Vehicle

POWER

Hydrogen fuel cells that generate electricity, powering all onboard systems and 6 quiet electric outrunner motors.

LIFT

6 rotors, designed for low noise and low RPM.

SPEED

115 mph. Average speeds for local trips will likely be around 85mph, in a straight line and with no traffic.

RANGE

We believe the everyday “sweet spot” will be between 10 and 150 miles. However, when you count the time and stress involved in getting to an airport, going through security and other delays – longer distance on-demand travel with Skai is highly appealing.

FLIGHT DURATION

Up to 2 hours, though most flights will take just minutes. For specialized applications, auxiliary fuel tanks can increase flight times based on mission needs.

FUEL SYSTEM

Liquid hydrogen onboard tank. Refueling takes less than 10 minutes.

PAYLOAD

Up to 1000 lbs.

Fault-Tolerant Engineering

Fault tolerance is about eliminating potential points of failure, by reducing complexity and adding redundancy – i.e. backup systems. For example, a helicopter’s rotor system uses a highly complex transmission. Many failures occur here, and there’s nothing to back it up.

Skai’s six rotors use six pairs of brushless electric motors, with no complicated gearbox or tail-rotor connection. It’s a simple, redundant system that can tolerate one rotor failure and continue to its destination. Even if it loses two rotors, it will land safely.

In fact, Skai’s three primary systems – rotors, fuel cells and flight computers – are triple redundant to ensure peace of mind on every ride.

Even if multiple systems fail, the vehicle will still land safely. Should a catastrophic situation occur, Skai has an additional fail-safe redundancy – an airframe mounted parachute.

While any single failure is rare, true safety is about being prepared for worst-case scenarios.

Airframe & Cabin Safety

In addition to proven technology and redundant systems, even the fabrication of the vehicle chassis was designed with a safety-first approach.

The carbon composite airframe and landing skids are built to flex and reduce the effects of a hard landing.

Inside the cabin, the impact-absorbing seats are FAA-certified, with a 4-point seat belt system to keep passengers safe and secure.

Mounted to the airframe is a fail-safe parachute system. Should the failure of multiple redundant systems occur, the parachute will deploy from the roof, and gently lower the entire vehicle to the ground. This proven system has been in use for decades, and has been installed on more than 35,000 aircraft.

Technology & Expertise

Skai is equipped with advanced Fly-By-Light technology. This flight control system improves on the safety and performance of previous generations by using fiber-optic cables instead of metallic wiring.

In addition to better signal redundancy and speed, the system is immune to electromagnetic interference, e.g. from lightning strikes or transmission towers.

Skai’s suite of avionics (i.e. electronics systems) are all FAA certified and have been proven over thousands of flight hours.

Key avionics include a triple-redundant autopilot system that helps maintain smooth, stable flight when piloted, in addition to flying the aircraft autonomously.

The next-generation Automatic Dependent Surveillance Broadcast (ADS-B) system provides tracking, weather data, increased air traffic awareness, and reduces the risk of collisions with other aircraft.

Skai team members have been instrumental in developing some of the most trusted safety technologies and other significant developments in aviation.

CEO Steve Hanvey was a test pilot and program director for the Apache helicopter, and was VP of Engineering at Beech Aircraft (now Beechcraft).

In addition, Hanvey and Skai Director Dr. Bruce Holmes were key players in NASA’s AGATE program (Advanced General Aviation Transport Experiments). In fact Holmes, as NASA senior executive and chief strategy officer, both developed the program and was its manager. The program enabled multiple small aircraft safety innovations and is credited with advancing US general aviation.

Sensors

Like any modern vehicle, Skai is equipped with a suite of sensors to ensure safety and maintain persistent, proactive awareness of any potential risks.

Key systems include a combination of LIDAR (Light Detection and Ranging) and camera sensors that can detect large and small objects in the vehicle’s path.

There are a number of fuel system sensors that ensure efficiency and safe ongoing performance. For example, there are multiple hydrogen leak detectors on board, tied into an annunciation system for the pilot, and available as telemetry to the ground during flights. There’s also a dedicated sensor in the vehicle when stationary, as an additional fail-safe to detect any possible ongoing leaks.

Designworks of BMW Group

Skai teamed up with Designworks, the design innovation studio of the BMW Group, to develop the vehicle’s design. The forward-thinking company is known for “designing systems that improve the world we live in”. Their extensive work on BMW vehicles, in the mobility sector and a brand range of industries made them the perfect partner for Skai. Designworks brought their expertise to bear in this new Skai Craft.

Initially, Designworks determined the vehicle architecture and configuration, which included the layout of components such as fuel cell tanks and seating. This was done with consideration to key criteria that included safety, passenger experience and performance, which were evaluated and optimized to arrive at the best solution.

For example, the majority of components were positioned as low as possible in the vehicle to reduce the structural load on the airframe. They were also positioned in relation to the seats to create a balanced center of gravity, which has a direct effect on the stability, performance and handling of the vehicle.

One of the largest components that Designworks had to accommodate into the vehicle was the hydrogen fuel tank. This was positioned laterally behind the rear seats to create the widest point towards the rear of the vehicle. This provided an opportunity to shape the exterior with a elongated “boat tail” at the rear to minimize drag by delaying airflow separation and allowing it to remain attached throughout the length of the vehicle.

One of the final steps was to refine the passenger experience.

The modern cabin design offers a clean aesthetic with ambient LED lighting to add a warm, calming touch. Well-appointed seats are upholstered with premium materials and stylish accents. The glass canopy windows deliver 180º sight lines for exceptional aerial views.

If there’s work to be done, 5G-powered WIFI keeps passengers connected the whole flight through. Using the Skai app, passengers will even be able to take AR-enhanced selfies to share their experience.

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Rotor System

Skai’s rotor system was designed to deliver a smooth, quiet ride with maximum safety and capability.

The rotors are mounted on 6 boom arms that are attached to the airframe independently of the cabin enclosure. This minimizes cabin noise and vibration, while at the same time reducing weight and improving the stability, handling and performance of the vehicle.

The 6 rotors are designed for low noise and low RPM, and are powered by counter-rotating pairs of brushless electric motors. The motors are in turn controlled by 6 motor controllers – these control the voltage, current, RPM and torque to each motor and monitor system status and performance.

Finally, the motor controllers are all overseen by the flight computers, which manage the entire system and maintain flight stability and smooth performance.

As noted, keeping the rotors (and the entire Skai experience) as quiet as possible was a key consideration. Noise pollution is a major problem that affects millions in the US, particularly in urban areas.

The vehicle’s 6 rotors spin at lower RPMs to significantly reduce decibel levels – we believe it will be by far the quietest air mobility solution in the air. This will allow air-taxi, medi-vac and cargo services to operate in populated areas with minimal impact.

Traditional air mobility solutions (like helicopters) are distressingly loud, not to mention trucks, buses and other road traffic. Skai was designed to run quietly with a small noise footprint.

Vehicle

The world's first hydrogen-fuel cell powered air mobility vehicle.

Hydrogen

The ideal fuel for air mobility: clean, capable hydrogen.

System

The comprehensive transportation solution designed to benefit all.

Technical Details

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