Cutting-Edge Technology
Powered by a disruptive innovation in thermoacoustic energy conversion.
Sustainable & Cost-Effective
Reduces emissions while optimizing OPEX Using environmentally benign working fluids
Scalable & Modular Solutions
Adaptable for various industries and applications
Efficient Waste Heat Recovery
Converts low-grade heat into valuable energy - electricity, cooling and more
Thermagix is pioneering thermoacoustic technology to transform waste heat into valuable energy - without moving parts, emissions or inefficiencies.
Our Mission
Transform the world’s waste heat into clean, reliable energy.
We are committed to transforming the way industries use energy - by reclaiming what was once wasted and overlooked. At Thermagix, we cultivate a spirit of innovation and collaboration to solve one of the most pressing challenges of our time: how to do more with less, and power progress without compromise.
The Present
Vast Energy Inefficiencies
Industries worldwide lose a significant portion of energy as waste heat, much of it at low temperatures. Traditional recovery methods are often inefficient or economically unviable.
Our Solution
Phase-Change Thermoacoustic
By leveraging our patented Phase-Change Thermoacoustic technology, we use sound waves to convert low-temperature heat into usable energy.
Benefits at a Glance:
01
Can target low temperature heat sources down to 100°C and lower
02
Operates at near-ambient pressures
03
Lightweight, modular, and scalable
04
100x higher power density than traditional thermoacoustics
05
No moving parts = Maintenance free by design
Why Thermagix?
01
Powered by a disruptive innovation in thermoacoustic energy conversion.
02
Designed with industrial simplicity in mind.
03
Built for sustainability and fast ROI- Developed in collaboration with key industry partners.
Partners and collaborators
We’re proud to collaborate with industry leaders to scale our technology, unlock new applications for low-grade heat recovery, and accelerate the transition to a cleaner, more energy-efficient future.