Powerplant systems

Gas turbine engines: This is the heart of a powerplant system, where energy is created by converting fuel into mechanical power.

Engine systems: Includes various subsystems within the engine, such as fuel systems, lubrication systems, ignitions systems, starting systems, and accessory drives.

Propeller systems: Propellers are devices that convert the mechanical power generated by the engine into thrust, which propels the aircraft forward.

Engine instruments and controls: These are the instruments and controls used to monitor and control the engine's performance and operation.

Auxiliary power units (APUs): APUs are used to provide electrical power and/or hydraulic pressure to aircraft systems, typically while the aircraft is on the ground.

Environmental control systems: These systems are used to maintain a comfortable cabin environment for passengers and crew, and include air conditioning, heating, and ventilation systems.

Fire protection systems: These are systems designed to detect and suppress fires that may occur in the aircraft during flight or on the ground.

Bleed air systems: These are systems used to provide compressed air from the engines to power various aircraft systems, such as air conditioning and pressurization.

Anti-icing and de-icing systems: These systems are used to prevent or remove ice buildup on the aircraft, which can affect performance and safety.

Fuel systems: Fuel systems are responsible for delivering, storing, and managing fuel throughout the aircraft.

Electrical power systems: These systems are responsible for generating, distributing, and using electrical power throughout the aircraft.

Hydraulic systems: These systems use fluids to transmit power and operate various aircraft systems, such as landing gear and brakes.

Landing gear systems: Landing gear systems provide support and stability to the aircraft during takeoff, landing, and ground operations.

Reciprocating Engine System: A reciprocating engine system is a type of internal combustion engine that uses the reciprocating motion of the piston to generate power. These engines are commonly used in general aviation aircraft and employ gasoline or aviation fuel.

Turbine Engine System: A turbine engine system uses the principles of jet propulsion to generate power. In this system, air is compressed and mixed with fuel, ignited, and then expelled out of the back of the engine to create thrust. These engines are commonly used in commercial aircraft and military airplanes.

Ramjet Engine System: A ramjet engine system uses the forward motion of the aircraft to compress incoming air, which is then mixed with fuel and ignited to create thrust. These engines are typically used in high-speed aircraft, such as missiles.

Turboprop Engine System: A turboprop engine system is a type of turbine engine that is designed to power a propeller. These engines are commonly used in smaller regional aircraft that operate on shorter distances.

Turbofan Engine System: A turbofan engine system is a type of turbine engine that is designed to provide both high-speed and efficient operation. These engines have a large fan at the front, which helps to provide additional thrust and reduce noise.

Turboshaft Engine System: A turboshaft engine system is a type of gas turbine engine that is designed to power a rotor system, such as a helicopter or a turboprop aircraft. In this system, the energy produced by the engine is transferred to the rotor, which then creates the required lift.

Electric Engine System: An electric engine system uses electricity to power an electric motor, which then drives the aircraft. These engines are currently in development and are not yet widely used in aviation.

Hybrid Engine System: A hybrid engine system combines the use of an electric motor and a traditional combustion engine to provide power to the aircraft. These engines are also currently in development and are expected to become more common in the coming years.