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Volume 1: Heat Transfer in Energy Systems; Thermophysical Properties; Theory and Fundamentals in Heat Transfer; Nanoscale Thermal Transport; Heat Transfer in Equipment; Heat Transfer in Fire and Combustion; Transport Processes in Fuel Cells and Heat Pipes; Boiling and Condensation in Macro, Micro and Nanosystems

Heat Transfer in Energy Systems

Applications

Evaluation of Heating Process of Apple, Eggplant, Zucchini and Potato by Means of Their Thermal Properties

Hilario Terres, Sandra Chavez, Raymundo Lopez, Arturo Lizardi, Araceli Lara

HT 2016; V001T01A001https://doi.org/10.1115/HT2016-7140

View Articletitled, Evaluation of Heating Process of Apple, Eggplant, Zucchini and Potato by Means of Their Thermal Properties

Topics: Heating , Thermal properties , Solar energy , Temperature , Computer simulation , Cylinders , Density , Electrical conductivity , Heat transfer coefficients , Specific heat

Evaluation of the Cover Glasses in Solar Cookers Box-Type Considering Conduction Heat Losses in Four Different Solar Cookers

Hilario Terres, Sandra Chavez, Raymundo Lopez, Arturo Lizardi, Araceli Lara

HT 2016; V001T01A002https://doi.org/10.1115/HT2016-7142

View Articletitled, Evaluation of the Cover Glasses in Solar Cookers Box-Type Considering Conduction Heat Losses in Four Different Solar Cookers

Topics: Glass , Heat conduction , Heat losses , Solar energy , Heating , Optical mirrors , Temperature , Solar radiation , Computer software , Convection

Numerical Investigation on a Latent Thermal Energy Storage With Aluminum Foam

Bernardo Buonomo, Davide Ercole, Oronzio Manca, Sergio Nardini

HT 2016; V001T01A003https://doi.org/10.1115/HT2016-7255

View Articletitled, Numerical Investigation on a Latent Thermal Energy Storage With Aluminum Foam

Topics: Aluminum , Thermal energy storage , Melting , Metal foams , Porosity , Heat transfer , Porous materials , Temperature , Aluminum tube , Computer simulation

Numerical Investigation of Heat Transfer and Condensation Rate in Two-Stage Transport Membrane Condenser Heat Exchanger Units

Soheil Soleimanikutanaei, Cheng-Xian Lin, Dexin Wang

HT 2016; V001T01A004https://doi.org/10.1115/HT2016-7291

View Articletitled, Numerical Investigation of Heat Transfer and Condensation Rate in Two-Stage Transport Membrane Condenser Heat Exchanger Units

Topics: Condensation , Condensers (steam plant) , Heat exchangers , Heat transfer , Membranes , Carbon dioxide , Computer simulation , Condensed matter , Design , Energy generation

Numerical Investigation on Heat Transfer Enhancement of Supercritical CO₂ Flowing in Heated Vertically Upward Tubes

Qian Zhang, Huixiong Li, Xianliang Lei, Xiangfei Kong, Jialun Liu, Weiqiang Zhang

HT 2016; V001T01A005https://doi.org/10.1115/HT2016-7300

View Articletitled, Numerical Investigation on Heat Transfer Enhancement of Supercritical CO<sub>2</sub> Flowing in Heated Vertically Upward Tubes

Topics: Heat transfer , Supercritical carbon dioxide , High temperature steam , Fluids , Specific heat , Turbulence , Buoyancy , Flow (Dynamics) , Heat , Thermal conductivity

A New Correlation for Heat Transfer Coefficient Prediction of Supercritical Pressure Water Flowing in Vertical Upward Tubes

Xiangfei Kong, Huixiong Li, Changjiang Liao, Xianliang Lei, Qian Zhang

HT 2016; V001T01A006https://doi.org/10.1115/HT2016-7304

View Articletitled, A New Correlation for Heat Transfer Coefficient Prediction of Supercritical Pressure Water Flowing in Vertical Upward Tubes

Topics: Heat transfer coefficients , Pressure , Water , Heat transfer , Boilers , Databases , Nuclear reactors , Power stations , Supercritical water reactors , Thermal efficiency

A Novel Double-Pipe Heat Storage Unit

A. Rozenfeld, Y. Kozak, T. Rozenfeld, G. Ziskind

HT 2016; V001T01A007https://doi.org/10.1115/HT2016-7394

View Articletitled, A Novel Double-Pipe Heat Storage Unit

Topics: Heat storage , Pipes , Melting , Fins , Heat transfer , Shells , Transparency , Aluminum , Computer simulation , Design

Design and Performance Analysis

Numerical Study on the Performance of a Tube With Inserted Porous Media of Various Thermal Conductivities

Tariq Amin Khan, Wei Li

HT 2016; V001T01A008https://doi.org/10.1115/HT2016-7056

View Articletitled, Numerical Study on the Performance of a Tube With Inserted Porous Media of Various Thermal Conductivities

Topics: Porous materials , Flow (Dynamics) , Fluids , Thermal conductivity , Fluid dynamics , Inertia (Mechanics) , Laminar flow , Momentum , Performance evaluation , Temperature profiles

Experimental Measurement of Flue Gas Temperature Versus Ash Accumulation

Yuetao Shi, Xiaojuan Wang, Da Chu, Fengzhong Sun, Zhixiong Guo

HT 2016; V001T01A009https://doi.org/10.1115/HT2016-7189

View Articletitled, Experimental Measurement of Flue Gas Temperature Versus Ash Accumulation

Topics: Flue gases , Temperature , Particulate matter , Dust removal

Energy Conversion

Thermal Model of a Thin Film Pulsed Pyroelectric Generator

Nicholas R. Jankowski, Andrew N. Smith, Brendan M. Hanrahan

HT 2016; V001T01A010https://doi.org/10.1115/HT2016-7437

View Articletitled, Thermal Model of a Thin Film Pulsed Pyroelectric Generator

Topics: Generators , Thin films , Cycles , Temperature , Energy conversion , Energy generation , Heating , Thermodynamic cycles , Transients (Dynamics) , Brayton cycle

Fundamentals

Effect of Prandtl Number on the Heat Transfer From a Rotating Disk: An Experimental Study

Christian Helcig, Stefan aus der Wiesche

HT 2016; V001T01A011https://doi.org/10.1115/HT2016-7062

View Articletitled, Effect of Prandtl Number on the Heat Transfer From a Rotating Disk: An Experimental Study

Topics: Heat transfer , Prandtl number , Rotating disks , Water , Fluids , Boundary layer turbulence , Convection , Disks , Flow (Dynamics) , Heat transfer coefficients

Heat Transfer in Two-Phase Vertical Co-Flow in the Presence of a Mesh-Type Bubble Breaker

Alan Kalbfleisch, Kamran Siddiqui

HT 2016; V001T01A012https://doi.org/10.1115/HT2016-7122

View Articletitled, Heat Transfer in Two-Phase Vertical Co-Flow in the Presence of a Mesh-Type Bubble Breaker

Topics: Bubbles , Flow (Dynamics) , Heat transfer , Pipe flow , Pipes , Reynolds number , Slug flows , Temperature measurement , Chemical kinetics , Convection

Melting in a Rectangular Cavity

Y. Kozak, G. Ziskind

HT 2016; V001T01A013https://doi.org/10.1115/HT2016-7210

View Articletitled, Melting in a Rectangular Cavity

Topics: Cavities , Melting , Natural convection , Density , Enthalpy , Modeling , Rayleigh number , Wall temperature

Characterization Phase Change Materials (PCM) Using T-History Method

Navin Kumar, Debjyoti Banerjee

HT 2016; V001T01A014https://doi.org/10.1115/HT2016-7310

View Articletitled, Characterization Phase Change Materials (PCM) Using T-History Method

Topics: Phase change materials , Data collection , Differential scanning calorimetry , Materials properties , Temperature measurement , Testing , Thermal properties

Thermophysical Properties

Measurements and Computations of Thermophysical Properties

Improving the Resolution of Steady-State, Infrared-Based Thermal Interface Resistance Measurements Using High-Precision Metrology to Determine In-Situ TIM Thickness

Ronald J. Warzoha, Andrew N. Smith, Maurice Harris

HT 2016; V001T02A001https://doi.org/10.1115/HT2016-7043

View Articletitled, Improving the Resolution of Steady-State, Infrared-Based Thermal Interface Resistance Measurements Using High-Precision Metrology to Determine In-Situ TIM Thickness

Topics: Metrology , Resolution (Optics) , Steady state , Flow (Dynamics) , Heat , Interfacial thermal resistance , Junctions , Measurement systems , Measurement uncertainty , Performance characterization

Effect of Carbon Powder on the Fluid Properties of PAM Solution

Meng Zhang, Hong-Na Zhang, Si-Ning Li, Xiao-Bin Li, Feng-Chen Li

HT 2016; V001T02A002https://doi.org/10.1115/HT2016-7172

View Articletitled, Effect of Carbon Powder on the Fluid Properties of PAM Solution

Topics: Carbon , Fluids , Heat transfer , Thermal conductivity , Viscoelastic fluids , Drag (Fluid dynamics) , Particulate matter , Temperature , Viscosity , Rheometers

Prediction of Thermal Boundary Conductance at the Interface With Phonon Wave-Packet Simulations: The Roles of Vibrational Spectra Differences, Interface Bond Strength, and Inelastic Scattering

ChangJin Choi, W. Tanner Yorgason, Nicholas A. Roberts

HT 2016; V001T02A003https://doi.org/10.1115/HT2016-7177

View Articletitled, Prediction of Thermal Boundary Conductance at the Interface With Phonon Wave-Packet Simulations: The Roles of Vibrational Spectra Differences, Interface Bond Strength, and Inelastic Scattering

Topics: Bond strength , Electrical conductance , Electromagnetic scattering , Engineering simulation , Phonons , Radiation scattering , Scattering (Physics) , Simulation , Vibrational spectra , Wave packets

Thermophysical Properties of Two-Phase Refrigerant Based Nanofluids in a Refrigeration Cycle

Bilgehan Tekin, Almila G. Yazicioglu

HT 2016; V001T02A004https://doi.org/10.1115/HT2016-7192

View Articletitled, Thermophysical Properties of Two-Phase Refrigerant Based Nanofluids in a Refrigeration Cycle

Topics: Nanofluids , Refrigerants , Refrigeration cycles , Heat transfer , Fluids , Flow (Dynamics) , Nanoparticles , Condensers (steam plant) , Cycles , Design

Two-Step Raman Method for Interface Thermal Resistance and In-Plane Thermal Conductivity Characterization of Graphene Interface Materials

Man Li, Yanan Yue

HT 2016; V001T02A005https://doi.org/10.1115/HT2016-7362

View Articletitled, Two-Step Raman Method for Interface Thermal Resistance and In-Plane Thermal Conductivity Characterization of Graphene Interface Materials

Topics: Graphene , Thermal conductivity , Thermal resistance , Interfacial thermal resistance , Phonons , Heating , Temperature , Couplings , Electromagnetic scattering , Heat transfer

Numerical Study of Heat Conduction of High Porosity Open-Cell Metal Foam/Paraffin Composite at Pore Scale

Yuanpeng Yao, Huiying Wu, Zhenyu Liu

HT 2016; V001T02A006https://doi.org/10.1115/HT2016-7386

View Articletitled, Numerical Study of Heat Conduction of High Porosity Open-Cell Metal Foam/Paraffin Composite at Pore Scale

Topics: Composite materials , Heat conduction , Metal foams , Paraffin wax , Porosity , Computation , Computer simulation , Equilibrium (Physics) , Heat flux , Heat transfer

Theory and Fundamentals in Heat Transfer

Fundamentals of Boiling and Condensation

Numerical Investigation on Heat Transfer Characteristics of High Pressure Boiling Water in Vertical Internally-Ribbed Tubes

Kaikai Guo, Huixiong Li, Qing Zhang, Weiqiang Zhang, Yuan Feng

HT 2016; V001T03A001https://doi.org/10.1115/HT2016-7296

View Articletitled, Numerical Investigation on Heat Transfer Characteristics of High Pressure Boiling Water in Vertical Internally-Ribbed Tubes

Topics: Boiling , Heat transfer , High pressure (Physics) , Water , Bubbles , Wall temperature , Flow (Dynamics)

Fundamentals of Convection in Porous Media

Experimental and Numerical Investigation on Mixed Convection in Horizontal Channels Partially Filled With Aluminum Foam and Heated From Below

Bernardo Buonomo, Luca Cirillo, Oronzio Manca, Sergio Nardini

HT 2016; V001T03A002https://doi.org/10.1115/HT2016-7256

View Articletitled, Experimental and Numerical Investigation on Mixed Convection in Horizontal Channels Partially Filled With Aluminum Foam and Heated From Below

Topics: Aluminum , Mixed convection , Flow (Dynamics) , Wall temperature , Buoyancy , Cavity walls , Chemical vapor deposition , Computer cooling , Flow visualization , Forced convection

Experimental and Numerical Investigation on Natural Convection in Horizontal Channels Partially Filled With Aluminium Foam and Heated From Below

Bernardo Buonomo, Oronzio Manca, Sergio Nardini, Alessandra Diana

HT 2016; V001T03A003https://doi.org/10.1115/HT2016-7257

View Articletitled, Experimental and Numerical Investigation on Natural Convection in Horizontal Channels Partially Filled With Aluminium Foam and Heated From Below

Topics: Aluminum , Natural convection , Emissivity , Heat flux , Wall temperature , Computer simulation , Flow (Dynamics) , Flow visualization , Fluids , Foams (Chemistry)

Periodic Natural Convection Inside a Fluid Saturated Porous Medium Made of Disconnected Solid Obstacles: A Continuum Approach

S. M. Mirehei, J. L. Lage

HT 2016; V001T03A004https://doi.org/10.1115/HT2016-7294

View Articletitled, Periodic Natural Convection Inside a Fluid Saturated Porous Medium Made of Disconnected Solid Obstacles: A Continuum Approach

Topics: Fluids , Natural convection , Porous materials , Heating , Modeling , Boundary layers , Heat transfer , High temperature , Low temperature , Prandtl number

Pore-Scale Modeling of Natural Convection in Reconstructed Porous Media

Zhenyu Liu, Huiying Wu

HT 2016; V001T03A005https://doi.org/10.1115/HT2016-7377

View Articletitled, Pore-Scale Modeling of Natural Convection in Reconstructed Porous Media

Topics: Modeling , Natural convection , Porous materials , Heat transfer , Transport phenomena , Flow (Dynamics) , Space , Computer simulation , Equilibrium (Physics) , Geometry

Analysis of the Momentum Transport Boundary Conditions at a Fluid-Porous Interface

Hao Chen, Jiabing Wang, Kun Yang

HT 2016; V001T03A006https://doi.org/10.1115/HT2016-7395

View Articletitled, Analysis of the Momentum Transport Boundary Conditions at a Fluid-Porous Interface

Topics: Boundary-value problems , Fluids , Momentum , Flow (Dynamics) , Stress , Composite materials , Porous materials , Computer simulation , Mesoscopic systems , Navier-Stokes equations

Numerical Simulation of the Convection in a Non-Homogenous Lid-Driven Square Cavity Subjected to a Gravitational Stable Condition

Vinícius G. Poletto, Fernando C. De Lai, Admilson T. Franco, Silvio L. M. Junqueira

HT 2016; V001T03A007https://doi.org/10.1115/HT2016-7405

View Articletitled, Numerical Simulation of the Convection in a Non-Homogenous Lid-Driven Square Cavity Subjected to a Gravitational Stable Condition

Topics: Cavities , Computer simulation , Convection , Flow (Dynamics) , Fluids , Buoyancy , Heat transfer , Heat , Porous materials , Algorithms

Exploring Augmentation of Thermal-Fluid Transport in Fractal Architectures

Surupa Shaw, Debjyoti Banerjee

HT 2016; V001T03A008https://doi.org/10.1115/HT2016-7492

View Articletitled, Exploring Augmentation of Thermal-Fluid Transport in Fractal Architectures

Topics: Architecture , Fractals , Thermofluids , Heat , Heat transfer , Energy dissipation , Flux (Metallurgy) , Appropriate technology , Cooling systems , Energy consumption

Fundamentals of Nanomaterials and Nanostructures for Energy Applications

A Mie-Metamaterial Based Thermal Emitter for TPV Applications

Alok Ghanekar, Yi Zheng

HT 2016; V001T03A009https://doi.org/10.1115/HT2016-7123

View Articletitled, A Mie-Metamaterial Based Thermal Emitter for TPV Applications

Topics: Metamaterials , Thin films , Nanoparticles , Tungsten , Design , Gages , Photovoltaics , Refractive index , Resonance , Wavelength

Spectral Tuning of Radiative Heat Transfer Using Nanoparticles

Alok Ghanekar, Yi Zheng, Laura Lin, Zongqin Zhang, Mingdi Sun

HT 2016; V001T03A010https://doi.org/10.1115/HT2016-7493

View Articletitled, Spectral Tuning of Radiative Heat Transfer Using Nanoparticles

Topics: Nanoparticles , Radiative heat transfer , Thermal radiation , Emissivity , Radiation (Physics) , Reflectance , Space , Thin films , Wavelength

Fundamentals of Nanoscale Transport in Flows

Review of Molten Salt Nanofluids

Farzam Mortazavi, Debjyoti Banerjee

HT 2016; V001T03A011https://doi.org/10.1115/HT2016-7316

View Articletitled, Review of Molten Salt Nanofluids

Topics: Nanofluids , Nanoparticles , Specific heat , Thermal conductivity , Fluids , Temperature , Energy generation , Molecular dynamics simulation , Rheology , Agglomeration (Materials)

Suspended Particle Streaming in an Oscillatory Mini/Micro Bifurcation Network Flow

Zongqin Zhang, Chandler Liu, D. M. L. Meyer, Weixing Zhang, Yi Zheng

HT 2016; V001T03A012https://doi.org/10.1115/HT2016-7487

View Articletitled, Suspended Particle Streaming in an Oscillatory Mini/Micro Bifurcation Network Flow

Topics: Bifurcation , Flow (Dynamics) , Particulate matter , Fluids , Flat heat pipes , Computer simulation , Heat , Heating , Phase change materials , Vibration

Selective Emission Properties and vdW Energy of Micro/Nano-Sized Spherical Shapes

Alok Ghanekar, Yi Zheng, Weixing Zhang, Zongqin Zhang

HT 2016; V001T03A013https://doi.org/10.1115/HT2016-7494

View Articletitled, Selective Emission Properties and vdW Energy of Micro/Nano-Sized Spherical Shapes

Topics: Emissions , Shapes , Stress , Surface energy , Bubbles , Electrodynamics , Electromagnetic fields , Emission spectra , Emissivity , Flat plates

Nanoscale Thermal Transport

Advances in Modeling and Simulation of Nanoscale Heat Conduction

Modeling Thermal Conductivity of Aligned CNT-Matrix Composites With Increasing Volume Fraction

Diana Grandio, Drazen Fabris

HT 2016; V001T04A001https://doi.org/10.1115/HT2016-7145

View Articletitled, Modeling Thermal Conductivity of Aligned CNT-Matrix Composites With Increasing Volume Fraction

Topics: Carbon nanotubes , Composite materials , Modeling , Thermal conductivity , Particulate matter , Finite element analysis , Fibers , Computation , Elastic moduli , Interfacial thermal resistance

Mode Resolved Continuum Mechanics Model of Phonon Scattering From Embedded Cylinders

Vineet Unni, Joseph P. Feser

HT 2016; V001T04A002https://doi.org/10.1115/HT2016-7219

View Articletitled, Mode Resolved Continuum Mechanics Model of Phonon Scattering From Embedded Cylinders

Topics: Continuum mechanics , Cylinders , Phonons , Scattering (Physics) , Elastic waves , Thermal conductivity , Tensors , Wavelength , Approximation , Density

Effects of Field Plate on the Maximum Temperature and Temperature Distribution for GaN HEMT Devices

Dogacan Kara, Nazli Donmezer, Talha Furkan Canan, Ozlem Sen, Ekmel Ozbay

HT 2016; V001T04A003https://doi.org/10.1115/HT2016-7367

View Articletitled, Effects of Field Plate on the Maximum Temperature and Temperature Distribution for GaN HEMT Devices

Topics: Gallium nitride , Temperature , Temperature distribution , Electric fields , Electron mobility , Heating , Plates (structures) , Transistors , Engineering simulation , Finite element analysis

Hard-Soft Material Interfaces and Thermal Interface Materials

Highly Conductive Thermal Paste of Liquid Metal Alloy Dispersed With Copper Particles

Gen Li, Yulong Ji, Mengke Wu, Hongbin Ma

HT 2016; V001T04A004https://doi.org/10.1115/HT2016-7374

View Articletitled, Highly Conductive Thermal Paste of Liquid Metal Alloy Dispersed With Copper Particles

Topics: Alloys , Copper , Liquid metals , Particulate matter , Thermal conductivity , Bubbles , Contact resistance , Eutectic alloys , Gallium , Lasers

Effect of Particle Size and Aggregation on Thermal Conductivity of Metal-Polymer Nanocomposite

Xiangyu Li, Wonjun Park, Yong P. Chen, Xiulin Ruan

HT 2016; V001T04A005https://doi.org/10.1115/HT2016-7413

View Articletitled, Effect of Particle Size and Aggregation on Thermal Conductivity of Metal-Polymer Nanocomposite

Topics: Metals , Nanocomposites , Particle size , Polymers , Thermal conductivity , Nanoparticles , Approximation , Epoxy adhesives , Epoxy resins , Fillers (Materials)

Thermal Interfacial Resistance Reduction Between Metal and Dielectric Materials by Inserting Intermediate Metal Layer

Xiangyu Li, Wonjun Park, Yong P. Chen, Xiulin Ruan

HT 2016; V001T04A006https://doi.org/10.1115/HT2016-7414

View Articletitled, Thermal Interfacial Resistance Reduction Between Metal and Dielectric Materials by Inserting Intermediate Metal Layer

Topics: Dielectric materials , Interfacial thermal resistance , Metals , Aluminum , Electrons , Phonons , Nickel , Simulation results , Temperature

Micro/Nano-Structured Surfaces for Phase-Change Heat Transfer

Dynamics of Droplet Motion Induced by Electrowetting

Yi Lu, Aritra Sur, Dong Liu, Carmen Pascente, Paul Ruchhoeft

HT 2016; V001T04A007https://doi.org/10.1115/HT2016-7331

View Articletitled, Dynamics of Droplet Motion Induced by Electrowetting

Topics: Drops , Dynamics (Mechanics) , Computational fluid dynamics , Computer simulation , Fluids , Photography , Shapes , Signals , Spatiotemporal phenomena , Switches

Nanobubbles, Nanodroplets, and Nanofluids

Experimental Investigation of Oscillation Controlled Thermal Transport in Water-Based Nanofluids

Oguz Guven, Murat K. Aktas, Yildiz Bayazitoglu

HT 2016; V001T04A008https://doi.org/10.1115/HT2016-7343

View Articletitled, Experimental Investigation of Oscillation Controlled Thermal Transport in Water-Based Nanofluids

Topics: Nanofluids , Oscillations , Water , Heat transfer , Pipes , Reservoirs , Flow (Dynamics) , Fluids , Vibration , Displacement

Liquid Layering and the Enhanced Thermal Conductivity of Ar-Cu Nanofluids: A Molecular Dynamics Study

Jithu Paul, A. K. Madhu, U. B. Jayadeep, C. B. Sobhan

HT 2016; V001T04A009https://doi.org/10.1115/HT2016-7385

View Articletitled, Liquid Layering and the Enhanced Thermal Conductivity of Ar-Cu Nanofluids: A Molecular Dynamics Study

Topics: Molecular dynamics , Nanofluids , Thermal conductivity , Nanoparticles , Particle size , Particulate matter , Engineering simulation , Fluids , Simulation , Copper

Heat Transfer in Equipment

Advances in Enhanced Heat Transfer

Heat Transfer Enhancement in Split and Recombine Flow Configurations: A Numerical and Experimental Study

Mojtaba Jarrahi, Jean-Pierre Thermeau, Hassan Peerhossaini

HT 2016; V001T05A001https://doi.org/10.1115/HT2016-7119

View Articletitled, Heat Transfer Enhancement in Split and Recombine Flow Configurations: A Numerical and Experimental Study

Topics: Flow (Dynamics) , Heat transfer , Heat exchangers , Convection , Shells , Temperature , Fluids , Prandtl number , Pressure drop , Reynolds number

A CFD Study of the Thermo-Hydraulic Characteristics of Pillow-Plate Heat Exchangers

Mark Piper, Julian M. Tran, Eugeny Y. Kenig

HT 2016; V001T05A002https://doi.org/10.1115/HT2016-7176

View Articletitled, A CFD Study of the Thermo-Hydraulic Characteristics of Pillow-Plate Heat Exchangers

Topics: Computational fluid dynamics , Heat exchangers , Heat transfer , Design methodology , Eddies (Fluid dynamics) , Experimental methods , Flow (Dynamics) , Pipes , Plates (structures) , Pressure drop

Local Heat Transfer Coefficients Measurement Under Micro Jet Impinging Using Nitrogen Gas (N₂)

Jeong-Heon Shin, Tomer Rozenfeld, Ashwin Vutha, Yingying Wang, Gennady Ziskind, Yoav Peles

HT 2016; V001T05A003https://doi.org/10.1115/HT2016-7215

View Articletitled, Local Heat Transfer Coefficients Measurement Under Micro Jet Impinging Using Nitrogen Gas (N<sub>2</sub>)

Topics: Heat transfer coefficients , Nitrogen , Semiconductor wafers , Borosilicate glasses , Flow (Dynamics) , Simulation , Temperature distribution , Cooling , Drilling , Fluids

Nusselt Numbers for Fully-Developed Flow Between Parallel Plates With One Plate Textured With Isothermal Parallel Ridges

Georgios Karamanis, Marc Hodes, Toby Kirk, Demetrios T. Papageorgiou

HT 2016; V001T05A004https://doi.org/10.1115/HT2016-7262

View Articletitled, Nusselt Numbers for Fully-Developed Flow Between Parallel Plates With One Plate Textured With Isothermal Parallel Ridges

Topics: Flow (Dynamics) , Plates (structures) , Boundary-value problems , Eigenvalues , Eigenfunctions , Shear (Mechanics) , Temperature , Temperature profiles , Thermal energy

Cooling Performances of Perforated-Finned Heat Sinks

Mohammad Reza Shaeri, Bradley Richard, Richard Bonner

HT 2016; V001T05A005https://doi.org/10.1115/HT2016-7284

View Articletitled, Cooling Performances of Perforated-Finned Heat Sinks

Topics: Cooling , Heat sinks , Porosity , Heat transfer coefficients , Temperature nonunifomity , Cooling systems , Cross section (Physics) , Fins , Forced convection , Heat transfer

Turbulent Natural Convection in a Composite Enclosure Using the Thermal Non-Equilibrium Model

Marcelo J. S. de Lemos, Caio B. Masciarelli

HT 2016; V001T05A006https://doi.org/10.1115/HT2016-7327

View Articletitled, Turbulent Natural Convection in a Composite Enclosure Using the Thermal Non-Equilibrium Model

Topics: Composite materials , Equilibrium (Physics) , Natural convection , Turbulence , Cavities , Fluids , Finite volume methods , Heat , Porous materials

Numerical Investigation of Micro-Channeled Louver Fin Aluminum Heat Exchangers at Low Reynolds Number

Pradeep Shinde, Mirko Schäfer, Cheng-Xian Lin

HT 2016; V001T05A007https://doi.org/10.1115/HT2016-7329

View Articletitled, Numerical Investigation of Micro-Channeled Louver Fin Aluminum Heat Exchangers at Low Reynolds Number

Topics: Aluminum , Heat exchangers , Reynolds number , Flow (Dynamics) , Heat transfer , Computer simulation , Design , Fins , Friction , Geometry

First-Order Model of Free-Jet Hydrodynamic Evolution for Heat Transfer Prediction, Including Nozzle and Flow Rate Effects

Ron S. Harnik, Herman D. Haustein

HT 2016; V001T05A008https://doi.org/10.1115/HT2016-7388

View Articletitled, First-Order Model of Free-Jet Hydrodynamic Evolution for Heat Transfer Prediction, Including Nozzle and Flow Rate Effects

Topics: Flow (Dynamics) , Heat transfer , Nozzles , Flight , Pipes , Cooling , Jets , Laminar flow , Surface tension , Approximation

Heat Transfer in Energy-Water Conservation

Modeling of Heat Transfer and Energy Efficiency Performance of Transient Cold Storage in Phase Change Thermal Storage Components

Andrea Helmns, Van P. Carey

HT 2016; V001T05A009https://doi.org/10.1115/HT2016-7237

View Articletitled, Modeling of Heat Transfer and Energy Efficiency Performance of Transient Cold Storage in Phase Change Thermal Storage Components

Topics: Energy efficiency , Heat transfer , Modeling , Storage , Thermal energy storage , Transients (Dynamics) , Design , Energy storage , Partial differential equations

Numerical Modeling of Chevron Plate Heat Exchangers for Thermal Management Applications

Harsh Tamakuwala, Ryan Von Ness, Debjyoti Banerjee

HT 2016; V001T05A010https://doi.org/10.1115/HT2016-7312

View Articletitled, Numerical Modeling of Chevron Plate Heat Exchangers for Thermal Management Applications

Topics: Computer simulation , Heat exchangers , Thermal management , Flow (Dynamics) , Geometry , Plates (structures) , Heat flux , Heat transfer , Vortices , Aerospace industry

Effect of Porous Insert on Heat Transfer in a Backward-Facing Step Flow

Marcelo J. S. de Lemos, Wagner C. Galuppo

HT 2016; V001T05A011https://doi.org/10.1115/HT2016-7328

View Articletitled, Effect of Porous Insert on Heat Transfer in a Backward-Facing Step Flow

Topics: Flow (Dynamics) , Heat transfer , Porous materials , Algorithms , Bubbles , Damping , Eddies (Fluid dynamics) , Pressure , Turbulence , Turbulent heat transfer

Heat Transfer in Fire and Combustion

A Numerical Study of Radiative Heat Transfer in a Cylindrical Furnace by Using Finite Volume Method

Zhenhua Wang, Bengt Sunden, Shikui Dong, Zhihong He, Weihua Yang, Lei Wang

HT 2016; V001T06A001https://doi.org/10.1115/HT2016-7095

View Articletitled, A Numerical Study of Radiative Heat Transfer in a Cylindrical Furnace by Using Finite Volume Method

Topics: Finite volume methods , Furnaces , Radiative heat transfer , Absorption , Heat flux , Gases , Algorithms , Approximation , Carbon dioxide , Combustion chambers

Progress on the Development of a “Swiss-Roll” Fuel Reformer for Syngas Production

Chien-Hua Chen, Bradley Richard, Ying Zheng, Howard Pearlman, Shrey Trivedi, Srushti Koli, Andrew Lawson, Paul Ronney

HT 2016; V001T06A002https://doi.org/10.1115/HT2016-7277

View Articletitled, Progress on the Development of a “Swiss-Roll” Fuel Reformer for Syngas Production

Topics: Fuels , Syngas , Heat , Catalysts , Solid oxide fuel cells , Temperature , Additive manufacturing , Electric power generation , Equilibrium (Physics) , Heat exchangers

Numerical Simulation and Optimization of a Carbon Monoxide Boiler

Guangwu Tang, Bin Wu, Chenn Q. Zhou

HT 2016; V001T06A003https://doi.org/10.1115/HT2016-7281

View Articletitled, Numerical Simulation and Optimization of a Carbon Monoxide Boiler

Topics: Boilers , Carbon , Computer simulation , Optimization , Combustion , Flue gases , Computational fluid dynamics , Flow (Dynamics) , Heat transfer , Thermal efficiency

Experimental Study on Flame Behavior in Under-Ventilated Train Car

K. L. Wong, W. K. Chow, Y. W. Ng

HT 2016; V001T06A004https://doi.org/10.1115/HT2016-7334

View Articletitled, Experimental Study on Flame Behavior in Under-Ventilated Train Car

Topics: Flames , Trains , Fire , Ventilation , Combustion , Oxygen , Doors , Fuels , Subways , Automobiles

Schlieren 3D-CT Reconstruction of Instantaneous Density Distributions of Spark-Ignited Flame Kernels of Fuel-Rich Propane-Air Premixture

Yojiro Ishino, Naoki Hayashi, Yuta Ishiko, Ahmad Zaid Nazari, Kimihiro Nagase, Kazuma Kakimoto, Yu Saiki

HT 2016; V001T06A005https://doi.org/10.1115/HT2016-7423

View Articletitled, Schlieren 3D-CT Reconstruction of Instantaneous Density Distributions of Spark-Ignited Flame Kernels of Fuel-Rich Propane-Air Premixture

Topics: Density , Flames , Fuels , Brightness (Photometry) , Shapes , Light sources , Turbulence , Algorithms , Electrodes , Filters

The Mass Burning Rate of n-Heptane Pool Fire Under Dynamic Pressure

Qiuju Ma, Quanyi Liu, Runhe Tian, Junjian Ye, Rui Yang, Hui Zhang

HT 2016; V001T06A006https://doi.org/10.1115/HT2016-7448

View Articletitled, The Mass Burning Rate of <em>n</em>-Heptane Pool Fire Under Dynamic Pressure

Topics: Combustion , Heptane , Liquid pool fires , Pressure , Fuels , Aircraft , Hypobaric chambers , Oxygen , Air flow , Diffusion flames

Transport Processes in Fuel Cells and Heat Pipes

CFD Modelling of the Dehydrogenation Reaction of Isobutane to Isobutylene in a Fixed Bed Reactor

Tarek J. Jamaleddine, Ramsey M. Bunama

HT 2016; V001T23A001https://doi.org/10.1115/HT2016-1071

View Articletitled, CFD Modelling of the Dehydrogenation Reaction of Isobutane to Isobutylene in a Fixed Bed Reactor

Topics: Aluminum , Catalysts , Computational fluid dynamics , Flow (Dynamics) , Materials properties , Modeling , Particulate matter , Porous materials , Simulation results

Boiling and Condensation in Macro, Micro and Nanosystems

Electrical Suppression of Film Boiling During Quenching

Arjang Shahriari, Mark Hermes, Vaibhav Bahadur

HT 2016; V001T24A001https://doi.org/10.1115/HT2016-1002

View Articletitled, Electrical Suppression of Film Boiling During Quenching

Topics: Film boiling , Quenching (Metalworking) , Heat transfer , Vapors , Boiling , Cooling , Wetting , Downtime , Electric fields , Fluids

A Computational Approach to Study Heat Transfer Enhancement in Film Boiling due to the Addition of Surfactants

Kannan N. Premnath, Farzaneh Hajabdollahi, Samuel W. J. Welch

HT 2016; V001T24A002https://doi.org/10.1115/HT2016-1003

View Articletitled, A Computational Approach to Study Heat Transfer Enhancement in Film Boiling due to the Addition of Surfactants

Topics: Film boiling , Heat transfer , Surfactants , Boiling , Bubbles , Convection , Currents , Desorption , Diffusion (Physics) , Equilibrium (Physics)

Two-Phase Heat Transfer Behaviors of R-134a Refrigerant and Air-Water Mixture in a 1 mm Internal Diameter Tube

Sira Saisorn, Somchai Wongwises, Pakorn Wongpromma, Phakkhanan Benjawun, Adirek Suriyawong

HT 2016; V001T24A003https://doi.org/10.1115/HT2016-1004

View Articletitled, Two-Phase Heat Transfer Behaviors of R-134a Refrigerant and Air-Water Mixture in a 1 mm Internal Diameter Tube

Topics: Heat transfer , Refrigerants , Water , Flow (Dynamics) , Boiling , Heat flux , Flow visualization , Fluids , Pressure , Reynolds number

Laser-Induced Bubble Formation on a Micro Gold Particle Levitated Under Ultrasound

Jaekyoon Oh, Yungpil Yoo, Samsun Seung, Ho-Young Kwak

HT 2016; V001T24A004https://doi.org/10.1115/HT2016-1006

View Articletitled, Laser-Induced Bubble Formation on a Micro Gold Particle Levitated Under Ultrasound

Topics: Bubbles , Lasers , Particulate matter , Ultrasound , Water , Acoustics , Nanoparticles , Cavitation , Collapse , Electromagnetic scattering

Effect of the Wettability on the IR Laser Photothermally Induced Phase Change in Microchannels

Xuefeng He, Rong Chen, Xun Zhu, Qiang Liao

HT 2016; V001T24A005https://doi.org/10.1115/HT2016-1007

View Articletitled, Effect of the Wettability on the IR Laser Photothermally Induced Phase Change in Microchannels

Topics: Lasers , Microchannels , Slug flows , Evaporation , Plasma desorption mass spectrometry , Plasmas (Ionized gases) , Surface finishing , Thermal resistance

Experimental Study and Analysis of Dropwise Condensation Using Quartz Crystal Microbalance

Junwei Su, Murat Inalpolat, Tingjian Ge, Hamed Esmaeilzadeh, Hongwei Sun

HT 2016; V001T24A006https://doi.org/10.1115/HT2016-1033

View Articletitled, Experimental Study and Analysis of Dropwise Condensation Using Quartz Crystal Microbalance

Topics: Condensation , Quartz crystals , Signal processing , Signals , Surface finishing , Discrete systems , Drops , Image processing , Lithography , Modeling