Table of Contents How Thermoelectric Cooling Works: A Simple Guide Thermoelectric cooling may seem like a complex concept, but it doesn’t have to be. The goal of this post is
Applied Thermoelectric Solutions Invited to Judge NASA Tech Briefs Innovation Contest Applied Thermoelectric Solutions had the honor of being invited to participate as a judge in the NASA Tech Briefs
Done correctly, most thermoelectric generator (TEG) projects succeed. Below, you will find many benefits of thermoelectric generator modeling and simulation that most people are unaware will help their project succeed.
Applied Thermoelectric Solutions has been recognized as one of the leading contenders in a recent open innovation competition. Amongst a staggering 300 submissions received from various corners of the globe,
The Journal of Electronic Materials has awarded Applied Thermoelectric Solutions with the prestigious editor’s choice award. This recognition was granted for our outstanding paper titled “Detailed Transient Multiphysics Model for
Table of Contents How Thermoelectric Generators Work Thermoelectric generators (TEG) are solid-state semiconductor devices that convert a temperature difference and heat flow into a useful DC power source. Thermoelectric generator
Our Upcoming International Conference on Thermoelectrics (ICT) Presentation, Caen France Presentation Topic: Detailed Transient Multiphysics Model for Fast and Accurate Design, Simulation and Optimization of a Thermoelectric Generator (TEG)
Please find the below PDF with our latest work titled Peltier Supercooling with Isosceles Current Pulses: Cooling an Object with Internal Heat Generation. This work was published and presented at the
Introduction to Thermoelectrics and its Application to the Medical Field What is Thermoelectrics? Thermoelectrics is the collective application of the thermoelectric effect. The thermoelectric
We are fortunate to be invited to speak at the 232nd Electrochemical Society Meeting (ECS) held in National Harbor, MD. Presentation Title: Peltier Supercooling with Isosceles Current Pulses: Cooling an
Introduction to Transient Thermoelectric / Peltier Pulsed Cooling The below article is adapted from a presentation that was presented at the International Conference on Thermoelectrics (ICT) by our founder and CTO
What is Thermoelectric Module Optimization? An optimized thermoelectric module is quite different from custom thermoelectric module. With a custom thermoelectric module design there can be many designs that meet your
Please join us at the 36th International Conference on Thermoelectrics. We will be presenting on “Peltier Supercooling with Isosceles Current Pulses: A Response Surface Perspective”. The presentation will discuss our
The solid-state battery thermal management system in the below PDF is a sample of our work. This battery thermal management system has many features that set it apart from typical
Below is an example of our published research and development work with transient thermoelectric pulse cooling (also known as Peltier supercooling, thermoelectric supercooling, thermoelectric pulse cooling). It was found with this
To understand how heat is transported in a Peltier module, it is necessary to understand the construction of a Peltier module. A semiconductor couple is the basic building block of
Improving Thermoelectric Cooling Using Triangular Electrical Current Pulses Please check out the below Thesis document titled: “Transient thermoelectric supercooling: isosceles current Pulses from a response surface perspective and the
Unique Battery Thermal Management System An example of our work. Lots of unique features with this thermoelectric battery thermal management system. One interesting feature is the heat sink is also
Battery Thermal Management with Thermoelectrics and Heat Spreaders An example of our work, have a read of the below PDF regarding using thermoelectrics and heat spreaders for battery cell cooling
Thermoelectric Thermal Management of Electrical Devices An example of our work, the below PDF discusses using thermoelectrics for thermal management of electrical devices, including batteries.
What is open innovation? Open Innovation is a process of engaging in R&D and Innovation with a greater emphasis on complimenting the organizations internal ideas and research with ideas and
Predict System Performance with Confidence Launching a new product or improving upon and old one is a resource intensive venture. What if you could understand with confidence the thermal performance
What is solid-state thermoelectric technology and how does it work? Solid-state thermoelectric heating and cooling technology is also known as Peltier cooling. Sometimes it is abbreviated TEC (Thermo-Electric Cooling) and