Chemical Industry and Engineering Progress ›› 2018, Vol. 37 ›› Issue (08): 2880-2891.DOI: 10.16085/j.issn.1000-6613.2017-2168
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SUN Xiao1, HAN Dongyang1, JIAO Bo2, GAN Zhihua1,3,4
Received:
2017-10-24
Revised:
2017-12-14
Online:
2018-08-05
Published:
2018-08-05
孙潇1, 韩东阳1, 焦波2, 甘智华1,3,4
通讯作者:
甘智华,教授,博士生导师,研究方向为液氦温区回热制冷机理、液氦温区J-T节流机理等。
作者简介:
孙潇(1993-),女,博士研究生,研究方向为低温脉动热管。E-mail:sunxiaos@zju.edu.cn。
基金资助:
CLC Number:
SUN Xiao, HAN Dongyang, JIAO Bo, GAN Zhihua. Research progress on visualization of pulsating heat pipes[J]. Chemical Industry and Engineering Progress, 2018, 37(08): 2880-2891.
孙潇, 韩东阳, 焦波, 甘智华. 脉动热管可视化实验研究进展[J]. 化工进展, 2018, 37(08): 2880-2891.
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[1] AKACHI H. Structure of a heat pipe:US4921041 A[P].1990-05-01. [2] HAN X, WANG X, ZHENG H, et al.Review of the development of pulsating heat pipe for heat dissipation[J].Renewable and Sustainable Energy Reviews, 2016, 59:692-709. [3] QU J, WU H Y, WANG Q.Experimental investigation of silicon-based micro-pulsating heat pipe for cooling electronics[J]. Nanoscale & Microscale Thermophysical Engineering, 2012, 16(1):37-49. [4] DANG C, JIA L, LU Q.Investigation on thermal design of a rack with the pulsating heat pipe for cooling CPUs[J].Applied Thermal Engineering, 2017, 110(Supplement C):390-398. [5] LÜ L, LI J, ZHOU G.A robust pulsating heat pipe cooler for integrated high power LED chips[J].Heat and Mass Transfer, 2017, 53(11):3305-3313. [6] DENG Z, ZHENG Y, LIU X, et al.Experimental study on thermal performance of an anti-gravity pulsating heat pipe and its application on heat recovery utilization[J].Applied Thermal Engineering, 2017, 125(Supplement C):1368-1378. [7] MAHAJAN G, THOMPSON S M, CHO H.Energy and cost savings potential of oscillating heat pipes for waste heat recovery ventilation[J]. Energy Reports, 2017, 3:46-53. [8] XU R J, ZHANG X H, WANG R X, et al.Experimental investigation of a solar collector integrated with a pulsating heat pipe and a compound parabolic concentrator[J]. Energy Conversion and Management, 2017, 148(Supplement C):68-77. [9] 高旭娜, 吴薇, 孟志军, 等.蓄能型振荡热管太阳能集热器热性能[J].农业工程学报, 2017(16):234-240. GAO X N, WU W, MENG Z J, et al.Thermal performance of solar collector with energy storage materials and oscillating heat pipe[J]. Transactions of the Chinese Society of Agricultural Engineering, 2017, 33(16):234-240. [10] WANG Q, RAO Z, HUO Y, et al.Thermal performance of phase change material/oscillating heat pipe-based battery thermal management system[J]. International Journal of Thermal Sciences, 2016, 102:9-16. [11] CLEMENT J, WANG X.Experimental investigation of pulsating heat pipe performance with regard to fuel cell cooling application[J]. Applied Thermal Engineering, 2013, 50:268-274. [12] 罗孝学, 章学来, 华维三, 等.脉动热管相变蓄热器蓄热实验分析[J]. 化工学报, 2017, 68(7):2722-2729. LUO X X, ZHANG X L, HUA W S, et al.Experimental analysis on heat storage of pulsating heat pipe phase change heat accumulator[J].CIESC Journal, 2017, 68(7):2722-2729. [13] ZHAO J, QU J, RAO Z.Experiment investigation on thermal performance of a large-scale oscillating heat pipe with self-rewetting fluid used for thermal energy storage[J].International Journal of Heat and Mass Transfer, 2017, 108(Part A):760-769. [14] MITO T, NATSUME K, YANAGI N, et al.Development of highly effective cooling technology for a superconducting magnet using cryogenic OHP[J].IEEE Transactions on Applied Superconductivity, 2010, 20(3):2023-2026. [15] KHANDEKAR S, GROLL M.An insight into thermo-hydrodynamic coupling in closed loop pulsating heat pipes[J].International Journal of Thermal Sciences, 2004, 43(1):13-20. [16] PACHGHARE P R, MAHALLE A M.Thermo-hydrodynamics of closed loop pulsating heat pipe:an experimental study[J].Journal of Mechanical Science and Technology, 2014, 28(8):3387-3394. [17] 林梓荣, 汪双凤, 吴小辉.脉动热管技术研究进展[J]. 化工进展, 2008, 27(10):1526-1532. LIN Z R, WANG S F, WU X H.Recent rsearch on pulsating heat pipe[J].Chemical Industry and Engineering Progress, 2008, 27(10):1526-1532. [18] 屈健.脉动热管技术研究及应用进展[J].化工进展, 2013, 32(1):33-41. QU J. Oscillating heat pipes:state of the art and applications[J]. Chemical Industry and Engineering Progress, 2013, 32(1):33-41. [19] 焦波.板式脉动热管的实验与应用研究进展[J].化工进展, 2014, 33(9):2252-2259. JIAO B.Advances in the experimental investigations and applications of flat-plate pulsating heat pipe[J].Chemical Industry and Engineering Progress, 2014, 33(9):2252-2259. [20] 王军波, 孙振国, 陈强.高速CCD摄像系统及其应用[J].实验技术与管理, 2001(6):16-19. WANG J B, SUN Z G, CHEN Q, et al.High speed CCD camera system and its application[J]. Experimental Technology and Momqgement, 2001(6):16-19. [21] 裴宇阳.中子照相技术及其应用[J].现代仪器, 2004(5):17-22. PEI Y Y. Neutron photographic technology and its application[J]. Modern Instruments, 2004(5):17-22. [22] HATHAWAY A, WILSON C, MA H B.An experimental investigation of uneven turn water and acetone oscillating heat pipes[C]//49th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition.Orlando, Florida, USA:American Institute of Aeronautics and Astronautics, 2011. [23] YOON I, WILSON C, BORGMEYER B, et al.Neutron phase volumetry and temperature observations in an oscillating heat pipe[J].International Journal of Thermal Sciences, 2012, 60:52-60. [24] THOMPSON S M, MA H B, WILSON C.Investigation of a flat-plate oscillating heat pipe with Tesla-type check valves[J].Experimental Thermal and Fluid Science, 2011, 35(7):1265-1273. [25] KAWARA Z, TAKAHASHI O, SERIZAWA A, et al.Visualization of flow in heat pipe by proton radiography[J]. Transactions of Visualization Society of Japan, 1996, 16(1):23-26. [26] 赵玉磊, 郭宝龙, 闫允一.电容层析成像技术的研究进展与分析[J].仪器仪表学报, 2012(8):1909-1920. ZHAO Y L, GUO B L, YAN Y Y.Latest development and analysis of electrical capacitance tomography technology[J].Chinese Journal of Scientific Instrument, 2012(8):1909-1920. [27] 王娴雅.红外热成像测温系统关键技术和硬件实现[D].南京:南京理工大学, 2007. WANG X Y.Key technology and hardware realization of infrared thermal imaging temperature measurement system[D].Nanjing:Nanjing University of Science and Technology, 2007. [28] HEMADRI V A, GUPTA A, KHANDEKAR S.Thermal radiators with embedded pulsating heat pipes:Infra-Red thermography and simulations[J]. Applied Thermal Engineering, 2011, 31(6/7):1332-1346. [29] TONG B Y, WONG T N, OOI K T.Closed-loop pulsating heat pipe[J].Applied Thermal Engineering, 2001, 21(18):1845-1862. [30] 杨蔚原, 张正芳, 马同泽.脉动热管运行的可视化实验研究[J].工程热物理学报, 2001(s1):117-120. YANG W Y, ZHANG Z F, MA T Z.Flow visualization of looped pulsating heat pipe[J].Journal of Engineering Thermophysics, 2001(s1):117-120. [31] KHANDEKAR S, SCHNEIDER M, SCHAFER P, et al.Thermofluid dynamic study of flat-plate closed-loop pulsating heat pipes[J]. Microscale Thermophysical Engineering, 2002, 6(4):303-317. [32] QU W, MA H B.Theoretical analysis of startup of a pulsating heat pipe[J].International Journal of Heat and Mass Transfer, 2007, 50(11/12):2309-2316. [33] LIPS S, BENSALEM A, BERTIN Y, et al.Experimental evidences of distinct heat transfer regimes in pulsating heat pipes(PHP)[J].Applied Thermal Engineering, 2010, 30(8/9):900-907. [34] QU J, WU H Y.Flow visualization of silicon-based micro pulsating heat pipes[J].Science China Technological Sciences, 2010, 53(4):984-990. [35] SENJAYA R, INOUE T.Bubble generation in oscillating heat pipe[J].Applied Thermal Engineering, 2013, 60(1/2):251-255. [36] GOSHAYESHI, REZA H, CHAER, et al.Experimental study and flow visualization of Fe2O3/kerosene in glass oscillating heat pipes[J].Applied Thermal Engineering, 2016, 103:1213-1218. [37] CAI Q, CHEN R, CHEN C.An investigation of evaporation, boiling, and heat transport performance in pulsating heat pipe[J].Heat Transfer, 2002, 7:99-104. [38] 屈健, 吴慧英, 唐慧敏.微小型振荡热管的流动可视化实验[J].航空动力学报, 2009(4):766-771. QU J, WU H Y, TANG H M.Flow visualization of micro/mini pulsating heat pipes[J].Journal of Aerospace Power, 2009(4):766-771. [39] SRIUDOM Y, RITTIDECH S, CHOMPOOKHAM T.The helical oscillating heat pipe:flow pattern behaviour study[J].Advances in Mechanical Engineering, 2015, 7(1):194374. [40] 徐荣吉, 王瑞祥, 丛伟, 等.脉动热管实验台的搭建及可视化实验研究[J].流体机械, 2007(6):59-61. XU R J, WANG R X, CONG W, et al.Design of pulsating heat pipe experiment rig and visual experiment study[J].Fluid Machinery, 2007(6):59-61. [41] 冼海珍, 刘晓敏, 杨勇平, 等.振荡流热管可视化实验[J]. 工程热物理学报, 2011, 32(9):1583-1585. XIAN H Z, LIU X M, YANG Y P, et al.Visualization experiment for oscillating heat pipe[J].Journal of Engineering Thermophysics, 2011, 32(9):1583-1585. [42] XIAN H, XU W, ZHANG Y, et al.Thermal characteristics and flow patterns of oscillating heat pipe with pulse heating[J].International Journal of Heat and Mass Transfer, 2014, 79:332-341. [43] LIU S, LI J T, DONG X Y, et al.Experimental study of flow patterns and improved configurations for pulsating heat pipes[J].Journal of Thermal Science, 2007, 16(1):56-62. [44] BHUWAKIETKUMJOHN N, RITTIDECH S.Internal flow patterns on heat transfer characteristics of a closed-loop oscillating heat-pipe with check valves using ethanol and a silver nano-ethanol mixture[J].Experimental Thermal and Fluid Science, 2010, 34(8):1000-1007. [45] 尹大燕, 贾力.振荡热管管内流型对传热性能的影响[J].应用基础与工程科学学报, 2007(3):363-368. YIN D Y, JIA L.Influence of flow pattern on heat transfer performance of oscillating heat pipe[J]. Journal of Basic Science and Engineering, 2007(3):363-368. [46] 李惊涛, 肖海平, 董向元, 等.脉动热管内微尺度两相流的电容层析成像测量[J].中国电机工程学报, 2009(17):103-107. LI J T, XIAO H P, DONG X Y, et al.Measurement of micro-scale two-phase flow in a pulsating heat pipe using electrical capacitance tomography[J].Proceedings of the CSEE, 2009(17):103-107. [47] XU J L, LI Y, WONG T N.High speed flow visualization of a closed loop pulsating heat pipe[J].International Journal of Heat and Mass Transfer, 2005, 48(16):3338-3351. [48] KIM J S, BUI N H, KIM J W, et al.Flow visualization of oscillation characteristics of liquid and vapor flow in the oscillating capillary tube heat pipe[J].KSME International Journal, 2003, 17(10):1507-1519. [49] RITTIDECH S, SANGIAMSUK S.Internal flow patterns on heat transfer performance of a closed-loop oscillating heat pipe with check valves[J].Experimental Heat Transfer, 2012, 25(1):48-57. [50] 刘向东, 王超, 陈永平.基于红外热成像的脉动热管运行及传热特性分析[J].化工学报, 2016, 67(4):1129-1135. LIU X D, WANG C, CHEN Y P.Analysis of operation and heat transfer characteristics in pulsating heat pipe based on infrared thermal imaging technology[J].CIESC Journal, 2016, 67(4):1129-1135. [51] KARTHIKEYAN V K, KHANDEKAR S, PILLAI B C, et al.Infrared thermography of a pulsating heat pipe:flow regimes and multiple steady states[J].Applied Thermal Engineering, 2014, 62(2):470-480. [52] 曹小林, 席站利, 周晋, 等.脉动热管运行可视化及传热与流动特性的试验研究[J].热能动力工程, 2004, 19(4):411-415. CAO X L, XI Z L, ZHOU J, et al.Experimental study on visualization, heat transfer and flow characteristics of pulsating heat pipe[J].Journal of Engineering for Thermal Energy and Power, 2004, 19(4):411-415. [53] 曹小林, 王伟, 陈杰, 等.环路型脉动热管的工质流动和传热特性实验研究[J].热科学与技术, 2007(1):56-59. CAO X L, WANG W, CHEN J, et al.Experimental investigation on working flow and heat transfer characteristics of closed loop pulsating heat pipe[J].Journal of Thermal Science and Technology, 2007(1):56-59. [54] SPINATO G, BORHANI N, THOME J R.Understanding the self-sustained oscillating two-phase flow motion in a closed loop pulsating heat pipe[J].Energy, 2015, 90(Part 1):889-899. [55] 杨洪海, KHANDEKAR S, GROLL M.单回路闭式脉动热管内流型的实验研究[J].流体机械, 2007(1):60-63. YANG H H, KHANDEKAR S, GROLL M. Experimental investigation of the flow patterns in a single closed loop pulsating heat pipe[J].Fluid Machinery, 2007(1):60-63. [56] SPINATO G, BORHANI N, D'ENTREMONT B P, et al.Time-strip visualization and thermo-hydrodynamics in a closed loop pulsating heat pipe[J].Applied Thermal Engineering, 2015, 78:364-372. [57] HOSODA M, NISHIO S, SHIRAKASHI R.Study of meandering closed-loop heat-transport device(vapor-plug propagation phenomena)[J].JAME International Journal, 1999, 42(4):737-744. [58] 孙芹, 屈健, 袁建平.等截面和变截面通道硅基微型脉动热管传热特性比较[J].化工学报, 2017, 68(5):1803-1810. SUN Q, QU J, YUAN J P.Heat transfer performance comparison of silicon-based micro oscillating heat pipes with and without expanding channels[J].CIESC Journal, 2017, 68(5):1803-1810. [59] CHIEN K H, LIN Y T, CHEN Y R, et al.A novel design of pulsating heat pipe with fewer turns applicable to all orientations[J]. International Journal of Heat and Mass Transfer, 2012, 55(21/22):5722-5728. [60] KWON G H, KIM S J.Experimental investigation on the thermal performance of a micro pulsating heat pipe with a dual-diameter channel[J].International Journal of Heat and Mass Transfer, 2015, 89:817-828. [61] SHI W, PAN L.Experiment investigation on visualization and operating characteristics of closed loop plate oscillating heat pipe with parallel channels[J]. Journal of Central South University, 2016, 23(9):2410-2418. [62] LIN Z, WANG S, HUO J, et al.Heat transfer characteristics and LED heat sink application of aluminum plate oscillating heat pipes[J].Applied Thermal Engineering, 2011, 31(14/15):2221-2229. [63] JANG D S, LEE J S, AHN J H, et al.Flow patterns and heat transfer characteristics of flat plate pulsating heat pipes with various asymmetric and aspect ratios of the channels[J].Applied Thermal Engineering, 2017, 114:211-220. [64] WILSON C, BORGMEYER B, WINHOLTZ R A, et al.Visual observation of oscillating heat pipes using neutron radiography[J]. Journal of Thermophysics and Heat Transfer, 2008, 22(3):366-372. [65] JUN S, KIM S J.Comparison of the thermal performances and flow characteristics between closed-loop and closed-end micro pulsating heat pipes[J].International Journal of Heat and Mass Transfer, 2016, 95:890-901. [66] HAO T, MA X, LAN Z, et al.Effects of hydrophilic surface on heat transfer performance and oscillating motion for an oscillating heat pipe[J].International Journal of Heat and Mass Transfer, 2014, 72:50-65. [67] 郝婷婷, 马学虎, 兰忠, 等.超亲水脉动热管液弹液膜沉积的实验研究[J]. 工程热物理学报, 2015(1):168-171. HAO T T, MA X H, LAN Z, et al.Experimental investigation of the effects of superhydrophilic surface on the liquid film deposition of a pulsating heat pipe[J].Journal of Engineering Thermophysics, 2015(1):168-171. [68] 郝婷婷, 马学虎, 兰忠, 等.疏水表面对脉动热管性能的影响[J].工程热物理学报, 2014(1):152-154. HAO T T, MA X H, LAN Z, et al.Effects of hydrophobic surface on heat transfer performance and oscillating motion for a pulsating heat pipe[J].Journal of Engineering Thermophysics, 2014(1):152-154. [69] 纪玉龙, 庾春荣, 张庆振, 等.表面浸润程度对脉动热管传热性能的影响[J].化工学报, 2017, 68(s1):141-149. JI Y L, LIAO C R, ZHANG Q Z, et al.Effects of surface wettability on heat transfer performance of oscillating heat pipe[J]. CIESC Journal, 2017, 68(s1):141-149. [70] 曲伟, 马同泽.脉动热管的工质流动和传热特性实验研究[J].工程热物理学报, 2002(5):596-598. QU W, MA T Z.Experimental investigation on flow and heat transfer of pulsating heat pipe[J].Journal of Engineering Thermophysics, 2002(5):596-598. [71] NOH H Y, KIM S J.Experimental investigation of fluid motion in pulsating heat pipe[C]//ASME 2015 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems collocated with the ASME 201513th International Conference on Nanochannels, Microchannels, and Minichannels.San Francisco, California, USA:2015:V1T-V9T. [72] BORGMEYER B, WILSON C, WINHOLTZ R A, et al.Heat transport capability and fluid flow neutron radiography of three-dimensional oscillating heat pipes[J]. Journal of Heat Transfer, 2010, 132(6).DOI:10.1115/1.4000750. [73] 周春鹏, 胡伟男, 崔付龙, 等.板式单环路脉动热管的流动和传热特性[J].低温工程, 2017(1):41-46. ZHOU C P, HU W N, CUI F L, et al.Experimental investigation of flow visualization and thermal performance of flat-plate single-loop pulsating heat pipes[J].Cryogenics, 2017(1):41-46. [74] YANG H, GROLL M, KHANDEKAR S.Visual study on flow and operational characteristics of flat plate closed loop pulsating heat pipes[J].Joumal of Donghua University, 2009, 26(1):80-84. [75] JIAQIANG E, ZHAO X, DENG Y, et al.Pressure distribution and flow characteristics of closed oscillating heat pipe during the starting process at different vacuum degrees[J]. Applied Thermal Engineering, 2016, 93:166-173. [76] 史维秀, 李惟毅, 潘利生.多通路并联回路板式脉动热管可视化及启动性能试验研究[J]. 机械工程学报, 2014(4):155-161. SHI W X, LI W Y, PAN L S.Experiment study on visualization and start-up performance of closed loop plate pulsating heat pipe with parallel channels[J]. Journal of Mechanical Engineering, 2014(4):155-161. [77] MAMELI M, MARENGO M, KHANDEKAR S.Local heat transfer measurement and thermo-fluid characterization of a pulsating heat pipe[J]. International Journal of Thermal Sciences, 2014, 75:140-152. [78] 史维秀.改进型回路脉动热管可视化及传热性能研究[D]. 天津:天津大学, 2012. SHI W X.Study on visualization and heat transfer performance of improved closed loop pulsating heat pipe[D]. Tianjin:Tianjin University, 2012. [79] WILSON C, BORGMEYER B, WINHOLTZ R A, et al.Thermal and visual observation of water and acetone oscillating heat pipes[J]. Journal of Heat Transfer, 2011, 133(6).DOI:10.1115/1.4003546. [80] 薛志虎, 陈思员, 曲伟.氨工质脉动热管的可视化启动和传热性能研究[J].中国科学(技术科学), 2015, 45(9):999-1006. XUE Z H, CHEN S Y, QU W.The visualized startup and thermal performance of ammonia pulsating heat pipe[J].Sci. Sin. Tech., 2015, 45(9):999-1006. [81] KARTHIKEYAN V K, RAMACHANDRAN K, PILLAI B C, et al.Understanding thermo-fluidic characteristics of a glass tube closed loop pulsating heat pipe:flow patterns and fluid oscillations[J].Heat Mass Transfer, 2015, 51(12):1669-1680. [82] LI Q M, ZOU J A, YANG Z, et al.Visualization of two-phase flows in nanofluid oscillating heat pipes[J].Journal of Heat Transfer, 2011, 133(5):52901. [83] KARTHIKEYAN V K, RAMACHANDRAN K, PILLAI B C, et al.Effect of nanofluids on thermal performance of closed loop pulsating heat pipe[J].Experimental Thermal and Fluid Science, 2014, 54:171-178. [84] KANG S, WANG Y, LIU Y, et al.Visualization and thermal resistance measurements for a magnetic nanofluid pulsating heat pipe[J]. Applied Thermal Engineering, 2017, 126(Supplement C):1044-1050. [85] GANDOMKAR A, SAIDI M H, SHAFⅡ M B, et al.Visualization and comparative investigations of pulsating ferro-fluid heat pipe[J].Applied Thermal Engineering, 2017, 116:56-65. [86] SUN Q, QU J, LI X, et al.Experimental investigation of thermo-hydrodynamic behavior in a closed loop oscillating heat pipe[J]. Experimental Thermal and Fluid Science, 2017, 82:450-458. [87] 包康丽, 黄烱亮, 华超, 等.脉动热管气液塞初始分布可视化实验研究[C]//中国工程热物理学会传热传质学术年会, 苏州, 2017. BAO K L, HUANG J L, HUA C, et al.Visualization study on initial distribution of vapor plug and liquid slug in pulsating heat pipe[C]//Chinese Academy of Engineering Thermal Physics Annual Conference on Heat and Mass Transfer, Suzhou, 2017. [88] XUE Z H, QU W.Experimental and theoretical research on a ammonia pulsating heat pipe:new full visualization of flow pattern and operating mechanism study[J].International Journal of Heat and Mass Transfer, 2017, 106:149-166. [89] KHANDEKAR S, CHAROENSAWAN P, GROLL M, et al.Closed loop pulsating heat pipes-Part B:Visualization and semi-empirical modeling[J]. Applied Thermal Engineering, 2003, 23(16):2021-2033. [90] CHAROENSAWAN P, KHANDEKAR S, GROLL M, et al.Closed loop pulsating heat pipes-Part A:Parametric experimental investigations[J]. Applied Thermal Engineering, 2003, 23(16):2009-2020. [91] SPINATO G, BORHANI N, THOME J R.Operational regimes in a closed loop pulsating heat pipe[J]. International Journal of Thermal Sciences, 2016, 102:78-88. [92] MIURA M, NAGASAKI T, ITO Y.Experimental investigation of heat transport with oscillating liquid column in pulsating heat pipe using forced oscillation system[J]. International Journal of Heat and Mass Transfer, 2017, 106:997-1004. [93] MEHTA B, KHANDEKAR S.Taylor bubble-train flows and heat transfer in the context of pulsating heat pipes[J].International Journal of Heat and Mass Transfer, 2014, 79:279-290. [94] 李惊涛, 李志宏, 韩振兴, 等.脉动热管的流型及流向分析[J]. 热能动力工程, 2009(3):347-351. LI J T, LI Z H, HAN Z X, et al.Measurement of micro-scale two-phase flow in a pulsating heat pipe using electrical capacitance tomography[J].Proceedings of the CSEE, 2009(3):347-351. [95] YOON A, KIM S J.Characteristics of oscillating flow in a micro pulsating heat pipe:fundamental-mode oscillation[J].International Journal of Heat and Mass Transfer, 2017, 109:242-253. |
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