Aircraft Electrical System Market Size, Opportunities, Share and Top Companies by 2027
The aircraft electrical system market had a value of USD 19.95 billion in 2019, and it is expected to reach USD 45.24 billion by 2032, growing at a compound annual growth rate (CAGR) of 6.50% during the forecast period. North America was the largest market, accounting for 42.15% of the global market in 2019. One of the key drivers behind this growth is the increasing adoption of more electric aircraft (MEA) concepts. MEA aims to replace traditional mechanical and hydraulic systems with electrically powered alternatives, leading to weight reduction, improved fuel efficiency, and simplified maintenance. As a result, there is a rising demand for advanced aircraft electrical systems to support these MEA initiatives.
Informational Source:
https://www.fortunebusinessinsights.com/aircraft-electrical-system-market-104822
Technological advancements in power generation, energy storage, and power management systems are also playing a significant role in the market's growth. These advancements enhance the efficiency, reliability, and performance of aircraft electrical systems, leading to increased adoption across the industry.
Furthermore, the growing emphasis on passenger safety and comfort is driving the integration of advanced avionics systems, which rely heavily on reliable and efficient electrical systems. The demand for sophisticated in-flight entertainment systems, advanced communication systems, and improved cabin lighting further contributes to the growth of the aircraft electrical system market.
Major Key Companies Covered in Aircraft Electrical System Market are:
Ametek (The U.S.)
Amphenol Corporation (The U.S.)
Astronics Corporation (The U.S.)
Avionic Instruments, LLC (The U.S.)
Bae Systems (The U.K.)
Carlisle Interconnect Technologies (The U.S.)
Crane Aerospace & Electronics (The U.S.)
Eaglepicher Technologies, LLC (The U.S.)
Esterline Technologies (TRANSDIGM GROUP) (The U.S.)
GE Aviation (The U.S.)
Hartzell Engine Technologies (The U.S.)
Honeywell International Inc. (The U.S.)
Meggitt (The U.K.)
Nabtesco Corporation (Japan)
PBS Aerospace (The U.S.)
Pioneer Magnetics (The U.S.)
Radiant Power Corporation (The U.S.)
Safran (France)
Thales Group (France)
United Technologies Corporation (The U.S.)
The aircraft electrical system is a vital component of modern aircraft, providing power for various systems and equipment necessary for safe and efficient flight. Over the years, advancements in technology have led to significant improvements in aircraft electrical systems, enhancing reliability, efficiency, and overall performance. In this article, we will explore the latest unique information on aircraft electrical systems.
Introduction to Aircraft Electrical Systems:
The aircraft electrical system consists of various components, including generators, batteries, power distribution units, wiring, and control systems. Its primary function is to provide electrical power to essential systems such as avionics, lighting, environmental control, and flight control systems.More Electric Aircraft (MEA) Concept:
The concept of More Electric Aircraft (MEA) has gained prominence in recent years. MEA aims to replace traditional mechanical and hydraulic systems with electrically powered alternatives. This trend reduces weight, increases fuel efficiency, improves reliability, and simplifies maintenance.Advanced Power Generation Systems:
Modern aircraft employ advanced power generation systems, such as integrated drive generators (IDGs) and constant-speed drive generators (CSDGs). These systems utilize high-output, lightweight generators that produce electrical power for the aircraft's electrical system.Lithium-ion Batteries:
Lithium-ion batteries are increasingly being used in aircraft electrical systems due to their high energy density and lightweight characteristics. These batteries provide backup power for critical systems and serve as the main power source in electrically driven aircraft.Power Management and Distribution:
Advanced power management and distribution systems optimize the allocation of electrical power to different aircraft systems. These systems use intelligent control algorithms and solid-state power controllers to ensure efficient power distribution and minimize electrical load fluctuations.Electrical Wiring Interconnection Systems (EWIS):
Electrical Wiring Interconnection Systems (EWIS) play a crucial role in aircraft electrical systems. EWIS includes wiring, connectors, and associated components that transmit electrical power and signals throughout the aircraft. Advancements in EWIS focus on reducing weight, improving reliability, and simplifying installation and maintenance processes.Health Monitoring and Fault Detection:
Aircraft electrical systems now incorporate advanced health monitoring and fault detection capabilities. These systems utilize sensors and diagnostic algorithms to detect abnormalities, predict failures, and facilitate proactive maintenance, reducing aircraft downtime and improving safety.Electromagnetic Compatibility (EMC):
Electromagnetic Compatibility (EMC) is a critical consideration in modern aircraft electrical systems. EMC ensures that various electrical and electronic components coexist without interfering with each other's operation. Advanced shielding techniques and strict EMC standards are employed to mitigate electromagnetic interference (EMI) and improve system reliability.Integrated Modular Avionics (IMA):
Integrated Modular Avionics (IMA) is a key trend in aircraft electrical systems. IMA consolidates multiple avionics functions into a single hardware platform, reducing weight, power consumption, and overall system complexity. This integration enhances system reliability, scalability, and flexibility.Electric Propulsion Systems:
The rise of electric propulsion systems has led to significant changes in aircraft electrical systems. Electric aircraft employ electric motors powered by high-capacity batteries or fuel cells, eliminating the need for traditional combustion engines. These systems offer reduced emissions, quieter operation, and increased design flexibility.Power Electronics and Motor Control:
Advancements in power electronics and motor control technologies have improved the efficiency and performance of aircraft electrical systems. Power electronic converters and motor control algorithms optimize power transfer, enhance motor efficiency, and facilitate regenerative braking, resulting in improved overall system efficiency.Electrification of Aircraft Systems:
The electrification of various aircraft systems is a growing trend. Electrically powered systems, such as landing gear, flight controls, and environmental control systems, offer numerous benefits, including reduced weight, improved efficiency, and increased functionality.Energy Harvesting:
Aircraft electrical systems are exploring energy harvesting techniques to supplement power generation. Technologies like solar cells and regenerative braking can capture and store energy that would otherwise go to waste, further enhancing the overall efficiency and sustainability of aircraft operations.Cybersecurity:
With the increasing connectivity and integration of aircraft systems, ensuring robust cybersecurity measures is crucial. Aircraft electrical systems incorporate advanced cybersecurity protocols to protect against potential cyber threats and unauthorized access to critical systems.Future Trends:
Looking ahead, the future of aircraft electrical systems is likely to be characterized by continued advancements in power generation, energy storage, power management, and system integration. Further developments in electric propulsion, energy harvesting, and smart grid technologies are expected to shape the next generation of aircraft electrical systems.
In conclusion, aircraft electrical systems continue to evolve, driven by the need for improved performance, efficiency, and safety. Advancements in power generation, energy storage, system integration, and electrification are shaping the future of aircraft electrical systems, paving the way for more electric and sustainable aviation.