Hybridized Propulsion
Combines advanced thermal engine cores for the main propulsion with, for example, electric distribution and motors to drive the anti-torque system for more control and simpler vehicle operations and maintenance.
Advanced Anti-Torque Concept
Bell Helicopter is developing new anti-torque systems that will change the safety, noise and performance parameters of vertical lift aircraft forever. In this example our anti-torque system is embedded in the tail boom for enhanced safety, providing thrust vectoring capability for control.
Advanced Airframe Design
Using advanced sustainable materials to provide structural performance and offer configurations that our customers desire. In order to provide enhanced visibility and room, we are exploring the right combination of materials and optimized geometry. The airframe is our front line for energy management where we harvest, store, attenuate and distribute external energy or system energy not already employed for useful work on the air vehicle.
Morphing Rotor Blades
Morphing structural geometries will allow aircraft to optimize performance in different flight regimes. Bell is a pioneer in this area having developed the tiltrotor concept of one geometry for helicopter mode flight and a completely different geometry for airplane mode flight. Now we explore individual morphing geometries such as blades, inlets, aerodynamic surfaces, whether through advanced actuation or materials, or both, to push beyond the enhancements that we originally created.
A concept modular flooring systems allows for rapid seating configuration changes so that the cabin can be customized for many types of passenger, cargo or mission based requirements. LED lighting in the overhead canopy can be fully customized in color and brightness depending on passenger preference. 360-degree pop-down air ventilation systems to allow for increased comfort on demand.