Recent advances in visualization of pulsating heat pipes: a review

[1]  Tao Lei,et al.  Operation characteristics of a gravity pulsating heat pipe under different heat inputs , 2022, International Journal of Heat and Mass Transfer.

[2]  H. Nagai,et al.  Visualization of the working fluid in a flat-plate pulsating heat pipe by neutron radiography , 2022, International Journal of Heat and Mass Transfer.

[3]  Dongwei Zhang,et al.  Heat transfer and flow visualization of pulsating heat pipe with silica nanofluid: An experimental study , 2022, International Journal of Heat and Mass Transfer.

[4]  S. Kim,et al.  A deep-learning approach for predicting oscillating motion of liquid slugs in a closed-loop pulsating heat pipe , 2021 .

[5]  H. Cao,et al.  Experimental investigation on heat transfer and flow patterns of pulsating heat pipe assisted by ultrasonic cavitation , 2021, International Journal of Heat and Mass Transfer.

[6]  M. Kawaji,et al.  Thermal performance and flow characteristics in additive manufactured polycarbonate pulsating heat pipes with Novec 7000 , 2021 .

[7]  Orhan Aydin,et al.  Effect of double cross sectional ratio on performance characteristics of pulsating heat pipes , 2021, International Communications in Heat and Mass Transfer.

[8]  Shabhrish Reddy Uddehal,et al.  Interaction of flow pattern and heat transfer in oscillating heat pipes for hot spot applications , 2021 .

[9]  Orhan Aydin,et al.  Investigation of flat plate type pulsating heat pipes via flow visualization-assisted experiments: Effect of cross sectional ratio , 2021 .

[10]  Ramazan Varol,et al.  Investigation of the effects of miscible and immiscible binary fluids on thermal performance of pulsating heat pipes , 2021, Heat and Mass Transfer.

[11]  Burak Markal,et al.  Experimental investigation and force analysis of flat-plate type pulsating heat pipes having ternary mixtures , 2021 .

[12]  S. Kim,et al.  Effects of oscillation amplitudes on heat transfer mechanisms of pulsating heat pipes , 2021 .

[13]  Weidan Ma,et al.  Visualization of Thermo-Hydrodynamic Behavior in Flat-Plate Pulsating Heat Pipe with HFE-347 , 2021, Journal of Thermal Science.

[14]  Zhonghao Rao,et al.  Quantitative analysis of thermal performance and flow characteristics of oscillating heat pipes with different initial pressure , 2020 .

[15]  Xiangyu Y. Hu,et al.  Experimental study on a three-dimensional pulsating heat pipe with tandem tapered nozzles , 2020 .

[16]  Burak Markal,et al.  The combined effects of filling ratio and inclination angle on thermal performance of a closed loop pulsating heat pipe , 2020, Heat and Mass Transfer.

[17]  Young Bae Kim,et al.  Investigation of thermal enhancement factor in micro pulsating heat exchanger using LIF visualization technique , 2020 .

[18]  Burak Markal,et al.  Thermal investigation and flow pattern analysis of a closed-loop pulsating heat pipe with binary mixtures , 2020, Journal of the Brazilian Society of Mechanical Sciences and Engineering.

[19]  Feng Yao,et al.  Experimental study on two-phase flow and thermal performance in pulsating heat pipes , 2020 .

[20]  H. Qi,et al.  Experimental study on heat transfer performance of pulsating heat pipes with hybrid working fluids , 2020, International Journal of Heat and Mass Transfer.

[21]  M. Mameli,et al.  Flow characterization of a pulsating heat pipe through the wavelet analysis of pressure signals , 2020, Applied Thermal Engineering.

[22]  M. Marengo,et al.  Heat Transport Capacity of an Axial-Rotating Single-Loop Oscillating Heat Pipe for Abrasive-Milling Tools , 2020 .

[23]  S. Takagi,et al.  Relating the thermal properties of a micro pulsating heat pipe to the internal flow characteristics via experiments, image recognition of flow patterns and heat transfer simulations , 2020, International Journal of Heat and Mass Transfer.

[24]  S. Jung,et al.  Analysis of thermally driven flow behaviors for two-turn closed-loop pulsating heat pipe in ambient conditions: An experimental approach , 2020 .

[25]  S. Kim,et al.  Effect of a flow behavior on the thermal performance of closed-loop and closed-end pulsating heat pipes , 2020 .

[26]  S. Kim,et al.  Experimental investigation on working fluid selection in a micro pulsating heat pipe , 2020 .

[27]  M. Shafii,et al.  Investigation and visualization of surfactant effect on flow pattern and performance of pulsating heat pipe , 2020, Journal of Thermal Analysis and Calorimetry.

[28]  S. Pietrowicz,et al.  Experimental study on a large scale pulsating heat pipe operating at high heat loads, different adiabatic lengths and various filling ratios of acetone, ethanol, and water , 2020 .

[29]  Zhisong Li Study of a Hybrid of Pulsating Heat Pipe and Distributed Jet Array , 2020 .

[30]  Xiangdong Liu,et al.  Experimental study on thermo-hydrodynamic characteristics in a micro oscillating heat pipe , 2019 .

[31]  V. Patel,et al.  Channel wise displacement-velocity-frequency analysis in acetone charged multi-turn Closed Loop Pulsating Heat Pipe , 2019, Energy Conversion and Management.

[32]  A. Cecere,et al.  Experimental Investigation of Capillary-Driven Two-Phase Flow in Water/Butanol under Reduced Gravity Conditions , 2019, Microgravity Science and Technology.

[33]  S. Kim,et al.  Effect of a channel layout on the thermal performance of a flat plate micro pulsating heat pipe under the local heating condition , 2019, International Journal of Heat and Mass Transfer.

[34]  S. Kim,et al.  Experimental study on a criterion for normal operation of pulsating heat pipes in a horizontal orientation , 2019, International Journal of Heat and Mass Transfer.

[35]  K. Fumoto,et al.  Temperature visualization and investigation inside evaporator of pulsating heat pipe using temperature-sensitive paint , 2019, Applied Thermal Engineering.

[36]  S. Kim,et al.  Experimental investigation on the thermodynamic state of vapor plugs in pulsating heat pipes , 2019, International Journal of Heat and Mass Transfer.

[37]  P. Das,et al.  Effect of Surface Tension Variation of the Working Fluid on the Performance of a Closed Loop Pulsating Heat Pipe , 2019 .

[38]  M. Marengo,et al.  Visualization of Flow Patterns in Closed Loop Flat Plate Pulsating Heat Pipe Acting as Hybrid Thermosyphons under Various Gravity Levels , 2019 .

[39]  S. Kim,et al.  Experimental investigations of heat transfer mechanisms of a pulsating heat pipe , 2019, Energy Conversion and Management.

[40]  S. Kim,et al.  Understanding of the thermo-hydrodynamic coupling in a micro pulsating heat pipe , 2018, International Journal of Heat and Mass Transfer.

[41]  E. Sedighi,et al.  Numerical and experimental investigation of flat-plate pulsating heat pipes with extra branches in the evaporator section , 2018, International Journal of Heat and Mass Transfer.

[42]  S. Kim,et al.  Effects of the number of turns and the inclination angle on the operating limit of micro pulsating heat pipes , 2018, International Journal of Heat and Mass Transfer.

[43]  Mohammad Behshad Shafii,et al.  How to improve the thermal performance of pulsating heat pipes: A review on working fluid , 2018, Renewable and Sustainable Energy Reviews.

[44]  Jian Qu,et al.  Start-up characteristics of MEMS-based micro oscillating heat pipe with and without bubble nucleation , 2018 .

[45]  M. Marengo,et al.  Experimental analysis of a Flat Plate Pulsating Heat Pipe with Self-ReWetting Fluids during a parabolic flight campaign , 2018, Acta Astronautica.

[46]  H. Yanxin,et al.  A review of boiling heat transfer and heat pipes behaviour with self-rewetting fluids , 2018 .

[47]  H. Song,et al.  Flow behavior of rapid thermal oscillation inside an asymmetric micro pulsating heat exchanger , 2018 .

[48]  D. Fioriti,et al.  Infrared analysis of the two phase flow in a single closed loop pulsating heat pipe , 2018, Experimental Thermal and Fluid Science.

[49]  S. Kim,et al.  Effect of reentrant cavities on the thermal performance of a pulsating heat pipe , 2018 .

[50]  Mohammad Hossein Ahmadi,et al.  Experimental investigation of graphene oxide nanofluid on heat transfer enhancement of pulsating heat pipe , 2018 .

[51]  Fahrurrozi,et al.  A preliminary investigation on visualization of oscillating heat pipe with non-destructive test , 2018 .

[52]  S. Kim,et al.  Thermal characterization and optimization of pulsating heat pipes operating in a circulation mode , 2017 .

[53]  Yingfan Liu,et al.  Visualization and thermal resistance measurements for a magnetic nanofluid pulsating heat pipe , 2017 .

[54]  R. Kumar,et al.  A review on thermophysical properties of nanofluids and heat transfer applications , 2017 .

[55]  D. Fioriti,et al.  Fluid-flow pressure measurements and thermo-fluid characterization of a single loop two-phase passive heat transfer device , 2017 .

[56]  T. Leu,et al.  Experimental studies of surface modified oscillating heat pipes , 2017 .

[57]  S. Kim,et al.  Effect of channel geometry on the operating limit of micro pulsating heat pipes , 2017 .

[58]  M. Shafii,et al.  Visualization and comparative investigations of pulsating ferro-fluid heat pipe , 2017 .

[59]  Jae Hwan Ahn,et al.  Flow patterns and heat transfer characteristics of flat plate pulsating heat pipes with various asymmetric and aspect ratios of the channels , 2017 .

[60]  W. Qu,et al.  Experimental and theoretical research on a ammonia pulsating heat pipe: New full visualization of flow pattern and operating mechanism study , 2017 .

[61]  D. Florea,et al.  Design and operation of a Tesla-type valve for pulsating heat pipes , 2017 .

[62]  Mohammad Reza Safaei,et al.  Particle size and type effects on heat transfer enhancement of Ferro-nanofluids in a pulsating heat pipe , 2016 .

[63]  Liu Xiangdong,et al.  High-Speed Visual Analysis of Fluid Flow and Heat Transfer in Oscillating Heat Pipes with Different Diameters , 2016 .

[64]  P. Das,et al.  Scaling analysis and experimental investigation of pulsating loop heat pipes , 2016 .

[65]  I. Chaer,et al.  Experimental study and flow visualization of Fe2O3/kerosene in glass oscillating heat pipes , 2016 .

[66]  Marco Marengo,et al.  Hybrid Pulsating Heat Pipe for Space Applications with Non-Uniform Heating Patterns: Ground and Microgravity Experiments , 2016 .

[67]  Xiangguo Xu,et al.  Review of the development of pulsating heat pipe for heat dissipation , 2016 .

[68]  J. Thome,et al.  Operational regimes in a closed loop pulsating heat pipe , 2016 .

[69]  M. A. Bijarchi,et al.  Experimental investigation of the thermal management of flat-plate closed-loop pulsating heat pipes with interconnecting channels , 2015 .

[70]  M. Goodarzi,et al.  Effect of magnetic field on the heat transfer rate of kerosene/Fe2O3 nanofluid in a copper oscillating heat pipe , 2015 .

[71]  S. Kim,et al.  Experimental investigation on the thermal performance of a micro pulsating heat pipe with a dual-diameter channel , 2015 .

[72]  Xiaoze Du,et al.  Experimental investigations of dynamic fluid flow in oscillating heat pipe under pulse heating , 2015 .

[73]  Marco Marengo,et al.  A pulsating heat pipe for space applications: Ground and microgravity experiments , 2015 .

[74]  S. Kim,et al.  Comparison of the thermal performances and flow characteristics between closed-loop and closed-end micro pulsating heat pipes , 2015 .

[75]  John R. Thome,et al.  Time-strip visualization and thermo-hydrodynamics in a Closed Loop Pulsating Heat Pipe , 2015 .

[76]  K. Ramachandran,et al.  Understanding thermo-fluidic characteristics of a glass tube closed loop pulsating heat pipe: flow patterns and fluid oscillations , 2015 .

[77]  S. Rittidech,et al.  The Helical Oscillating Heat Pipe: Flow Pattern Behaviour Study , 2015 .

[78]  Xiaoze Du,et al.  Thermal characteristics and flow patterns of oscillating heat pipe with pulse heating , 2014 .

[79]  W. Qu,et al.  Experimental study on effect of inclination angles to ammonia pulsating heat pipe , 2014 .

[80]  Ashish M. Mahalle,et al.  Thermo-hydrodynamics of closed loop pulsating heat pipe: an experimental study , 2014 .

[81]  S. Kim,et al.  Operational characteristics of pulsating heat pipes with a dual-diameter tube , 2014 .

[82]  Nandan Saha,et al.  Influence of process variables on the hydrodynamics and performance of a single loop pulsating heat pipe , 2014 .

[83]  Marco Marengo,et al.  Thermal response of a closed loop pulsating heat pipe under a varying gravity force , 2014 .

[84]  Nan Li,et al.  Effects of hydrophilic surface on heat transfer performance and oscillating motion for an oscillating heat pipe , 2014 .

[85]  A. Solomon,et al.  Effect of nanofluids on thermal performance of closed loop pulsating heat pipe , 2014 .

[86]  Sameer Khandekar,et al.  Infrared thermography of a pulsating heat pipe: Flow regimes and multiple steady states , 2014 .

[87]  Takayoshi Inoue,et al.  Bubble generation in oscillating heat pipe , 2013 .

[88]  Y.-C. Cheng,et al.  An experimental investigation of micro pulsating heat pipes , 2013, The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems.

[89]  Amir Faghri,et al.  Review and Advances in Heat Pipe Science and Technology , 2012 .

[90]  S. Rittidech,et al.  Flow patterns and heat-transfer characteristics of a top heat mode closed-loop oscillating heat pipe with check valves (THMCLOHP/CV) , 2012 .

[91]  Huiying Wu,et al.  Start-up, heat transfer and flow characteristics of silicon-based micro pulsating heat pipes , 2012 .

[92]  Daniel S. Hussey,et al.  Neutron phase volumetry and temperature observations in an oscillating heat pipe , 2012 .

[93]  Kai-Shing Yang,et al.  A novel design of pulsating heat pipe with fewer turns applicable to all orientations , 2012 .

[94]  Qian Wang,et al.  Experimental Investigation of Silicon-Based Micro-Pulsating Heat Pipe for Cooling Electronics , 2012 .

[95]  M. Kim,et al.  Bubble nucleation in microchannel flow boiling using single artificial cavity , 2011 .

[96]  Scott M. Thompson,et al.  Investigation of a flat-plate oscillating heat pipe with Tesla-type check valves , 2011 .

[97]  Cheng-Tang Pan,et al.  Convective boiling in a parallel microchannel heat sink with a diverging cross section and artificial nucleation sites , 2011 .

[98]  Daniel S. Hussey,et al.  Thermal and Visual Observation of Water and Acetone Oscillating Heat Pipes. , 2011, Journal of heat transfer.

[99]  Zhen Yang,et al.  Visualization of Two-Phase Flows in Nanofluid Oscillating Heat Pipes , 2011 .

[100]  Sameer Khandekar,et al.  Thermal radiators with embedded pulsating heat pipes: Infra-red thermography and simulations , 2011 .

[101]  L. Carotenuto,et al.  Observation of Marangoni flow in ordinary and self-rewetting fluids using optical diagnostic systems , 2011 .

[102]  Hongbin Ma,et al.  An Experimental Investigation of Uneven Turn Water and Acetone Oscillating Heat Pipes , 2011 .

[103]  S. Rittidech,et al.  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 , 2010 .

[104]  D. Jacobson,et al.  Heat Transport Capability and Fluid Flow Neutron Radiography of Three-Dimensional Oscillating Heat Pipes. , 2010, Journal of heat transfer.

[105]  Stéphane Lips,et al.  Experimental evidences of distinct heat transfer regimes in pulsating heat pipes (PHP) , 2010 .

[106]  Huiying Wu,et al.  Flow visualization of silicon-based micro pulsating heat pipes , 2010 .

[107]  Li Yan,et al.  Experimental research on heat transfer of pulsating heat pipe , 2008 .

[108]  Daniel S. Hussey,et al.  Visual Observation of Oscillating Heat Pipes Using Neutron Radiography , 2008 .

[109]  Yuwen Zhang,et al.  Advances and Unsolved Issues in Pulsating Heat Pipes , 2008 .

[110]  Hongbin Ma,et al.  Theoretical analysis of startup of a pulsating heat pipe , 2007 .

[111]  S. Rittidech,et al.  Heat-transfer characteristics of a closed-loop oscillating heat-pipe with check valves , 2007 .

[112]  Shi Liu,et al.  Experimental study of flow patterns and improved configurations for pulsating heat pipes , 2007 .

[113]  T. C. Cheng,et al.  Pool boiling heat transfer on artificial micro-cavity surfaces in dielectric fluid FC-72 , 2006 .

[114]  Jinliang Xu,et al.  High speed flow visualization of a closed loop pulsating heat pipe , 2005 .

[115]  Masahiro Kawaji,et al.  Microgravity performance of micro pulsating heat pipes , 2005 .

[116]  Yoshiyuki Abe,et al.  Thermal management with self-rewetting fluids , 2004 .

[117]  Manfred Groll,et al.  Closed loop pulsating heat pipes Part B: visualization and semi-empirical modeling , 2003 .

[118]  Sameer Khandekar,et al.  Closed loop pulsating heat pipes: Part A: parametric experimental investigations , 2003 .

[119]  Manfred Groll,et al.  Understanding operational regimes of closed loop pulsating heat pipes: an experimental study , 2003 .

[120]  S. Khandekar THERMOFLUID DYNAMIC STUDY OF FLAT-PLATE CLOSED-LOOP PULSATING HEAT PIPES , 2003 .

[121]  Kim Tiow Ooi,et al.  Closed-loop pulsating heat pipe , 2001 .

[122]  L. L. Vasiliev,et al.  REVIEW PAPERState-of-the-art on heat pipe technology in the former Soviet Union , 1998 .

[123]  A. Murata,et al.  Machine learning-based prediction of heat transport performance in oscillating heat pipe , 2022, Journal of Thermal Science and Technology.

[124]  X. Chen,et al.  Thermal performance of a tandem-dual-channel flat-plate pulsating heat pipe applicable to hypergravity , 2022, International Journal of Heat and Mass Transfer.

[125]  N. Shikazono,et al.  Heat transfer and flow characteristics of thermally induced two-phase oscillating flow in micro tubes , 2016 .

[126]  Marco Marengo,et al.  Local heat transfer measurement and thermo-fluid characterization of a pulsating heat pipe , 2014 .

[127]  Manfred Groll,et al.  Operational limit of closed loop pulsating heat pipes , 2008 .

[128]  Manfred Groll,et al.  An insight into thermo-hydrodynamic coupling in closed loop pulsating heat pipes , 2004 .