Applications
Power for extreme conditions
Planetary Space, Lunar, RTGs
Deep space, lunar and Martian surface systems require reliable, long-lasting power and thermal stability throughout their operational lifetime.
Thermagy provides thermoelectric components for Radioisotope Thermoelectric Generators (RTGs) to meet these demands, based on both Plutonium 238 and Americium 241.
Security, Deep Sea Surveillance
To ensure constant surveillance of critical areas or infrastructures, security forces need reliable and safe systems, powering applications in the most remote and demanding places on Earth.
Thermagy supports applications in Defense applications such as the deep sea environment.
Nuclear, SMR’s
Converting available static thermal electrical energy, TEGs enable maintenance-free back-up power and monitoring capabilities in constrained or high-security facilities. Thermagy aims to leverage the benefits from passive and self sustaining TEG technologies, making them well suited for safety-critical systems and other nuclear applications.
If you are interested in more information, contact us:
Deep space, lunar and Martian surface systems require reliable, long-lasting power and thermal stability throughout their operational lifetime.
Thermagy provides thermoelectric components for Radioisotope Thermoelectric Generators (RTGs) to meet these demands, based on both Plutonium 238 and Americium 241.
Security, Deep Sea Surveillance
To ensure constant surveillance of critical areas or infrastructures, security forces need reliable and safe systems, powering applications in the most remote and demanding places on Earth.
Thermagy supports applications in Defense applications such as the deep sea environment.
Nuclear, SMR’s
Converting available static thermal electrical energy, TEGs enable maintenance-free back-up power and monitoring capabilities in constrained or high-security facilities. Thermagy aims to leverage the benefits from passive and self sustaining TEG technologies, making them well suited for safety-critical systems and other nuclear applications.
If you are interested in more information, contact us:
Heat and Power on location
Combined Heat and Power
Micro combined heat and power (mCHP) integrates electricity generation into a heating system, optimizing system efficiency and self sufficiency.
Thermagy implements TEG technology into bio-fuel heating systems to support mCHP generation for residential and commercial buildings.
Thermal storage
Thermal storage plays a key role in the energy transition by decoupling energy generation from demand. By storing surplus thermal energy and releasing it when needed, it increases system flexibility and grid stability.
Thermagy integrates thermoelectric conversion into thermal storage, enabling more efficient use of renewable heat in residential and commercial buildings.
If you are interested in more information, contact us:
Micro combined heat and power (mCHP) integrates electricity generation into a heating system, optimizing system efficiency and self sufficiency.
Thermagy implements TEG technology into bio-fuel heating systems to support mCHP generation for residential and commercial buildings.
Thermal storage
Thermal storage plays a key role in the energy transition by decoupling energy generation from demand. By storing surplus thermal energy and releasing it when needed, it increases system flexibility and grid stability.
Thermagy integrates thermoelectric conversion into thermal storage, enabling more efficient use of renewable heat in residential and commercial buildings.
If you are interested in more information, contact us:
Thermal management
Thermoelectric solid state cooling allows for precise and reliable management of components of a system, critically improving component performance.
Solid state satellite cooling
Thermagy thermoelectric technology provides static thermal management, critical for sensitive sensors and electronics onboard satellites, enhancing system performance and reliability for long duration missions in space environments. Solid state on-chip cooling
Solid-state on-chip cooling
Solid-state on-chip cooling enables precise, localized thermal control directly at the source of heat generation. Thermagy thermoelectric technology offers fast response, vibration-free operation. Plus, compact integration for high-performance electronics; enhancing thermal efficiency, performance stability, and system reliability for data centers and advanced computing systems.
If you are interested in more information, contact us:
Solid state satellite cooling
Thermagy thermoelectric technology provides static thermal management, critical for sensitive sensors and electronics onboard satellites, enhancing system performance and reliability for long duration missions in space environments. Solid state on-chip cooling
Solid-state on-chip cooling
Solid-state on-chip cooling enables precise, localized thermal control directly at the source of heat generation. Thermagy thermoelectric technology offers fast response, vibration-free operation. Plus, compact integration for high-performance electronics; enhancing thermal efficiency, performance stability, and system reliability for data centers and advanced computing systems.
If you are interested in more information, contact us:
Contact
Bijlestaal 54a, 1721 PW
Broek op Langedijk
The Netherlands
+ 31 226 335 570
info@thermagy.com
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