Work with thought leaders and academic experts in Heat Transfer

Companies can benefit from working with an academic researcher in Heat Transfer in several ways. These experts have in-depth knowledge and experience in heat transfer analysis, design of heat exchangers, and thermal management solutions. They can help companies optimize energy efficiency, solve complex thermal challenges, and improve product performance. By collaborating with these researchers, companies can gain access to cutting-edge research, innovative technologies, and advanced modeling and simulation tools. They can also benefit from expert guidance in the development of new products and processes, ensuring they meet industry standards and regulations. Additionally, working with academic researchers can provide companies with valuable networking opportunities and access to a pool of talented students for internships and recruitment.

Researchers on NotedSource with backgrounds in Heat Transfer include Issam Mudawar, James Stevens, Diego Bestel, Rameche Candane Somassoundirame, Zhengmao Lu, Richard Jenkins, and Ahmed Abuheiba.

Issam Mudawar

38 Years Experience
Director of Lab and Endowed Professor of Mechanical Engineering at Purdue
Education

Massachusetts Institute of Technology

Ph.D., Mechanical Engineering / 1984

Cambridge, Massachusetts, United States of America

Massachusetts Institute of Technology

MS, Mechanical Engineering / 1980

Cambridge, Massachusetts, United States of America
Experience

Purdue University

Professor / 1984Present

Research Expertise (5)
Fluid Flow and Transfer Processes
Mechanical Engineering
Condensed Matter Physics
Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials
About
Issam Mudawar is a professor of mechanical engineering at Purdue University. He received his Ph.D. from the Massachusetts Institute of Technology in 1984. His research interests include microelectronics cooling, heat transfer, and fluid mechanics. He is also the Founder and Director of the Purdue University International Electronic Cooling Alliance

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James Stevens

Colorado Springs, Colorado, United States of America
31 Years Experience
Heat Transfer and Applied Thermodynamics Consulting
Education

Brigham Young University

Ph.D., Mechanical Engineering / August, 1991

Provo, Utah, United States of America

Brigham Young University

MS, Mechanical Engineering / December, 1988

Provo, Utah, United States of America

Brigham Young University

BS, Mechanical Engineering / April, 1987

Provo, Utah, United States of America
Experience

University of Colorado at Colorado Springs

Professor of Mechanical Engineering / June, 2006Present

University of Colorado at Colorado Springs

Chair, Dept of Mechanical and Aerospace Engineering / June, 2006December, 2011

UCCS

Associate Professor / August, 2002June, 2006

Research Expertise (0)
About
I have extensive experience in both numerical and analytical heat transfer analysis covering both steady-state and transient situations with applications to thermal history, thermal response, electronic cooling, temperature profiles, thermal design, heat flow rate determination and more. I also have experience in applied thermodynamics with applications for renewable energy, HVAC, air engines, novel heat engines, and more. I have over 25 years experience in higher education teaching undergraduate and graduate classes, performing research, doing course and curriculum development, and advising students. <br> Specialties: transient and steady-state conduction, convection, thermodynamics, higher education

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Diego Bestel

7 Years Experience
Education

Colorado State University

Ph.D., Mechanical Engineering / June, 2022

Fort Collins, Colorado, United States of America
Experience

Argonne National Laboratory

Researcher / July, 2022Present

Groupe Renault

QA Analyst / 20152017

Noble Thermodynamic Systems

System Modeling Engineer / August, 2021April, 2022

Research Expertise (2)
Mechanical Engineering
Physical and Theoretical Chemistry
About
PhD. candidate at Colorado State University working at the Chemical Energy Conversion Laboratory. My research focus is on multidimensional modeling and control of End-Gas Autoignition (EGAI) in Spark Ignited Natural Gas engines. The goal of the research is to achieve Diesel-like efficiencies by using controlled end-gas autoignition. A Cooperative Fuel Research (CFR) engine and a 15-L Cummins engine have been used for this purpose having a mix of experimental, 1D, and 3D modeling work to study the fuel-engine interactions that lead to EGAI.

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Rameche Candane Somassoundirame

18 Years Experience
A seasoned mechanical engineer with an in-depth knowledge of computational methods in engineering (CFD, heat transfer, FEA, Structural and Optimization studies).
Education

Indian Institute of Technology Madras

Doctor of Philosophy, Department of Mechanical Engineering / November, 2006

Chennai

Pondicherry Engineering College

Master of Technology in Energy Technology, Mechanical Engineering / April, 2003

Pillaichavady

Pondicherry Engineering College

Bachelor of Technology, Mechanical Engineering / May, 2000

Pillaichavady
Experience

Johns Hopkins University

Associate Research Scientist / October, 2020October, 2021

TechnipFMC

Multi-Physics Specialist Engineer / January, 2014April, 2020

FMC Technologies (Norway)

Senior System Engineer / August, 2012June, 2014

Most Relevant Research Expertise
heat transfer
Other Research Expertise (19)
CFD
fluid mechanics
ABL flows
multiphase flows
Condensed Matter Physics
And 14 more
About
Rameche Candane Somassoundirame is a highly educated and experienced mechanical engineer with a strong background in energy technology and multi-physics. He obtained his Doctor of Philosophy from the prestigious Indian Institute of Technology Madras in 2006, followed by a Master of Technology and Bachelor of Technology from Pondicherry Engineering College in 2003 and 2000 respectively. With over a decade of experience, Rameche has worked in various roles in different countries. He has held positions at renowned institutions such as Johns Hopkins University, TechnipFMC, FMC Technologies, Norsk Hydro ASA, WindSim, Universite de La Rochelle, and the University of New Brunswick. He has also worked as an IP Research Professional at GE India Technology Centre Pvt Ltd. Rameche's expertise lies in the fields of computational fluid dynamics (CFD), multi-physics simulations, and energy technology. He has published several papers in international journals and conferences and has received numerous awards and recognitions for his work. In addition to his technical skills, Rameche is known for his strong leadership and project management abilities. He has led and managed teams on various projects and has a track record of delivering successful results within tight deadlines. Rameche's passion for engineering and his continuous pursuit of knowledge make him a valuable asset in any organization.

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Zhengmao Lu

3 Years Experience
Education

Massachusetts Institute of Technology

Ph.D., Mechanical Engineering, Minor in Quantum Information / June, 2018

Cambridge, Massachusetts, United States of America

Massachusetts Institute of Technology

MS, Mechanical Engineering / 2014

Cambridge, Massachusetts, United States of America

Tsinghua University

BS, Mechanical Engineering / 2012

Beijing
Experience

MIT

Postdoctoral Researcher / October, 2019Present

Developed a robust and low-cost filtration membrane based on coal-derived graphene oxide. Established a transport-based model for bubble nucleation on gas evolving electrodes. Invented a hybrid thermal management scheme integrating evaporative cooling and radiative cooling. Designed an evaporation-insulation bilayer as a packaging material with extended cooling time

Research Expertise (7)
Fluid Flow and Transfer Processes
Mechanical Engineering
Condensed Matter Physics
Mechanics of Materials
Electrochemistry
And 2 more
About
Hello! I'm Zhengmao Lu, an incoming Tenure Track Assistant Professor of Mechanical Engineering at EPFL (starting in February 2023). I am looking to recruit one PhD student to work on fundamental thermofluids research and develop technologies for sustainable cooling in our lab. I am interested in gaining deeper understandings of liquid-gas interfacial transport and leveraging the fundamental knowledge to create high performace cooling solutions for electronics, buildings, and perishable goods. I like to combine experimental and modeling approaches to provide more comprehensive answers to research questions. I have a strong interest in converting lab research into commercializable products. I have previously participated in startup business programs such as [The Engine](https://www.engine.xyz/) and [NE I-Corps](https://innovation.mit.edu/resource/mit-i-corps/).

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Richard Jenkins

Thermal Systems Engineer (PhD) | IR Heating, Radiative Transfer & Thermal Modelling for Product Development
Most Relevant Research Expertise
Heat Transfer
Other Research Expertise (2)
Additive Manufacturing
Cold spray
About
I am a thermal engineer with a PhD focused on infrared (IR) heating systems, specialising in radiative heat transfer, spectral behaviour, and system-level performance. <br> My work has centred on understanding how emitter characteristics, material properties, and system design interact to determine real-world heat delivery. This includes modelling and experimental validation of quartz tungsten halogen systems, development of heat flux mapping techniques, and building numerical models to predict system efficiency and performance. <br> In my current role, I work on complex thermal systems, applying the same principles of heat transfer, modelling, and optimisation to deliver practical engineering solutions. My focus is on translating theory into usable design insights — identifying where losses occur, what drives performance, and how to improve overall system efficiency. <br> I typically support projects involving: <br> * IR heating system design and optimisation * Radiative heat transfer and spectral analysis * Thermal modelling (2D/3D, ray tracing) * System-level performance evaluation and trade-off analysis <br> <br> <br>

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Ahmed Abuheiba

Thermal Sciences and Systems
Most Relevant Research Expertise
heat transfer
Other Research Expertise (4)
heat pump
thermodynamic
alternative cooling technologies
combined heat and power

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Example Heat Transfer projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on Heat Transfer?

Optimizing HVAC Systems

An academic researcher in Heat Transfer can collaborate with HVAC companies to optimize the design and performance of heating, ventilation, and air conditioning systems. By analyzing heat transfer processes, conducting simulations, and implementing innovative solutions, they can help improve energy efficiency, reduce operating costs, and enhance indoor comfort.

Enhancing Thermal Management in Electronics

Companies in the electronics industry can benefit from collaborating with a Heat Transfer expert to enhance thermal management in electronic devices. The researcher can provide insights into heat dissipation, thermal conductivity, and cooling techniques, leading to improved product reliability, extended lifespan, and reduced risk of overheating.

Optimizing Energy Storage Systems

Academic researchers specializing in Heat Transfer can assist companies in the energy storage sector to optimize the performance and efficiency of battery systems. By analyzing heat transfer phenomena, developing thermal management strategies, and conducting experiments, they can help enhance battery life, reduce thermal degradation, and improve overall system reliability.

Designing Efficient Heat Exchangers

Collaborating with a Heat Transfer researcher can benefit companies involved in the design and manufacturing of heat exchangers. The researcher can provide expertise in heat transfer analysis, fluid dynamics, and optimization techniques, resulting in the development of more efficient and compact heat exchangers with improved heat transfer rates and reduced pressure drop.

Improving Thermal Insulation Materials

Companies seeking to improve thermal insulation materials can collaborate with an academic researcher in Heat Transfer. The researcher can contribute to the development of advanced insulation materials with enhanced thermal conductivity, reduced heat transfer, and improved insulation performance, leading to energy savings and increased sustainability.