The HHS’ Administration for Strategic Preparedness and Response (ASPR) awarded electric aircraft manufacturer Beta Technologies $20 million, forming a partnership that could one day send the vehicles to respond to natural disasters or public health emergencies. As part of the multiphase contract, Beta will install 22 electric chargers along the East Coast and Gulf of Mexico at sites the partners believe will enable faster response times for potentially life-saving healthcare.

About half of these sites are up and running in states including Georgia, Florida, Alabama, and Arkansas. The most recent was installed at Jackson-Medgar Wiley Evers Airport (KJAN) in Mississippi, where the company also agreed to electrify a terminal for FBO network Atlantic Aviation. The rest are expected to come online in 2025, joining a Beta charging network that already spans from Vermont to Florida to Arkansas.

Bridging the Gap

Lack of access to healthcare, whether due to financial or geographical reasons, is a key driver of high morbidity and mortality rates in rural areas of the U.S., according to the Centers for Disease Control and Prevention.

Beta, citing a study in the National Library of Medicine, points out that air ambulances, which typically take the form of helicopters, take in more than half a million patients each year. The aircraft have played an increasingly important role as more rural hospitals shut down.

The problem, though, is that these services are often bogged down by costs and inclement weather. Per an investigation by Kaiser Health News and Reveal, between 2014 and 2019, transportation issues during organ transplants caused about 370 “near misses,” or delays of two hours or more that nearly made the organs unusable. Almost 170 organs failed to reach their destination in time and could not be transplanted—instead, they were discarded.

“We’ve had organs that are left on airplanes, organs that arrive at an airport and then can’t get taken off the aircraft in a timely fashion and spend an extra two or three or four hours waiting for somebody to get them,” Dr. David Axelrod, a transplant surgeon at the University of Iowa, told Kaiser Health News.

Beta claims its chargers will allow HHS to establish an Emergency Preparedness Platform (EPP)—essentially a network for delivering equipment, pharmaceuticals, and patients without the pitfalls of using conventional aircraft. The idea is to help close the healthcare access gap between urban and rural areas.

“We expect this work with Beta to give ASPR and other federal partners the ability to get vital materials and equipment to ground zero when other land-based modes of transportation are unavailable,” said Arlene Joyner, director of ASPR’s Office of Industrial Base Management and Supply Chain (IBMSC).

The company’s chargers are designed to the Combined Charging System (CCS) standard, a system originally created to be the norm for electric ground vehicles. The systems so far have been purchased by the U.S. Air Force, airports, FBOs such as Atlantic and Signature Aviation, and even other electric aircraft manufacturers such as Archer Aviation.

Beta is developing two electric aircraft that will use the systems: one that takes off conventionally (the Alia CTOL or CX300) and another that lifts off vertically like a helicopter (the Alia VTOL). But the chargers can use grid-tied energy to juice up other manufacturers’ aircraft, as well as electric ground vehicles.

Quicker and Cheaper

According to Beta, electric chargers and vehicles will lower operating costs compared to existing air ambulances. The company further claims electric aircraft such as the Alia CTOL and Alia VTOL fare better in inclement weather, enabling higher usage rates and fewer missed opportunities.

“HHS and ASPR are on the front lines of these issues and we’re excited to be working with them on meaningful, capital-efficient solutions that benefit the public,” said Kyle Clark, founder and CEO of Beta. “We believe this work has the potential to increase access to healthcare and essential services for all types of geographies, including the historically harder-to-reach ones.”

An ASPR spokesperson told Inc. magazine that the aircraft tied to the program will carry a pilot plus four passengers or three pallets of medical supplies, which could include vaccines, personal protective equipment, and other gear. The spokesperson also said that Beta will study pathogen containment on its aircraft in order to transport contagious patients.

The 22 new charging locations will join Beta’s network of more than 30 sites, with another 50 in the construction or permitting process. Some of these locations overlap with the company’s commercial customers, such as Atlantic at Jackson-Medgar Airport in Mississippi. But Beta tells FLYING the chargers will be publicly accessible, meaning they could facilitate an HHS organ transplant and an Atlantic passenger flight on the same day.

Beta aims to certify its Alia CTOL with the FAA and launch the model in 2025, followed by the Alia VTOL in 2026.

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The company on Monday said it completed the first pilot training program for its Alia CTOL (also called the CX300) with a customer, United Therapeutics (UT), and its subsidiary, Unither Bioelectronics. Beta took company leaders and flight operations executives through its full CX300 pilot training syllabus, which the company intends to use during future in-aircraft training once approved by the FAA.

The move represents a step toward finalizing a CX300 training product to accompany initial aircraft deliveries to customers. Beta expects to begin deliveries next year following type certification.

UT was Beta’s first customer, placing an order for the company’s electric vertical takeoff and landing (eVTOL) Alia model and electric charging stations. The firm is also an investor, having provided Beta with $52 million to get off the ground and a $48 million contract to build Alia, which it helped design. Martine Rothblatt, founder and CEO of UT and a member of the Beta board, was the first noncompany pilot to fly the aircraft.

When Beta unveiled the CX300 in 2023, UT was one of its first customers alongside Bristow Group and Air New Zealand. The company intends to use the two aircraft to quickly transport medical cargo, such as 3D-printed organs, at what Beta claims will be a fraction of the cost of conventional designs.

Both models are fully electric and designed to carry up to 1,000 pounds of cargo, or as many as five passengers, in a space of 200 cubic feet, cruising at 135 knots. The Alia has an expected range of 250 nm, while the more robust CX300 has demonstrated a range of 336 nm during test flights.

Beta has already begun installing a nationwide network of electric charging stations for its aircraft to tap into and is working with FBO networks such as Signature Aviation and Atlantic Aviation to electrify their terminals.

But one major step remaining for the company, and all electric aircraft manufacturers, is developing a pilot training curriculum.

Beta’s tailored CX300 syllabus, which the company said it has been refining for years, must still be approved by an FAA Flight Standards District Office. Walking a customer through the process, though, suggests that the firm is anticipating the green light sooner rather than later.

Over three days, Beta took a team comprising seasoned Unither helicopter and fixed-wing pilots through a three-step curriculum covering ground training requirements, familiarization with the aircraft and its systems, and operational employment for air ambulance missions.

The process began with overviews of the aircraft’s manuals, aerodynamics, concept of operations, limitations, and requirements, followed by reviews of its electric propulsion technology, fly-by-wire flight controls, and other atypical systems.

Capping off the campaign was a series of simulator rehearsals, during which Unither pilots completed practical exercises, performance planning, and preflight and ground operations. These culminated in two simulated missions—one IFR, one VFR—along routes the company intends to fly with the aircraft.

“The tailored syllabus from this event will be used with future in-aircraft training utilizing Beta’s dual-seat trainer configuration,” Beta said.

Beta so far has trained eight of its own pilots to fly the CX300, in addition to Rothblatt and pilots from the FAA, U.S. Air Force, Army, and customers UPS and Bristow. This year, it completed several “real-world” missions during two CX300 deployments for the Air Force under its contract with AFWERX, the department’s innovation arm.

More recently, Beta received a lift when the FAA authorized it to begin training pilots on its Alia eVTOL. The company tells FLYING it will eventually walk UT and Unither pilots through a separate curriculum for that model.

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The company calls the CX300 an “eCTOL,” or electric conventional takeoff and landing aircraft. It resembles an ALIA-250 without rotors for vertical flight. Beta said that for years it has been testing two versions of its prototype aircraft, one for hovering flight and the other for wing borne cruise flight. This arrangement allowed the company to gather a broad range of performance data quickly.

• READ MORE: Beta Technologies: An eVTOL Developer That’s All About Flying

The airframe, batteries, propulsion, and other systems used in the CX300 will be the same as those of the ALIA-250, which is already moving through the FAA certification process, the company said.

Beta said its eCTOL test aircraft has reached a number of milestones during development flights, including covering a total distance of more than 22,000 miles and completing evaluation flights with test pilots from the FAA, U.S. Air Force, and U.S. Army. The aircraft also made a flight of more than 386 miles from Jamestown, New York, to the company’s test facility in Plattsburgh, New York.

Beta said it designed the eCTOL and eVTOL test aircraft “to fulfill essential missions for its customers, optimizing payload and range to enable short-haul and regional operations with zero operational emissions and much lower operational costs.” Expected customers include cargo, medical, defense, and passenger operators. The company said new and existing customers have placed orders for the eCTOL aircraft.

• READ MORE: Bristow Group Places Firm Order for Beta Technologies eVTOLs

“We have been flying our eCTOL prototype airport-to-airport for a few years now to drive technological advancements in propulsion and systems, and now we’re seeing that there is a clear market for this product in addition to our eVTOL aircraft,” said Beta’s founder and CEO, Kyle Clark.

Beta said it applied for type certification of the CX300 with the FAA last year and is planning to complete certification and begin delivering aircraft in 2025.

“We continue to progress our ALIA eVTOL design through certification, in harmony with the eCTOL program. The two aircraft are common in their design, allowing us to economize validation of our high performance solutions,” Clark said.

The company said Air New Zealand, biotech company United Therapeutics, and Bristow, a provider of vertical flight services, are among its customers for the CX300. Beta said it is nearing completion of its final assembly facility in Vermont and expects to begin manufacturing of aircraft this summer.

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