REDEFINING WHATS POSSIBLE IN ELECTRIC FLIGHT
Hybrid Aircraft
WHY TAT?
- High Voltage
- DO-160 Compliant
- IoT-Enabled Sensors
- Scalable, Lightweight
Advanced Thermal Management for Next Generation Hybrid-Electric Flight
Leveraging decades of expertise in thermal solutions, TAT is helping to redefine the performance capabilities of Hybrid-Electric aviation. Our efficient, modular and scalable cooling systems are engineered to meet the stringent thermal demands of Hybrid-Electric aircraft mission profiles. Featuring High Voltage (800VDC+) and DO-160 compliant components, our systems are designed to be compact and light weight.
Featuring integrated IoT-enabled sensors for preventative maintenance and alarms feedback for real-time monitoring during all phases of flight, our systems are designed for maintainability and reliability and ensure consistent thermal performance under the most demanding operating conditions.
Built on a foundation of proven engineering and field-tested durability, our systems enable electric aircraft to achieve greater range, enhanced safety, and superior thermal stability — Making the Future of Hybrid-Electric Flight Possible.
Hybrid-Electric Aircraft Systems
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Battery SystemsThe BTMS (Battery Thermal Management System) is temperature regulated per Battery Manufacturers requirements and recommended cooling media. IoT-enabled temperature sensors for real-time monitoring and adaptive cooling to maximize efficiency during various phases of flight (take-off, cruising, landing).
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AvionicsCooled via cold plates, forced cabin air, or liquid cooling loop, depending on performance requirements. IoT-integrated sensors for predictive cooling, adjusting airflow based on real-time electronic load and environmental factors.
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Electric Motors and Power Electronics / InvertersCooled via a closed-loop system that scales to motor size and quantity. Supports EGW, PGW, oil, or other fluids for efficient thermal management and extended motor life.
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Cabin ConditioningEnvironmental Control System (ECS) to maintain comfortable temperatures in the cockpit and cabin. This system features a lightweight heat pump integrated with the overall cooling architecture, regulating both heating and cooling. Heat recovery system to capture waste heat from the batteries / H2FCs, motors and electronics, providing energy-efficient temperature control for the cabin.
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Turbines / Generators(Hybrid Electric Propulsion) – Cooling of engine oil via air or liquid heat exchanger loop for managing the thermal load of the combustion engine’s oil circuit, ensuring consistent lubrication and optimal engine performance.
