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Proceedings Papers

Proceedings Volume Cover
ASME 2020 Heat Transfer Summer Conference collocated with the ASME 2020 Fluids Engineering Division Summer Meeting and the ASME 2020 18th International Conference on Nanochannels, Microchannels, and Minichannels
July 13–15, 2020
Virtual, Online
Conference Sponsors:
  • Heat Transfer Division
ISBN:
978-0-7918-8370-9
In This Volume
ASME 2020 Heat Transfer Summer Conference

Computational Heat Transfer

Applications of Computational Heat Transfer

A Comparative Study Between Two-Dimensional and Three-Dimensional Simulation Results of Melting Inside a Container
Nan Hu, Li-Wu Fan
HT 2020; V001T02A001doi:https://doi.org/10.1115/HT2020-8954
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Topics: Containers , Melting , Simulation results , Cavities , Convection , Engineering simulation , Heating , Nanoparticles , Phase change materials , Simulation
A Computational Investigation of Dynamic Stabilization of Rayleigh-Bénard Convection Under System Acceleration
Ilker Topcuoglu, Robert F. Kunz, Robert W. Smith
HT 2020; V001T02A002doi:https://doi.org/10.1115/HT2020-9020
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Topics: Convection , Flow (Dynamics) , Dynamic stability , Stability , Approximation , Compressible flow , Density , Enthalpy , Equations of state , Heating
Numerical Investigation of Single Bubble Dynamics Passing a Mesh-Based Structure
Fadi Alnaimat, Bobby Mathew, Omar Alhammadi
HT 2020; V001T02A003doi:https://doi.org/10.1115/HT2020-9063
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Topics: Bubbles , Computational fluid dynamics , Deformation , Dynamics (Mechanics)

Computational Models of Nanoscale Radiation

Numerical Analysis of Thermal Stress Development of Steel Slabs in a Pusher-Type Reheat Furnace
Francisco J. Martinez Zambrano, Bethany Worl, Xiang Li, Armin K. Silaen, Nicholas Walla, Kurt Johnson, Lawrence Fabina, Chenn Zhou
HT 2020; V001T02A004doi:https://doi.org/10.1115/HT2020-9093
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Topics: Furnaces , Intermediate steel products , Numerical analysis , Thermal stresses , Temperature , Slabs , Finite element methods , Stress , Hot rolling , Computational fluid dynamics
Numerical Investigation of Thermal Properties for Li-Ion Battery
Xiuling Wang
HT 2020; V001T02A005doi:https://doi.org/10.1115/HT2020-9108
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Topics: Lithium-ion batteries , Thermal properties , Batteries , Design , Temperature , Computational fluid dynamics , Cooling , Current density , Density , Electric vehicles

Computational Models of Non-Equilibrium Transport Phenomena

Significance of Delta Winglets on the Air Side Performance of Flat Finned Versus Wavy Finned-Tube Heat Exchangers
Tariq Amin Khan, Nasir Mehdi Gardezi, Wei Li, Yang Zhou, Zahid Ayub
HT 2020; V001T02A006doi:https://doi.org/10.1115/HT2020-8991
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Topics: Heat exchangers , Genetic algorithms , Heat transfer , Artificial neural networks , Computational fluid dynamics , Computer simulation , Flow (Dynamics) , Friction , Heat transfer coefficients , Pareto optimization
Thermally Developing Laminar Liquid Flow and Heat Transfer in Microtubes at Slip Regime
Wenchi Gong, Jun Shen, Wei Dai
HT 2020; V001T02A007doi:https://doi.org/10.1115/HT2020-9028
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Topics: Flow (Dynamics) , Heat transfer

Inverse Methods in Computational Heat Transfer

Numerical Simulation of Heat Conduction Problems With the Lattice Boltzmann Method (LBM) and Discrete Boltzmann Method (DBM): A Comparative Study
Leitao Chen, Timothy Petrosius, Laura Schaefer
HT 2020; V001T02A008doi:https://doi.org/10.1115/HT2020-8972
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Topics: Computer simulation , Finite volume methods , Heat conduction , Lattice Boltzmann methods

Machine Learning in Computational Heat Transfer

Verification of ANSYS and Matlab Conduction Results Using Analytical Solutions
Robert L. McMasters, Filippo de Monte, Giampaolo D'Alessandro, James V. Beck
HT 2020; V001T02A009doi:https://doi.org/10.1115/HT2020-8970
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Topics: Heat conduction , Matlab

Methods and Algorithms in Computational Heat Transfer

A Reduced Model for Efficient Simulation of Freezing of Water in Large Tanks
Vishal Ramesh, Shashank Terala, Sandip Mazumder, Gurpreet Matharu, Dhaval Vaishnav, Syed Ali
HT 2020; V001T02A010doi:https://doi.org/10.1115/HT2020-8940
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Topics: Freezing , Simulation , Water , Computational fluid dynamics , Natural convection , Heat transfer , Diesel , Diffusion (Physics) , Eddies (Fluid dynamics) , Exhaust systems
The Effect of Turbulence Promoters on Vacuum Membrane Distillation Module Performance
Robert Krysko, Abdulaziz M. Alasiri, Umar Alqsair, Sertac Cosman, Alparslan Oztekin
HT 2020; V001T02A011doi:https://doi.org/10.1115/HT2020-8948
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Topics: Membranes , Turbulence , Vacuum , Design , Polarization (Electricity) , Polarization (Light) , Polarization (Waves) , Computational fluid dynamics , Engineering simulation , Pressure drop
Quasi-Photon Monte Carlo on Radiative Heat Transfer: An Importance Sampling Approach
Utkarsh A. Mishra, Ankit Bansal
HT 2020; V001T02A012doi:https://doi.org/10.1115/HT2020-8950
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Topics: Photons , Radiative heat transfer
Application of Artificial Neural Network As a Near-Real Time Technique for Solving Non-Linear Inverse Heat Conduction Problems in a One-Dimensional Medium With Moving Boundary
Hamidreza Najafi, Obinna Uyanna, Jian Zhang
HT 2020; V001T02A013doi:https://doi.org/10.1115/HT2020-9054
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Topics: Artificial neural networks , Heat conduction
Application of Machine Learning for Enhancing the Transient Performance of Thermal Energy Storage Platforms for Supplemental or Primary Thermal Management
Nandan Shettigar, Debjyoti Banerjee, Meghan Truong, Ashok Thyagarajan, Alaba Bamido, Abigail Meza, Navin Kumar
HT 2020; V001T02A014doi:https://doi.org/10.1115/HT2020-9167
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Topics: Machine learning , Thermal energy storage , Thermal management , Transients (Dynamics) , Subcooling , Algorithms , Melting , Phase change materials , Reliability , Artificial neural networks

Environmental Heat Transfer

Heat and Mass Transfer Associated With Thermal Comfort and Indoor Environmental Quality (IEQ)

Thermal Comfort and Energy Savings in a Simulated Office Conditioned by a Transient Personalized Ventilator and a Displacement Ventilation System
Douaa Al Assad, Kamel Ghali, Nesreen Ghaddar, Elvire Katramiz
HT 2020; V001T04A001doi:https://doi.org/10.1115/HT2020-8914
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Topics: Displacement , Transients (Dynamics) , Ventilation
Effective Mixed-Mode Ventilation System With Intermittent Personalized Ventilation for Improving Thermal Comfort in an Office Space
Elvire Katramiz, Nesreen Ghaddar, Kamel Ghali
HT 2020; V001T04A002doi:https://doi.org/10.1115/HT2020-8915
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Topics: Ventilation
Channel Length Influence on the Performance of the Vacuum Membrane Distillation
Abdulaziz M. Alasiri, Umar Alqsair, Sertac Cosman, Robert Krysko, Alparslan Oztekin
HT 2020; V001T04A003doi:https://doi.org/10.1115/HT2020-8949
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Topics: Membranes , Vacuum , Temperature , Polarization (Electricity) , Polarization (Light) , Polarization (Waves) , Design , Flow (Dynamics) , Porosity , Separation (Technology)
Comparison of Sweeping Gas and Direct Contact Membrane Distillation: Module Length Effect
Umar F. Alqsair, Ahmed M. Alshwairekh, Anas M. Alwatban, Robert Krysko, Alparslan Oztekin
HT 2020; V001T04A004doi:https://doi.org/10.1115/HT2020-8962
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Topics: Membranes , Temperature , Computational fluid dynamics , Engineering simulation , Polarization (Electricity) , Polarization (Light) , Polarization (Waves) , Simulation , Laminar flow , Reynolds number
Application of the Neural Networks in Prediction of the Thermal Flow on the Jiu River
Victorita Radulescu
HT 2020; V001T04A005doi:https://doi.org/10.1115/HT2020-9043
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Topics: Artificial neural networks , Flow (Dynamics) , Rivers , Temperature , Water , Water temperature , Errors , Chemical properties , Computer simulation , Cooling towers

Heat and Mass Transfer for Natural and Built Environments

Analytical Model of the Soil Temperature Distribution Based on Weather Data
M. Naser Reda, Markus Spinnler, Rajib Mahamud, Thomas Sattelmayer
HT 2020; V001T04A006doi:https://doi.org/10.1115/HT2020-9074
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Topics: Heat storage , Soil , Temperature distribution
Numerical Simulation of Heat, Air, and Moisture Transfer Through a Wall of Porous Media
Kiflom B. Tesfamariam, Cheng-Xian (Charlie) Lin, Fang Liu
HT 2020; V001T04A007doi:https://doi.org/10.1115/HT2020-9121
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Topics: Air flow , Computer simulation , Heat , Porous materials
Numerical Investigation of the Capture Efficiency of a Domestic Range Hood
Alla Eddine Benchikh Le Hocine, Sébastien Poncet, Hachimi Fellouah
HT 2020; V001T04A008doi:https://doi.org/10.1115/HT2020-9146
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Topics: Buoyancy , Carbon dioxide , Cavities , Computational fluid dynamics , Diffusion (Physics) , Flow (Dynamics) , Heat , Rotation , Scalars , Steady state
The Effects of Occupancy and Solar Energy on Homes in the Pacific Northwest Constructed According to Improved Thermal Standards
D. R. Heerwagen, K. Nicoliasen, A. F. Emery
HT 2020; V001T04A009doi:https://doi.org/10.1115/HT2020-9153
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Topics: Building codes , Construction , Engineering simulation , Heating , Heating and cooling , Pacific Ocean , Simulation , Solar energy , Solar heating , Temperature controls

Ephraim Sparrow Memorial Symposium

Ephraim Sparrow Memorial Symposium

A Thermally Actuated Microvalve for Irrigation in Precision Agriculture Applications
Alaba Bamido, Ashok Thyagarajan, Nandan Shettigar, Debjyoti Banerjee
HT 2020; V001T05A001doi:https://doi.org/10.1115/HT2020-8933
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Topics: Irrigation (Agriculture) , Lithography , Plasma desorption mass spectrometry , Precision agriculture

Fire and Combustion

Fire and Combustion

Numerical Study on the Influence of Blockage Ratio on Hydrogen Turbulent Premixed Flames in a Small Scale Obstructed Chamber
M. Elshimy, S. Ibrahim, W. Malalasekera
HT 2020; V001T06A001doi:https://doi.org/10.1115/HT2020-8967
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Topics: Flames , Hydrogen , Turbulence , Pressure , Computer simulation , Computational fluid dynamics , Explosions , Flow (Dynamics) , Ignition , Combustion
Study on Design Optimization of Fire Smoke Control Modes for Subway Transfer Channel With Ceiling Beams
Xiangliang Tian, Chang Liu, Maohua Zhong
HT 2020; V001T06A002doi:https://doi.org/10.1115/HT2020-9044
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Topics: Ceilings , Design , Fire , Optimization , Smoke , Subways , Vents
Inverse Model for Fire Heat Release Rate Using Deep Neural Networks
Luyao Kou, Xinzhi Wang, Hui Zhang, Rui Yang, Yi Liu
HT 2020; V001T06A003doi:https://doi.org/10.1115/HT2020-9110
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Topics: Artificial neural networks , Fire , Heat , Emergency response , Modeling , Sensors , Time series
Measuring Heat Transfer From Firebrands to Surfaces
Elias Bearinger, Brian Lattimer, Jonathan Hodges, Christian Rippe
HT 2020; V001T06A004doi:https://doi.org/10.1115/HT2020-9165
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Topics: Fire , Heat transfer

Heat and Mass Transfer in Biotechnology

Nano and Microfluidics for Biological Applications

Effect of Temperature on Velocity Profiles of Ions and Water Molecules in Charged Nanotubes
Yu Wang, Zhenyu Liu
HT 2020; V001T08A001doi:https://doi.org/10.1115/HT2020-9026
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Topics: Electroosmosis , Ions , Nanotubes , Temperature , Water , Flow (Dynamics) , Fluids , Ion migration , Molecular dynamics simulation , Carbon nanotubes
Numerical and Experimental Study of Bioink Transfer Process in Laser Induced Forward Transfer (LIFT) 3D Bioprinting
Jie Qu, Chaoran Dou, Jianzhi Li, Zhonghao Rao, Ben Xu
HT 2020; V001T08A002doi:https://doi.org/10.1115/HT2020-9147
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Topics: Bioprinting , Computational fluid dynamics , Lasers

Heat Transfer Equipment

Cryogenic Heat Transfer Equipment

A Numerical Study on the Energy Performance of a Novel Furnace With Acidic Gas Trap Absorbers
Mingkan Zhang, Tim LaClair, Lingshi Wang, Xiaobing Liu, Zhiming Gao, Ayyoub M. Momen, Kyle Gluesenkamp
HT 2020; V001T09A001doi:https://doi.org/10.1115/HT2020-8952
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Topics: Furnaces
Experimental Investigation of Shell-Side Flow Condensation on Three-Dimensional Enhanced Surface Tubes
Desong Yang, Zhichuan Sun, Wei Li
HT 2020; V001T09A002doi:https://doi.org/10.1115/HT2020-8987
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Topics: Condensation , Flow (Dynamics) , Shells , Heat transfer coefficients , Heat transfer , Refrigerants , Errors , Fluids , Geometry , Temperature
Condensation Heat Transfer and Pressure Drop of R134A in Horizontal Micro-Scale Enhanced Tube
Zongbao Gu, Xiang Ma, Yan He, Lianxiang Ma, David J. Kukulka, Wei Li
HT 2020; V001T09A003doi:https://doi.org/10.1115/HT2020-9006
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Topics: Condensation , Heat transfer , Heat transfer coefficients , Microscale devices , Pressure drop

Membrane Based Heat and Mass Transfer Equipment

Micro-Computed Tomography Pore-Scale Study on Natural Convection in a Cubic Cavity Filled With Complex Porous Medium
Xu Wang, Peng Li, Anyi Xu, Zhenyu Liu
HT 2020; V001T09A004doi:https://doi.org/10.1115/HT2020-9025
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Topics: Cavities , Natural convection , Porous materials
Performance Improvement of Mass Transfer Through Membrane Using Ultrasound for HVAC Application
A. Gurubalan, Patrick J. Geoghegan, M. P. Maiya, Carey J. Simonson
HT 2020; V001T09A005doi:https://doi.org/10.1115/HT2020-9058
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Topics: Dehumidifiers , Humidifiers , HVAC equipment , Mass transfer , Membranes , Ultrasound
Numerical Investigation on a Compact Heat Exchanger Partially Filled With Metal Foam
Bernardo Buonomo, Anna di Pasqua, Oronzio Manca, Sergio Nappo, Jawali C. Umavathi
HT 2020; V001T09A006doi:https://doi.org/10.1115/HT2020-9138
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Topics: Heat exchangers , Metal foams , Heat transfer , Temperature , Air flow , Aluminum , Equilibrium (Physics) , Fluids , Pressure , Thermal energy

Multi-Scale Multi-Phase Heat Transfer Equipment

Transient Performance of Fixed-Bed Regenerators for Energy Recovery in Building Applications
Hadi Ramin, Easwaran N. Krishnan, Gurubalan Annadurai, Carey J. Simonson
HT 2020; V001T09A007doi:https://doi.org/10.1115/HT2020-9057
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Topics: Energy recovery , Testing performance , Transients (Dynamics)

Single-Phase Enhanced Heat Transfer Equipment

Heat Transfer Augmentation and Flow Visualization With Delta Winglets in a Tube: A Numerical Approach
Md. Islam, Liang Guangda, Md. Mahbub Alam
HT 2020; V001T09A008doi:https://doi.org/10.1115/HT2020-8927
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Topics: Flow visualization , Generators , Heat transfer , Vortices
Experimental Study on the Thermal-Hydraulic Performance of Louvered Fin and Flat Tube Heat Exchangers
Tariq Amin Khan, Wei Li, Yan Xiaolong, Zhuo Yang
HT 2020; V001T09A009doi:https://doi.org/10.1115/HT2020-8990
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Topics: Heat exchangers , Fins , Heat transfer , Pressure drop , Condensers (steam plant) , Automotive industry , Cooling , Test facilities , Testing performance
Retracted: “A Numerical Study on the Shell-Side Thermal-Hydraulic Performance of a Hybrid Smooth and Spirally Corrugated Tube” [ASME 2020 Heat Transfer Summer Conference, Virtual, Online, July 13–15, 2020, Conference Sponsors: Heat Transfer Division, ISBN: 978-0-7918-8370-9, Copyright © 2020 by ASME. Paper No. HT2020-8996, pp. V001T09A010; 7 pages; doi: 10.1115/HT2020-8996]
ASME
HT 2020; V001T09A010doi:https://doi.org/10.1115/HT2020-8996
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Topics: Heat transfer , Shells

Thermal Energy Storage and Heat Transfer Equipment

CFD Modeling of Thermal Management Systems for a Silicon Semiconductor Switch
Jordan N. Berg, Sarvenaz Sobhansarbandi
HT 2020; V001T09A011doi:https://doi.org/10.1115/HT2020-9060
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Topics: Computational fluid dynamics , Microchannels , Modeling , Semiconductors (Materials) , Silicon , Switches , Thermal management
3D Printed Architected Heat Sinks Cooling Performance in Free and Forced Convection Environments
Mohamed I. Hassan Ali, Oraib Al-Ketan, Mohamad Khalil, Nada Baobaid, Kamran Khan, Rashid K. Abu Al-Rub
HT 2020; V001T09A012doi:https://doi.org/10.1115/HT2020-9067
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Topics: Additive manufacturing , Cooling , Forced convection , Heat sinks
Experimental Investigation of a PCM-Based Topology Optimized Heat Sink for Passive Cooling of Electronics
Jin Yao Ho, Kai Choong Leong
HT 2020; V001T09A013doi:https://doi.org/10.1115/HT2020-9143
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Topics: Cooling , Electronics , Heat sinks , Topology , Heat , Temperature , Aluminum alloys , Energy dissipation , Flux (Metallurgy) , Lasers

Heat Transfer in Electronic Equipment

Heat Transfer at Conditions Pertinent to Data Centers

Comparative Study of Heat Transfer in a Mini/Micro Pipe With Water and Liquid Metal As Fluid
Xu-Dong Zhang, Jian-Ye Gao, Jing Liu
HT 2020; V001T10A001doi:https://doi.org/10.1115/HT2020-8966
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Topics: Fluids , Heat transfer , Liquid metals , Pipes , Water

Heat Transfer in Energy Systems

Heat and Mass Transfer in Heating, Cooling, and Power Systems

A Numerical Study of Forced Convective Heat Transfer Characteristics of Supercritical Fluid in a Horizontal Circular-Pipe
Alaba Bamido, V. K. Dhir, V. Prasad, Debjyoti Banerjee
HT 2020; V001T11A001doi:https://doi.org/10.1115/HT2020-8934
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Topics: Convection , Heat transfer , Pipes , Supercritical carbon dioxide , Supercritical fluids
Impact of Micropillar Density Distribution on the Capillary Limit of Heat Pipes
Doriane Ibtissam Hassaine Daoudji, Quentin Struss, Amrid Amnache, Étienne Léveillé, Mahmood Reza Salim Shirazy, Luc G. Fréchette
HT 2020; V001T11A002doi:https://doi.org/10.1115/HT2020-9001
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Topics: Columns (Structural) , Density , Heat pipes
Furnace Design for Improved Exhaust Gas Circulation and Heat Transfer Efficiency
Ayoola T. Brimmo, Mohamed I. Hassan Ali
HT 2020; V001T11A003doi:https://doi.org/10.1115/HT2020-9069
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Topics: Computational fluid dynamics , Design , Exhaust systems , Flue gases , Furnaces , Heat transfer
A New Design Methodology of Thermal Barrier Coating (TBC) for Internal Combustion Engines
Chandra Pratap Singh, Arif Taibani, Shankar Krishnan
HT 2020; V001T11A004doi:https://doi.org/10.1115/HT2020-9070
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Topics: Coatings , Design methodology , Internal combustion engines , Temperature , Thermal barrier coatings
Thermal and Electrical Conductance of Pressure Tube/Calandria Tube Interface
Chukwudi Azih, Reilly MacCoy, Hazem Mazhar, Chris Fraser
HT 2020; V001T11A005doi:https://doi.org/10.1115/HT2020-9092
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Topics: Electrical conductance , Pressure , Boiling , Accidents , Contact resistance , Heat transfer , Temperature , Thermal conductivity , Coolants , Fuels

Heat Transfer in Renewable Energy Systems

Effect of Cell Design on the Thermal Performance of Direct Contact Membrane Distillation System Utilizing a Nanocomposite Membrane
Mohamed R. Elmarghany, A. H. El-Shazly, Ali Radwan, Essam M. Abo-Zahhad, Norhan Nady, Mohamed N. Sabry, Mahmoud A. Shouman, Mohamed S. Salem
HT 2020; V001T11A006doi:https://doi.org/10.1115/HT2020-8909
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Topics: Design , Membranes , Nanocomposites , Reynolds number , Energy consumption , Pressure drop , Thermal efficiency , Computer simulation , Flow (Dynamics) , Fluid dynamics
Thermal Analysis of Phase Change Material Based Heat Transfer Fluid in Solar Thermal Collector
Tyler J. E. O’Neil, Celine S. L. Lim, Sarvenaz Sobhansarbandi
HT 2020; V001T11A007doi:https://doi.org/10.1115/HT2020-8942
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Topics: Fluids , Heat transfer , Nanoparticles , Phase change materials , Pipes , Solar collectors , Thermal analysis
Thermal Conductivity Study of Biomass Reinforced Polymer Composites
Birce Dikici, Samarth Motagi, Prahruth Kantamani, Suma Ayyagari, Marwan Al-Haik
HT 2020; V001T11A008doi:https://doi.org/10.1115/HT2020-9065
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Topics: Biomass , Polymer composites , Thermal conductivity , Ester , Fibers , Resins , Cellulosic fibers , Composite materials , Epoxy adhesives , Epoxy resins
Design and Optimization of Microchannel Heat Sink for Densely Packed High Concentration Solar Cells
Abdallah Y. M. Ali, Essam M. Abo-Zahhad, Ali Radwan, Hesham I. Elqady, M. F. El-Kady, Shinichi Ookawara, A. H. El-Shazly
HT 2020; V001T11A009doi:https://doi.org/10.1115/HT2020-9097
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Topics: Design , Geometry , Heat sinks , Microchannels , Optimization , Solar cells
A Numerical Analysis on a Solar Chimney With an Integrated Thermal Energy Storage With Phase Change Material
Bernardo Buonomo, Lucia Capasso, Angelo Fatigati, Oronzio Manca, Sergio Nardini
HT 2020; V001T11A010doi:https://doi.org/10.1115/HT2020-9139
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Topics: Numerical analysis , Phase change materials , Solar energy , Thermal energy storage

Thermal Management of Battery Systems

Comparison of Different Liquid Cooling Configurations for Effective Thermal Management of Li-Ion Pouch Cell for Automotive Applications
Shashwat Bakhshi, Prahit Dubey, A. K. Srouji, Zenan Wu
HT 2020; V001T11A011doi:https://doi.org/10.1115/HT2020-9050
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Topics: Automotive industry , Cooling , Thermal management , Batteries , Temperature , Temperature gradient , Electric vehicles , Heat , Thermocouples , Automotive batteries

Thermal Storage in Energy Systems

Comparison of Thermal Performance of 3D Printed Shell and Tube Heat Exchanger With Commercial Plate Heat Exchanger for Thermal Energy Storage (TES) by Incorporating Phase Change Materials (PCM)
Ashok Thyagarajan, Nandan Shettigar, Debjyoti Banerjee
HT 2020; V001T11A012doi:https://doi.org/10.1115/HT2020-8931
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Topics: Additive manufacturing , Cooling , Heat exchangers , Latent heat , Phase change materials , Shells , Thermal energy storage
Suppressing the Supercooling Effect of Erythritol by Bubbling for Latent Heat Storage
Sheng Yang, Xue-Feng Shao, Li-Wu Fan
HT 2020; V001T11A013doi:https://doi.org/10.1115/HT2020-8945
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Topics: Latent heat , Storage , Supercooling , Bubbles , Temperature , Crystallization , Subcooling , Flow (Dynamics) , Density , Heat
Thermal Performance of Sensible Energy Storage Module Consisting of a Cementitious Matrix: The Effect of Operating Conditions
Justin Caspar, Julio Bravo, Shuoyu Wang, Ahmed Abdulridha, Sudhakar Neti, Carlos Romero, Clay Naito, Muhannad Sulieman, Spencer Quiel, Zheng Yao, Alparslan Oztekin
HT 2020; V001T11A014doi:https://doi.org/10.1115/HT2020-8975
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Topics: Concretes , Design , Energy generation , Energy storage , Fluid dynamics , Heat transfer , Laminar flow , Materials properties , Pipes , Storage
Mechanical Performance of Concrete Thermal Energy Storage Subject to Operating Thermal Demands
Shuoyu Wang, Ahmed Abdulridha, Spencer Quiel, Clay Naito, Muhannad Sulieman, Justin Caspar, Julio Bravo, Sudhakar Neti, Carlos Romero, Zheng Yao, Alparslan Oztekin
HT 2020; V001T11A015doi:https://doi.org/10.1115/HT2020-8976
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Topics: Concretes , Equipment performance , Thermal energy storage , Cylinders , Heating , Concrete blocks , Cooling , Cycles , Engineering simulation , Finite element model
An Investigation on Chevron Plate Heat Exchanger Filled With Organic Phase Change Material
Sunil Kumar, Ashok Thyagarajan, Debjyoti Banerjee
HT 2020; V001T11A016doi:https://doi.org/10.1115/HT2020-9122
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Topics: Heat exchangers , Phase change materials , Stress , Thermal efficiency

Waste Heat Recovery and Energy Harvesting

Heat Transfer Analysis of Regenerative Thermo-Mechanical Refrigeration System
Ahmad K. Sleiti, Mohammed Al-Khawaja
HT 2020; V001T11A017doi:https://doi.org/10.1115/HT2020-8901
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Topics: Compressors , Heat transfer , Refrigeration , Thermomechanics , Waste heat

Heat Transfer in Multi-Phase Flow

Boiling and Evaporation

Experimental Study of a Novel Hydro-Cyclone Apparatus (HCA) Using Flash Evaporation for Desalination and Water Remediation/Purification
Ashok Thyagarajan, Debjyoti Banerjee, Vijay Dhir
HT 2020; V001T12A001doi:https://doi.org/10.1115/HT2020-8932
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Topics: Evaporation , Phase separation , Rapid prototyping , Water
Experimental and Numerical Study of Nucleate Pool Boiling Heat Transfer and Bubble Dynamics in Saline Solution
Qi Liu, Yuxin Wu, Yang Zhang, Junfu Lyu
HT 2020; V001T12A002doi:https://doi.org/10.1115/HT2020-8988
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Topics: Bubbles , Dynamics (Mechanics) , Heat transfer , Nucleate pool boiling
An Experimental Study on Flow Boiling Heat Transfer Outside Horizontal Enhanced Tubes
Liangxiang Ma, Jianghui Zhang, Xiang Ma, Zongbao Gu, Yan He, David J. Kukulka, Wei Li
HT 2020; V001T12A003doi:https://doi.org/10.1115/HT2020-9009
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Topics: Boiling , Flow (Dynamics) , Heat transfer , Heat transfer coefficients , Shells
Technique for Determining Local Nucleate and Film Boiling Correlations for Large Diameter Tubes
Chukwudi Azih, Reilly MacCoy, Hazem Mazhar, Chris Fraser
HT 2020; V001T12A004doi:https://doi.org/10.1115/HT2020-9094
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Topics: Accidents , Boiling , Cooling , Film boiling , Fuels , Heat , Heat flux , Heating , Modeling , Nuclear industry

Condensation Heat Transfer

Enhanced Steam Condensation Heat Transfer on a Honeycomb-Like Microporous Superhydrophobic Surface Under Different Condensing Pressures
Tian-Yu Zhang, Lin-Wei Mou, Jia-Qi Li, Li-Wu Fan
HT 2020; V001T12A005doi:https://doi.org/10.1115/HT2020-8938
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Topics: Condensation , Drops , Floods , Heat transfer , Honeycomb structures , Pressure , Steam
Optimization of Mixed Hydrophilic and Hydrophobic Surfaces Under Laminar Flow Conditions
Brian Frymyer, Alparslan Oztekin
HT 2020; V001T12A006doi:https://doi.org/10.1115/HT2020-8953
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Topics: Laminar flow , Optimization , Condensation , Nucleation (Physics) , Drops , Film condensation , Heat transfer , Thermal resistance , Diffusion (Physics) , Flow (Dynamics)
Experimental Study on Condensation in the Outer Annular Region Outside Horizontal Enhanced Tubes
Zeguan Dong, Jianghui Zhang, Zhen Li, Yan He, David J. Kukulka, Wei Lei
HT 2020; V001T12A007doi:https://doi.org/10.1115/HT2020-9008
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Topics: Condensation , Flow (Dynamics) , Heat transfer coefficients , Pressure drop
Conditional Stability of Direct Contact Steam Condensation
Zach Alden, Gunnar Maples, Kristofer Dressler, Gregory Nellis, Arganthaël Berson
HT 2020; V001T12A008doi:https://doi.org/10.1115/HT2020-9018
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Topics: Condensation , Oscillations , Pressure , Stability , Steam

Heat Pipes

Copper-Carbon Nanotube Micropillars for Passive Thermal Management of High Heat Flux Electronic Devices
Gerardo Rojo, Jeff Darabi
HT 2020; V001T12A009doi:https://doi.org/10.1115/HT2020-8998
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Topics: Carbon , Copper , Heat flux , Heat pipes , Nanotubes , Thermal management , Vapors

Heat Transfer Enhancement

Effects of Material on the Heat Transfer of R410A During Condensation and Evaporation
Weiyu Tang, Boren Zheng, Wei Li
HT 2020; V001T12A010doi:https://doi.org/10.1115/HT2020-8964
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Topics: Boiling , Condensation , Evaporation , Flow (Dynamics) , Heat transfer
Experimental Investigation on Heat Transfer of Water Spray Cooling by Addition of n-Butanol
Chang Cai, Hong Liu, Han Chen, Chuanqi Zhao, Jiuliang Gao, Ming Jia, Yan'an Yan
HT 2020; V001T12A011doi:https://doi.org/10.1115/HT2020-9136
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Topics: Cooling , Heat transfer , Sprays , Surface tension , Water

Micro/Nano-Scale Multi-Phase Heat Transfer

Retracted: “Flow Patterns of Liquid-Liquid Two-Phase Flow With Different Viscosities in Microchannels” [ASME 2020 Heat Transfer Summer Conference, Virtual, Online, July 13–15, 2020, Conference Sponsors: Heat Transfer Division, ISBN: 978-0-7918-8370-9, Copyright © 2020 by ASME. Paper No. HT2020-8995, pp. V001T12A012; 6 pages; doi: 10.1115/HT2020-8995]
ASME
HT 2020; V001T12A012doi:https://doi.org/10.1115/HT2020-8995
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Topics: Flow (Dynamics) , Heat transfer , Microchannels , Two-phase flow , Viscosity

Multi-Phase Heat Transfer

Enhanced Pool Boiling Heat Transfer During Quenching on Micro/Nanostructured Wicking Surface: Effects of Submicron-Scale Substructures
Jia-Yi Zhang, Jia-Qi Li, Li-Wu Fan
HT 2020; V001T12A013doi:https://doi.org/10.1115/HT2020-8929
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Topics: Heat transfer , Pool boiling , Quenching (Metalworking) , Boiling , Chemical etching , Needles , Stainless steel , Temperature , Water
A Multiobjective Parameter Study of Two-Phase Flow Channel Design
Nicholas A. Evich, Nicholas R. Larimer, Mary I. Frecker, Matthew J. Rau
HT 2020; V001T12A014doi:https://doi.org/10.1115/HT2020-9041
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Topics: Design , Equilibrium (Physics) , Two-phase flow
Study of Hybrid Wet/Dry Cooling With Different Surface Morphology: Analyses on Pressure Drop and Thermal Performances
Sudipta Saha, Jamil Khan, Tanvir Farouk
HT 2020; V001T12A015doi:https://doi.org/10.1115/HT2020-9081
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Topics: Cooling , Evaporation , Heat , Heat transfer , Mass transfer , Pressure drop

Heat Transfer Under Extreme Conditions

High Temperature/High Pressure Two-Phase Flows

Temperature Dependence of the Contact Angle of Water on a Hydrophobic Surface at Pressurized Condition
Jia-Wen Song, Meng-Chen Ma, Li-Wu Fan
HT 2020; V001T13A001doi:https://doi.org/10.1115/HT2020-8925
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Topics: Temperature effects , Water , Temperature , Surface tension , Heat transfer , Thermodynamics
Condensation and Evaporation Heat Transfer Characteristics in Horizontal Smooth and Three-Dimensional Enhanced Tubes
Jianghui Zhang, Yu Guo, Chuancai Zhang, Yan He, David J. Kukulka, Wei Li
HT 2020; V001T13A002doi:https://doi.org/10.1115/HT2020-9007
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Topics: Condensation , Evaporation , Heat transfer

Nanoscale Thermal Transport

Modeling and Simulation Method

Assessment of Models for Extracting Thermal Conductivity From Frequency Domain Thermoreflectance Experiments
Siddharth Saurav, Sandip Mazumder
HT 2020; V001T15A001doi:https://doi.org/10.1115/HT2020-8920
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Topics: Thermal conductivity , Thermoreflectance , Heat conduction , Boundary-value problems , Transducers , Cooling , Electrical conductance , Heat , Lasers , Pumps
Validation of an Enhanced Dispersion Algorithm for Use With the Statistical Phonon Transport Model
Michael P. Medlar, Edward C. Hensel
HT 2020; V001T15A002doi:https://doi.org/10.1115/HT2020-8926
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Topics: Algorithms , Dispersion relations , Lattice dynamics , Phonons

Nanoscale Materials for Thermal Energy Systems

Effect of Surfactants and Nanoparticle Materials on the Stability and Properties of CuO-Water and Fe3O4-Water Nanofluids
Nikhil S. Mane, Vadiraj Hemadri
HT 2020; V001T15A003doi:https://doi.org/10.1115/HT2020-9034
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Topics: Nanofluids , Nanoparticles , Stability , Surfactants , Thermal conductivity , Water

Phase Change Heat Transfer

Evaporation of Silver-Graphene Hybrid Nanofluid Droplet on its Nanostructured Residue and Plain Copper Surfaces at Elevated Temperatures
Farooq Riaz Siddiqui, Chi Yan Tso, Sau Chung Fu, Huihe Qiu, Christopher Yu Hang Chao
HT 2020; V001T15A004doi:https://doi.org/10.1115/HT2020-8922
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Topics: Copper , Drops , Evaporation , Graphene , Nanofluids , Silver , Temperature

Theory and Fundamental Research

Fundamentals of Boiling, Condensation, and Evaporation

Saturation Boiling of HFE-7000 Liquid on Inclined Rough Copper Surfaces
Mohamed S. El-Genk, Mahyar Pourghasemi
HT 2020; V001T16A001doi:https://doi.org/10.1115/HT2020-8924
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Topics: Boiling , Copper , Critical heat flux , Dielectric liquids , Nucleate boiling , Pool boiling , Surface roughness
Nanoscale and Macroscale Effects of Mineral Deposition During Water Evaporation on Nanoporous Surfaces
Emma R. McClure, Van P. Carey
HT 2020; V001T16A002doi:https://doi.org/10.1115/HT2020-8941
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Topics: Evaporation , Minerals , Nanoscale phenomena , Water , Drops , Cooling , Heat transfer , Sprays , Copper , Durability
Retracted: “Temperature and Velocity Behaviour During Melting of a PCM in a Uniformly Heated Circular Cavity” [ASME 2020 Heat Transfer Summer Conference, Virtual, Online, July 13–15, 2020, Conference Sponsors: Heat Transfer Division, ISBN: 978-0-7918-8370-9, Copyright © 2020 by ASME. Paper No. HT2020-9016, V001T16A003; 7 pages; doi: 10.1115/HT2020-9016]
ASME
HT 2020; V001T16A003doi:https://doi.org/10.1115/HT2020-9016
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Topics: Cavities , Heat transfer , Melting , Temperature
Use of Genetic Algorithms and Machine Learning to Explore Parametric Trends in Nucleate Boiling Heat Transfer Data
Emma R. McClure, Van P. Carey
HT 2020; V001T16A004doi:https://doi.org/10.1115/HT2020-9077
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Topics: Genetic algorithms , Gravity (Force) , Heat transfer , Machine learning , Nucleate boiling
Exploration of ZnO Nanostructure Growth on Various Metal Substrates for Enhancement of Surface Wettability and Evaporation Processes
Samuel Cabrera, Van P. Carey
HT 2020; V001T16A005doi:https://doi.org/10.1115/HT2020-9114
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Topics: Evaporation , Metals , Drops , Aluminum , Copper , Pool boiling , Stainless steel , Temperature , Critical heat flux , Heat flux
Review of Artificial Bubble Generation Techniques and Their Suitability for Phenomenological Boiling Studies
Navdeep Singh Dhillon
HT 2020; V001T16A006doi:https://doi.org/10.1115/HT2020-9162
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Topics: Boiling , Bubbles

Fundamentals of Multi-Scale Modeling and Simulation

Temperature Distribution in a Turbulent Flow in the Heat Pollution Phenomena
Victorita Radulescu
HT 2020; V001T16A007doi:https://doi.org/10.1115/HT2020-8969
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Topics: Heat , Pollution , Temperature distribution , Turbulence , Fluids , Mass transfer , Temperature , Viscosity , Flow (Dynamics) , Fluid dynamics
Modeling Nanobubble Interactions and Behavior Using Multiphase Lattice Boltzman Methods
Alanna Y. Cooney, Van P. Carey
HT 2020; V001T16A008doi:https://doi.org/10.1115/HT2020-9051
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Topics: Modeling , Nucleate boiling , Bubbles , Lattice Boltzmann methods , Multiphase flow , Nucleation (Physics) , Accounting , Collapse , Heat transfer , Microchannels
Molecular Dynamics Simulation of Ultra-Fast Phase Transition in Water Nanofilms
Malcolm Porterfield, Diana Borca-Tasciuc
HT 2020; V001T16A009doi:https://doi.org/10.1115/HT2020-9073
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Topics: Boiling , Explosives , Molecular dynamics simulation , Phase transitions , Water

Thermophysical Properties

Calculations of Thermophysical Properties, Including Development of Models

An Effective Thermal Conductivity Model for Architected Phase Change Material Enhancer
Romain Hubert, Olivier Bou-Matar, Jerome Foncin, Philippe Coquet, Dunlin Tan, Hongling Li, Edwin Teo, Thomas Merlet, Philippe Pernod
HT 2020; V001T17A001doi:https://doi.org/10.1115/HT2020-8906
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Topics: Phase change materials , Thermal conductivity , Heat , Additive manufacturing , Flat heat pipes , Heat of fusion , Melting , Metal foams , Thermal energy storage
Equilibrium Pressure of Liquid Confined in Nanopores Using Molecular Dynamics Simulations
An Zou, Shalabh C. Maroo, Manish Gupta
HT 2020; V001T17A002doi:https://doi.org/10.1115/HT2020-9089
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Topics: Equilibrium (Physics) , Molecular dynamics simulation , Nanopores , Pressure , Atoms , Intermolecular forces

Measurements of Thermophysical Properties, Including Development of Measurement Systems

Thermal Properties Measurement of Particulate Fouling Samples of Air-Cooled Heat Exchangers Using Laser Flash Method
Arjun Sharma, M. D. Islam, Ebrahim Al Hajri
HT 2020; V001T17A003doi:https://doi.org/10.1115/HT2020-8936
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Topics: Heat exchangers , Lasers , Particulate matter , Thermal properties

Transport Phenomena in Manufacturing and Materials Processing

Thermal Transport Phenomena Associated With Manufacturing Processes

3D Light Field Projection and the Associate 3D Photolithography
Sy-Bor Wen, Hongjie Zhang
HT 2020; V001T18A001doi:https://doi.org/10.1115/HT2020-9005
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Topics: Photolithography , Microscale devices , Photopolymers , Lasers , Absorption , Hardening (Curing) , Image reconstruction , Lenses (Optics) , Manufacturing , Optics
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