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John R. Thome

John R. Thome

École Polytechnique Fédérale de Lausanne

H-index: 88

Europe-Switzerland

About John R. Thome

John R. Thome, With an exceptional h-index of 88 and a recent h-index of 47 (since 2020), a distinguished researcher at École Polytechnique Fédérale de Lausanne, specializes in the field of electronics cooling, boiling, two-phase flow, heat transfer, fluid mechanics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Heat transfer of uncoated and nanostructure coated commercially micro-enhanced refrigeration tubes under pool boiling conditions

Multiscale enhancement of refrigerant falling film boiling by combining commercially enhanced tubes with nanostructures

Micro-channel pulsating heat pipe

In Memoriam: Richard J. Goldstein

The reduction of refrigerant boiling dryout on falling film evaporator tubes through nanostructures, commercial microstructures and multiscale enhancements

Thermal-Hydraulic Characterization of Thermosyphon Cooling System for Highly Compact Edge MicroDataCenter. Part I: Design and Experiments

Thermosyphon Simulation of High Heat Flux Density Server Racks with 84 CPU-Evaporators in Parallel Operation

Thermal Testing of Arrays of PHP Finned Plates for Enhanced Air-Cooling of Electronics

John R. Thome Information

University

Position

Professor of Mechanical Engineering

Citations(all)

33073

Citations(since 2020)

9687

Cited By

27142

hIndex(all)

88

hIndex(since 2020)

47

i10Index(all)

310

i10Index(since 2020)

216

Email

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University Profile Page

École Polytechnique Fédérale de Lausanne

Google Scholar

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John R. Thome Skills & Research Interests

electronics cooling

boiling

two-phase flow

heat transfer

fluid mechanics

Top articles of John R. Thome

Title

Journal

Author(s)

Publication Date

Heat transfer of uncoated and nanostructure coated commercially micro-enhanced refrigeration tubes under pool boiling conditions

Applied Thermal Engineering

Dian Dickson

Bradley D Bock

John R Thome

2024/1/5

Multiscale enhancement of refrigerant falling film boiling by combining commercially enhanced tubes with nanostructures

Applied Thermal Engineering

Bradley D Bock

Dian Dickson

John R Thome

2024/1/5

Micro-channel pulsating heat pipe

2024/3/5

In Memoriam: Richard J. Goldstein

Computational Thermal Sciences: An International Journal

Umesh Madanan

Wojciech Lipínski

Terrence W Simon

Alptekin Aksan

Faruk Arinç

...

2023

The reduction of refrigerant boiling dryout on falling film evaporator tubes through nanostructures, commercial microstructures and multiscale enhancements

Bradley D Bock

Dian Dickson

John R Thome

2023

Thermal-Hydraulic Characterization of Thermosyphon Cooling System for Highly Compact Edge MicroDataCenter. Part I: Design and Experiments

Gautier Rouaze

Enzo M Minazzo

Jackson B Marcinichen

John R Thome

Fred Buining

2023/10/24

Thermosyphon Simulation of High Heat Flux Density Server Racks with 84 CPU-Evaporators in Parallel Operation

André Seuret

Jackson B Marcinichen

John R Thome

2023/5/30

Thermal Testing of Arrays of PHP Finned Plates for Enhanced Air-Cooling of Electronics

Enzo M Minazzo

Gautier Rouaze

Jackson B Marcinichen

John R Thome

Kangning Xiong

...

2023/5/30

Pulsating Heat Pipe Fin Plates for Enhancing Natural and Forced Convection Cooling of Electronics: Experimental Campaign

Gautier Rouaze

Jackson B Marcinichen

John R Thome

Kangning Xiong

L Winston Zhang

2022/5/31

Air-Cooled Closed Loop Thermosyphon Cooling System Experimental Campaign: Effects of Working Fluid, Heat Load and Air Flow Rate

Enzo M Minazzo

Gautier Rouaze

Jackson B Marcinichen

John R Thome

L Winston Zhang

2022/5/31

Experimental Characterization of a Compact Thermosyphon Cooling System Operating with R1234ze (E) and R1233zd (E) Low-GWP Refrigerants

Raffaele L Amalfi

Cong H Hoang

Ryan Enright

John Kim

Filippo Cataldo

...

2022/5/31

Compact and highly thermal-hydraulic efficient air-cooled closed loop thermosyphon cooling system for high intense heat load dissipation of future microprocessors

Enzo M Minazzo

Gautier Rouaze

Jackson B Marcinichen

John R Thome

L Winston Zhang

2022/10/25

High Performance Pulsating Heat Pipe for Electronics Cooling

Haris Constantinou

Sébastien Lani

Gautier Rouaze

John Richard Thome

2022/5/31

One‐and two‐step semi‐Lagrangian integrators for arbitrary Lagrangian–Eulerian‐finite element two‐phase flow simulations

International Journal for Numerical Methods in Fluids

Gustavo R Anjos

Gustavo P Oliveira

Norberto Mangiavacchi

John R Thome

2022/6

Ultra-Compact microscale heat exchanger for advanced thermal management in data centers

Journal of Electronic Packaging

Raffaele L Amalfi

Todd Salamon

Filippo Cataldo

Jackson B Marcinichen

John R Thome

2022/6/1

Thermosyphon simulation code: transient thermal performance and experimental validation

Rémy Haynau

Jackson Braz Marcinichen

Raffaele L Amalfi

Filippo Cataldo

John R Thome

2021/6/1

Novel Air-Cooled Thermosyphon Cooling System for Desktop Computers

Filippo Cataldo

Raffaele L Amalfi

Jackson B Marcinichen

John R Thome

2021/10/26

Novel pulsating heat pipe for high density power data centres: performance and flow regime analysis

Filippo Cataldo

Yuri C Crea

Raffaele L Amalfi

Jackson B Marcinichen

John R Thome

2021/6/1

Air-Cooled Loop Thermosyphon Cooling System for High Heat Load CPUs—Part II: Experimental Results and Validation

IEEE Transactions on Components, Packaging and Manufacturing Technology

Guilherme SRB Armas

Gautier Rouaze

Jackson B Marcinichen

John R Thome

L Winston Zhang

2021/9/15

Hybrid Two-Phase Cooling Technology For Next-Generation Servers: Thermal Performance Analysis

Raffaele L Amalfi

Francois P Faraldo

Todd Salamon

Ryan Enright

Filippo Cataldo

...

2021/6/1

See List of Professors in John R. Thome University(École Polytechnique Fédérale de Lausanne)