Your heat management challenge.

Our Technologies.

Increase your performance and sustainability

We can apply our technology to practically any heat management challenge – from the pinnacle of motorsport to the upper limits of the atmosphere. Using next-generation heat exchangers based on microtube and micro-channel technology, we can help you increase performance and sustainability.

aerodynamic

Aerodynamic

Reduced vehicle or
aircraft drag

Cooling

Cooling

Dramatically improved
cooling (or heating)
performance

Reliable

Reliable

Improved reliability and
durability of powertrains
and batteries

lightweight

Lightweight

Lightweight, space-saving units
that allow more flexibility in design

durable

Durable

Heat and corrosion
resistant

Our products

Water-cooled intercoolers

For compressed cathode air cooling in hydrogen fuel cell power trains and internal combustion engine charge air cooling, our water-cooled intercoolers are capable of effectiveness values of over 99% – while still being incredibly lightweight. The ring-shaped design increases side air-flow and drastically reduces pressure drop.

Water-cooled intercoolers

For compressed cathode air cooling in hydrogen fuel cell power trains and internal combustion engine charge air cooling, our water-cooled intercoolers are capable of effectiveness values of over 99% – while still being incredibly lightweight. The ring-shaped design increases side air-flow and drastically reduces pressure drop.

Radiators

Our radiators are particularly suitable for rejecting high amounts of heat with minimal cooling air pressure drop, making them ideal for ram-air cooling applications in motorsport and zero emission aerospace.

Radiators

Our radiators are particularly suitable for rejecting high amounts of heat with minimal cooling air pressure drop, making them ideal for ram-air cooling applications in motorsport and zero emission aerospace.

Condensers/evaporators

Our microtube, straight-rack condenser/evaporator units are ideal for thermal lift systems where mass is critical, including batteries, electronics and power cells. Small-diameter tubes maximise heat transfer coefficient at minimum mass. With no internal cavities for condensate pooling, wet mass is reduced and the amount of fluid inside remains constant.

Condensers/evaporators

Our microtube, straight-rack condenser/evaporator units are ideal for thermal lift systems where mass is critical, including batteries, electronics and power cells. Small-diameter tubes maximise heat transfer coefficient at minimum mass. With no internal cavities for condensate pooling, wet mass is reduced and the amount of fluid inside remains constant.

Waste heat recovery heat exchangers

Our heat exchange technology is perfect for recovering waste heat from the exhaust gases produced in any green fuel cycle (e.g. ammonia-burning or hydrogen-burning cycles). Designed for low pressure drops on both fluid streams, they enable retrofit and higher system efficiencies.

Battery thermal management foils

Making longer battery life and enhanced performance happen through innovative heat management and cooling technology. Our HXLIFE Foils weigh significantly less than traditional battery cooling systems and allow for seamless integration with existing battery pack designs and manufacturing processes.
electric vehicle

Sectors we work in

Make it happen in
your industry
Our thermal management technologies can boost performance and improve sustainability in sectors from motorsport and EV design to aviation and energy production.

Case study

Real world proof

We are already working with partners in a range of industries on managing heat, boosting performance and reducing emissions. Read some of our latest success stories to learn more.

Low Drag Radiators.

Our high performance, multifluid radiators are ideal for side pod installations on ICE and fuel cell powertrains. Significantly lower mass and volume than conventional radiators, they reject a large amount of heat with minimal overall drag.

Data

Data

Compact and lightweight.

Reduction of frontal area – low drag.

Multiple fluids cooled in common core.

Enables zero emissions powertrains.

Drum style architecture protects from debris ingestion.

Microtube Condensers.

Our microtube condensers come in a variety of form factors for design flexibility. They are ideal for thermal lift systems in electric aviation rotorcraft applications and provide maximum heat rejection at minimum mass.

Data

Data

Compact and lightweight.

Low air pressure drop.

Uniform flow distribution.

Condensate pooling minimised.

High thermal effectiveness.

Fuel Cell Intercoolers.

Our water-cooled intercoolers are compact and ultra-lightweight with over 99% air cooling effectiveness and low charge air pressure drop. They are highly scalable, allowing for design flexibility with various installation options including charge air cooling on internal combustion engines and fuel cell powertrains.

Data

Data

Compact and lightweight.

Increases power – faster lap times.

Low, stable plenum temperatures.

Very low pressure drop.

Modular design and common components.

High reliability and longer life.