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[1]
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Analysis of Heat Flux Quenching of a SS-316L Rod Using Nanofluids
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Heat Transfer Engineering,
2024 |
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[2]
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Buku Ajar Perpindahan Panas Heat Sink dan Permukaan Bersirip
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Umsida Press,
2024 |
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[3]
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Heat Transfer Enhancement in Tubular Heat Exchanger with Jet Impingement: A Review
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Journal of Advanced …,
2023 |
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[4]
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Experimental Study of Quenching Progression on a Heated Flat Dimpled Surface with Water Jet Impingement
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Journal of Heat and Mass Transfer …,
2023 |
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[5]
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Heat transfer characteristics of jet impingement on a surface mounted with ribs using LES
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International Journal of …,
2023 |
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[6]
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Wall laminar nanofluid jet flow and heat transfer
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… of Numerical Methods for Heat & …,
2023 |
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[7]
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Influence of particle deposition on heat transfer characteristics for nanofluid free impinging jet: A numerical study
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Numerical Heat Transfer, Part A …,
2023 |
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[8]
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Numerical Investigation on the Influence of Particle Deposition on Nanofluid Jet Impinging Heat Transfer
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SSRN Electronic Journal,
2022 |
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[9]
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Heat Transfer Augmentation through Different Jet Impingement Techniques: A State-of-the-Art Review. Energies 2021, 14, 6458
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2021 |
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[10]
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Analysis of Heat Flux Quenching of a Cylindrical Rod Using Oxide Based Nanofluids
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Conference on Fluid Mechanics …,
2021 |
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[11]
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Nanofluids for the Next Generation Thermal Management of Electronics: A Review. Symmetry 2021, 13, 1362
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2021 |
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[12]
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Study on the thermal dissipation performance of GPU cooling system with nanofluid as coolant
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2021 |
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[13]
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Impact of thermophoretic particle deposition on Glauert wall jet slip flow of nanofluid
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Case Studies in Thermal …,
2021 |
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[14]
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Nanofluids for the next generation thermal management of electronics: A review
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Symmetry,
2021 |
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[15]
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Heat Transfer Augmentation through Different Jet Impingement Techniques: A State-of-the-Art Review
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Energies,
2021 |
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[16]
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A review on jet impingement cooling methods
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International Conference on Advances in Mechanical Engineering,
2021 |
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[17]
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A combined numerical simulation and optimization model for the cooling of IC chips under forced convection
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2020 |
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[18]
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Investigation of nanoparticle effects on jet impingement heat transfer: A review
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2020 |
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[19]
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Numerical Investigation of Semi-Empirical Relation Representing Nusselt Number Under Waterjet Impingement
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2020 |
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[20]
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Flow and Heat Transfer Characteristics of Impinging Bubbly Jet
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2020 |
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[21]
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A review of the state-of-the-art nanofluid spray and jet impingement cooling
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2020 |
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[22]
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Laminar slip wall jet of Glauert type and heat transfer
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2019 |
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[23]
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Liquid impingement cooling of cold plate heat sink with different fin configurations: High heat flux applications
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2019 |
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[24]
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MHD enhanced nanofluid mediated heat transfer in porous metal for CPU cooling
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2019 |
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[25]
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Experimental investigation of free-surface jet-impingement cooling by means of TiO2-water nanofluids
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2019 |
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[26]
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Two-Phase Simulation of Nanofluid in Impinging Jet
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2018 |
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[27]
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Hydrothermal Performance Enhancement in Different Types of Perforated Heat Sinks
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Journal of Multidisciplinary Engineering Science and Technology (JMEST),
2018 |
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[28]
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Linear instability of viscoelastic nanofluid microjet with the effect of Marangoni convection
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2018 |
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[29]
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Improvement and Design of Transmitter Modifier Wind Cooling Protection for CINRAD/CB Weather Radar
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2018 |
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[30]
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A REVIEW ON COOLING OF DISCRETE HEATED MODULES USING LIQUID JET IMPINGEMENT
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2018 |
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[31]
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Heat transfer and airflow characteristics enhancement of compact plate-pin fins heat sinks–a review
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Propulsion and Power Research,
2018 |
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[32]
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Experimental study of using γ-Al 2 O 3–water nanofluid flow through aluminum foam heat sink: Comparison with numerical approach
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International Journal of Heat and Mass Transfer,
2017 |
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[33]
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Coupling of nanofluid flow, heat transfer and nanoparticles sedimentation using OpenFOAM
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2017 |
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[34]
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Author's Declaration
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2017 |
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[35]
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Experimental study of using γ-Al2O3–water nanofluid flow through aluminum foam heat sink: comparison with numerical approach
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International Journal of Heat and Mass Transfer,
2017 |
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[36]
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Numerical and experimental investigation of flow structure and behavior of nanofluids flow impingement on horizontal flat plate
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Experimental Thermal and Fluid Science,
2016 |
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[37]
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Flow of nanofluid plane wall jet and heat transfer
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European Journal of Mechanics-B/Fluids,
2016 |
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[38]
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Design Optimisation and Analysis of Heat Sinks for Electronic Cooling
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2016 |
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[39]
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Chemical Engineering and Processing: process Intensification Experimental investigation of heat transfer characteristics of the hot surface using Al2O3 e …
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2015 |
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[40]
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Experimental investigation of heat transfer characteristics of the hot surface using Al2O3–water nanofluids
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Chemical Engineering and Processing - Process Intensification,
2015 |
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[41]
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Experimental investigation of heat transfer characteristics of the hot surface using Al 2 O 3–water nanofluids
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Chemical Engineering and Processing: Process Intensification,
2015 |
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[42]
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Process Intensification
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Chemical Engineering and Processing,
2015 |
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[43]
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Heat transfer performance of Cu–water nanofluids in the jet arrays impingement cooling system
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International Journal of Thermal Sciences,
2014 |
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[44]
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A Numerical Investigation of Impinging-Jet Cooling with Nanofluids
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Nanoscale and Microscale Thermophysical Engineering,
2014 |
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[45]
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A numerical investigation of impinging jet cooling with nanofluids
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Nanoscale and Microscale Thermophysical Engineering,
2014 |
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[46]
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An experimental investigation on the impingement of a planar jet of Al2O3–water nanofluid on a V-shaped plate
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Experimental Thermal and Fluid Science,
2013 |
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[47]
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An experimental investigation on the impingement of a planar jet of Al 2 O 3–water nanofluid on a V-shaped plate
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Experimental Thermal and Fluid Science,
2013 |
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[48]
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Investigation of heat transfer processes involved liquid impingement jets: a review
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Brazilian Journal of Chemical Engineering,
2013 |
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[49]
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Effect of Non-Condensable Gas Leakage on Long Term Cooling Performance of Loop Thermosyphon
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Journal of Electronics Cooling and Thermal Control,
2013 |
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[50]
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Heat Transfer Performance of Loop Thermosyphon using Enhanced Boiling and Condensation Surfaces
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Transaction on Control and Mechanical Systems,
2013 |
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[51]
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On the thermal cooling of central processing unit of the PCs with vapor chamber
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International Communications in Heat and Mass Transfer,
2012 |
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[52]
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การ ศึกษา ลักษณะ การ ถ่ายเท ความ ร้อน ของ เจ็ ท พุ่ง ชน ด้วย น้ำ ผสม ฟอง อากาศ
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