,36(3):27-31. 被引量：5

共引文献25

1KANNAN K.,RUDRAMOORTHY R..EXPERIMENTAL AND NUMERICAL ANALYSIS OF LAMINAR AND LOW TURBULENT FLOW DISTRIBUTIONS IN INLET DIVIDING HEADER OF SHELL AND TUBE HEAT EXCHANGER[J].Journal of Hydrodynamics,2010,22(4):494-502. 被引量：6
2闫柯,葛培琪,张磊,毕文波.平面弹性管束管内流固耦合振动特性有限元分析[J].机械工程学报,2010,46(18):145-149. 被引量：12
3陈常念,韩吉田,邵莉,吉颖风,陈斌.强化换热螺旋管成型工艺及其自动化设计[J].武汉理工大学学报（交通科学与工程版）,2010,34(5):900-903.
4ZOU Lin,LIN Yu-feng,LU Hong.FLOW PATTERNS AND FORCE CHARACTERISTICS OF LAMINAR FLOW PAST FOUR CYLINDERS IN DIAMOND ARRANGEMENT[J].Journal of Hydrodynamics,2011,23(1):55-64. 被引量：13
5葛梦然,闫柯,高军,葛培琪.空间螺旋式弹性传热管束模态与应力特性分析[J].节能技术,2011,29(4):344-347. 被引量：1
6闫柯,葛梦然,高军,葛培琪.空间锥螺旋管束流体诱导振动换热器及性能分析[J].西安交通大学学报,2011,45(11):22-26. 被引量：3
7张井志,田茂诚,张冠敏,冷学礼.板式换热器触点分布对换热阻力性能的影响[J].山东大学学报（工学版）,2012,42(6):121-126. 被引量：4
8赵杰,李峰,刘录.超高压管线系统气固耦合振动特性的仿真研究[J].北京石油化工学院学报,2013,21(2):26-29. 被引量：3
9赵元东,张井志,张冠敏,景振华.热混合板式换热器换热阻力性能[J].压力容器,2013,30(8):46-53. 被引量：10
10闫柯,葛培琪,洪军.Experimental study of shell side flow-induced vibration of conical spiral tube bundle[J].Journal of Hydrodynamics,2013,25(5):695-701. 被引量：12

同被引文献23

1孟继安,陈泽敬,李志信,过增元.交叉缩放椭圆管换热与流阻实验研究及分析[J].工程热物理学报,2004,25(5):813-815. 被引量：22
2倪振华,田杰.输液螺旋管系振动的动力子结构分析[J].应用力学学报,1996,13(3):138-142. 被引量：3
3潘志远,崔维成,刘应中.Prediction Model for Vortex-Induced Vibration of Circular Cylinder with Data of Forced Vibration[J].China Ocean Engineering,2007,21(2):239-254. 被引量：3
4郑继周,程林,杜文静.弹性管束动态特性子结构模态综合法[J].机械工程学报,2007,43(7):202-206. 被引量：13
5CHENG L., LUAN T. and DU W. et al. Heat transfer enhancement by flow-induced vibration in heat excha- ngers[J]. International Journal of Heat and Mass Transfer, 2009, 52(3-4): 1053-1057.
6CHENG Lin. Principle and appfication of elastic tubeheat exchanger[M]. Beijing, China: Science Press, 2001(in Chinese).
7GEM. R., YAN K. and GE P. Q. et al. Study on the conical spiral tube bundle heat exchangers with pulsa- tion flow generator structure[J]. Applied Mechanics and Materials, 2012, 143-144: 698-702.
8GEM. R., YANK. and GE P. Q. et al. Vibration chara- cteristics of multiple conical spiral tube bundles in heat exchangers[J]. Advanced Materials Research, 2012, 403-408: 722-726.
9NAPHON P., NUCHJAPO M. and KURUJAREON J. Tube side heat transfer coefficient and friction factor characteristics of horizontal tubes with helical rib[J]. Energy Conversion and Management, 2006, 47(18- 19): 3031-3044.
10GUILMINEAU E., QUEUTEY P. A numerical simula- tion of vortex shedding from an oscillating circular cyli- nder[J]. Journal of Fluids and Structures, 2002, 16(6): 773-794.

引证文献2

1闫柯,葛培琪,洪军.Experimental study of shell side flow-induced vibration of conical spiral tube bundle[J].Journal of Hydrodynamics,2013,25(5):695-701. 被引量：12
2闫柯,葛培琪,翟强.A comprehensive comparison on vibration and heat transfer of two elastic heat transfer tube bundles[J].Journal of Central South University,2015,22(1):377-385. 被引量：7

二级引证文献17

1吴钦,王畅畅,黄彪,王国玉,曹树良.Measurement and prediction of cavitating flow-induced vibrations[J].Journal of Hydrodynamics,2018,30(6):1064-1071. 被引量：8
2季家东,葛培琪,毕文波.换热器内弹性管束流体组合诱导振动响应的数值分析[J].西安交通大学学报,2015,49(9):24-29. 被引量：11
3季家东,葛培琪,毕文波.流体诱导弹性管束振动响应数值分析[J].振动与冲击,2016,35(6):80-84. 被引量：12
4季家东,葛培琪,毕文波.换热器内多排弹性管束壳程流体诱导振动响应的数值分析[J].振动与冲击,2016,35(20):85-89. 被引量：11
5段德荣,葛培琪,毕文波,王安民.平面弹性管束疲劳强度与强化换热的数值分析[J].工程热物理学报,2016,37(12):2631-2637. 被引量：2
6王安民,葛培琪,段德荣.管内流体诱导锥螺旋弹性管束振动分析[J].自动化仪表,2017,38(5):11-14. 被引量：2
7季家东,葛培琪,毕文波.Numerical analysis of shell-side flow-induced vibration of elastic tube bundle in heat exchanger[J].Journal of Hydrodynamics,2018,30(2):249-257. 被引量：5
8余爱武,宿国友,张春峰,石磊,赵维刚,范正昌,邬舟平.铝合金螺旋管FSW焊与纵缝管熔焊组织及力学性能对比[J].电焊机,2018,48(8):48-52. 被引量：2
9季家东,葛培琪,毕文波,刘萍.采用不同管排组合的换热器弹性管束壳程流体诱导振动响应[J].西安交通大学学报,2018,52(3):69-75. 被引量：6
10王德京,葛培琪,毕文波.锥螺旋弹性管束及其振动控制的研究[J].噪声与振动控制,2019,39(4):59-63.

1盛平兴.SEIFERT'S CONJECTURE[J].Annals of Differential Equations,2003,19(3):391-396.
2WANG Yan WANG Zhongmin ZHOU Yingfeng.TRANSVERSE VIBRATION CHARACTERISTICS OF VISCOELASTIC RECTANGULAR PLATE WITH CRACK[J].Chinese Journal of Mechanical Engineering,2008,21(6):36-40. 被引量：2
3QIN Hui-bin,LU Ming,SHE Yin-zhu,WANG Shi-ying,LI Xiang-peng.Modeling and solving for transverse vibration of gear with variational thickness[J].Journal of Central South University,2013,20(8):2124-2133. 被引量：6
4李晓光,张健,吴永洪.MATHEMATICAL ANALYSIS OF THE COLLAPSE IN BOSE-EINSTEIN CONDENSATE[J].软件工程师,2009(4). 被引量：1
5苏新军,张修刚,王栋,林宗虎.气液两相流横掠错列圆柱形成旋涡脱落诱发管束振动的试验研究[J].热能动力工程,2004,19(1):14-16. 被引量：4
6YAN Ke GE Pei-qi BI Wen-bo SU Yan-cai HU Rui-rong.VIBRATION CHARACTERISTICS OF FLUID-STRUCTURE INTERACTION OF CONICAL SPIRAL TUBE BUNDLE[J].Journal of Hydrodynamics,2010,22(1):121-128. 被引量：13
7谢正武,苏新军,卢家才,林宗虎.气液两相流诱发顺列双圆柱升力功率谱特性研究[J].西安交通大学学报,1999,33(8):28-31. 被引量：5
8WANG Zhan-we,WANG Wen-di.Mathematical Analysis of Immune Response of HIV-I Including Delay[J].Chinese Quarterly Journal of Mathematics,2010(1):45-51. 被引量：7
9HUANG Yan,ZHANG Xiao-jinCollege of Astronautical Engineering, National University of Defense Technology, Changsha, 410073 , China.General Analytical Solution of Transverse Vibration For Orthotropic Rectangular Thin Plates[J].哈尔滨工程大学学报（英文版）,2002(2):78-82. 被引量：17
10周银锋,王忠民.Transverse vibration characteristics of axially moving viscoelastic plate[J].Applied Mathematics and Mechanics(English Edition),2007,28(2):209-218. 被引量：1

Journal of Hydrodynamics

2010年第6期

浏览历史

内容加载中请稍等...