Use Cases

Use cases

There are thousands of use cases for our technology, below we have included many examples as to where our technology can be used. All of our use cases have been validated through client projects, including some with the partners listed below.
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Don't be afraid if you have something different - reach out to us and we can validate the application through a feasibility study.

In this application a high MTBF was critical. Our solution delivered that, while also ensuring an IP66 rating with a 100% passive solution (no fans). The cooling of two 150W components was achieved with completely natural convection.

E-Mobility

Rugged Computer

In this application a high MTBF was critical. Our solution delivered that, while also ensuring an IP66 rating with a 100% passive solution (no fans). The cooling of two 150W components was achieved with completely natural convection.

Embedded Processors

Our solution eliminated the temperature difference between the top and bottom of the cells, while also reducing the Delta T between the cells and the water cold plate.

E-Mobility

Research

Pouch Cell

Our solution eliminated the temperature difference between the top and bottom of the cells, while also reducing the Delta T between the cells and the water cold plate.

Batteries

Our solution was designed to remove 2.4kW of thermal power from the inverter and recover this energy by pre-heating the HVAC system. Our LHP-PE solution transported the heat over 4m, completely passively, proving our ability to transport heat over long distance against accelerations.

E-Mobility

Light Vehicles

Power Inverter

Our solution was designed to remove 2.4kW of thermal power from the inverter and recover this energy by pre-heating the HVAC system. Our LHP-PE solution transported the heat over 4m, completely passively, proving our ability to transport heat over long distance against accelerations.

Power Electronics

Designed to fit inside an existing cabinet, the heat pipe systems was able to cool two rows of IGBTs. Fans assist with the airflow through the air exchanger.

E-Mobility

Rail

Substation

Designed to fit inside an existing cabinet, the heat pipe systems was able to cool two rows of IGBTs. Fans assist with the airflow through the air exchanger.

Power Electronics

Our solution cooled 8 IGBT modules, with a total thermal power of 11.2kW. By reducing the thermal resistance of the cooling system, the client could reduce the number of IGBT modules reducing cost significantly. There are also no pumps, nor fans drastically reducing maintenance.

E-Mobility

Rail

Traction Inverter

Our solution cooled 8 IGBT modules, with a total thermal power of 11.2kW. By reducing the thermal resistance of the cooling system, the client could reduce the number of IGBT modules reducing cost significantly. There are also no pumps, nor fans drastically reducing maintenance.

Power Electronics

Our solution was designed to remove 5.5kW of thermal power from the batteries to enable ultra-fast charging. Our MCHP-BT solution involved 45 heat pipes, each removing 122W of thermal power.

E-Mobility

Motorsport

Cylindrical Cell

Our solution was designed to remove 5.5kW of thermal power from the batteries to enable ultra-fast charging. Our MCHP-BT solution involved 45 heat pipes, each removing 122W of thermal power.

Batteries

Low power cooling for an ECU using the side of the IP rated box to dissipate the heat.

E-Mobility

ECU

Low power cooling for an ECU using the side of the IP rated box to dissipate the heat.

Embedded Processors

Providing an upgrade to an existing OEM battery pack, adding 2 'L' shape MCHPs per cell improved the charging speed by 25%, while also lowering intra- and inter-cell temperatures to below 2°C.

E-Mobility

Automotive

Prismatic Cell

Providing an upgrade to an existing OEM battery pack, adding 2 'L' shape MCHPs per cell improved the charging speed by 25%, while also lowering intra- and inter-cell temperatures to below 2°C.

Batteries

A solution capable of cooling up to 800W, completely passively, using the conductive plate as a cold source. The design also operates in anti-gravity and has passed stringent military testing including dust, vibrations, accelerations, impact, and liquid ingress.

E-Mobility

Vehicle Mounted Computer

A solution capable of cooling up to 800W, completely passively, using the conductive plate as a cold source. The design also operates in anti-gravity and has passed stringent military testing including dust, vibrations, accelerations, impact, and liquid ingress.

Embedded Processors

Double sided evaporator capable of cooling 1.5kW of heat from 6 IGBTs with a thermal resistance of 0.011K/W.

E-Mobility

Inverter

Double sided evaporator capable of cooling 1.5kW of heat from 6 IGBTs with a thermal resistance of 0.011K/W.

Power Electronics

A unique high power application of a loop heat pipe to recover heat from the engine oil system and dissipate it on the nacelle of the aircraft providing passive deicing assistance.

E-Mobility

Aviation

Engine Heat Recovery

A unique high power application of a loop heat pipe to recover heat from the engine oil system and dissipate it on the nacelle of the aircraft providing passive deicing assistance.

Specialized Equipment