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Friday, April 16, 2021

SpaceX Wins $2.9 Billion NASA Moon Landing Contract

 

As reported by Yahoo!FinanceThe winner of NASA's Human Landing System (HLS) contract award is SpaceX, which bid $2.9 billion for the privilege of developing the means by which NASA astronauts will return to the lunar surface for the first time since the Apollo program. SpaceX was in the running alongside Blue Origin and Dynetics, but reportedly undercut both those prospective suppliers considerably with its bid, according to The Washington Post.

SpaceX proposed using its Starship spacecraft, currently under development, as the landing vehicle for astronauts once they arrive at their lunar destination. The HLS is a key part of NASA's Artemis program, which will begin with uncrewed flights, followed by a Moon fly-by with a human crew, and eventually a human lunar landing at the South Pole of the Moon, during a mission which had been targeting 2024 as its fly date.

NASA announced that SpaceX, Blue Origin and Dynetics made up the entirety of its field of approved vendors for bidding on the HLS contracts back in April last year. Since then, both Blue Origin (which bid alongside a "national team" that included Lockheed Martin, Northrop Grumman and Draper) and Dynetics have built full-scale models of their system and submitted proposals detailing their plans for the functional versions to NASA for consideration. Meanwhile, SpaceX has been actively testing functional prototypes of its Starship spacecraft in Texas, and is also in the process of developing the Super Heavy booster that will propel it to the Moon once it's ready.

The plan here was for NASA to have chosen all three companies to build out initial versions in order to satisfy the early requirements of the contract, and then ultimately, it was generally thought that the agency would select a couple from the list of three to build human landers, in order to provide it with some flexibility when it comes to means of getting to the lunar surface. That's essentially how NASA operated with its Commercial Crew program for the International Space Station, which saw awards for both SpaceX and Boeing to build astronaut transport spacecraft. SpaceX has already qualified and begun to operate its vehicle, and Boeing hopes to bring its option online either late this year or early next.

SpaceX has won a lot of trust at NASA by delivering on the Commercial Crew program with a reliable, reusable human-rated spacecraft in the Crew Dragon. The Post also says that in addition to its attractive pricing, NASA wasn't drawn to Starship's flexibility and cargo capacity, since it's aiming to be able to fly not just humans, but also large quantities of supplies and materials to the Moon, and eventually, beyond.

Starship is a long way off from that goal at the moment, however; SpaceX has been quickly developing new iterations in a rapid prototyping approach to its test phase, but the most recent Starship high-altitude flight ended poorly with an explosion prior to landing. Other elements of the test program, however, including showing that Starship can successfully reorient itself in mid-air and slow its decent for landing, have been more successful on past tests. None of the tests so far have left Earth's atmosphere, however, nor have they involved any human flight testing, both of which will require a lot more development before the spacecraft is deemed mission-ready.

SpaceX was also the launch provider chosen to deliver components of the Lunar Gateway satellite in 2024, working with Maxar, which will produce the actual Power and Propulsion Element and Habitation and Logistics Outpost. These, however, will be delivered via Falcon Heavy, which has already had multiple successful launches.


Thursday, April 8, 2021

UPS Orders Electric Aircraft to Transport Cargo between its Facilities

 

As reported by SeattleTimesUPS is ordering 10 electric aircraft that are designed to take off and land like a helicopter, allowing it to fly cargo directly between its facilities in small markets and bypass airports.

The electric Vertical Takeoff and Landing (eVTOL) aircraft made by Beta Technologies would be flown by an onboard pilot when UPS begins getting them in 2024, pending Federal Aviation Administration certification. Burlington, Vermont-based Beta Technologies is conducting flight testing on the aircraft at a test facility in Plattsburgh, N.Y.

But the aircraft are designed to “someday operate autonomously” once the technology and regulations are developed, according to Sandy Springs, Georgia-based UPS, which did not disclose the purchase price.

UPS has an option to purchase an additional 140 aircraft. It plans “to take delivery and see how they perform within the network, and then move from there,” said UPS spokesman Matthew O’Connor.

After years of testing drone delivery technologies, UPS in 2019 got Federal Aviation Administration approval for a drone airline called UPS Flight Forward and has partnered with CVS for prescription drone deliveries. In recent years, UPS has also tested self-driving tractor-trailers and vans, ordered 10,000 electric delivery trucks and worked to develop electric vehicles capable of automated movement in UPS depots.

The eVTOL aircraft would be used to supplement cargo shipments in UPS’s small feeder air network, currently served by contract operators that use Beechcraft and Cessna 208 Caravan planes to fly cargo between small and medium-sized markets.

The Beta aircraft have a 1,400-pound cargo capacity, the Associated Press reported.

Since the eVTOL aircraft would be able to take off and land at UPS facilities, the company would save the time and labor for loading and transferring at airports between planes and trucks that drive the packages to UPS facilities. That could speed urgent shipments such as pharmaceuticals and documents.

“By utilizing vertical takeoffs and landings, we can turn relatively small spaces at existing UPS facilities into a micro air feeder network without the noise or operating emissions of traditional aircraft,” said Beta founder and CEO Kyle Clark in a written statement.

The Beta Technologies eVTOL aircraft are designed to have a range of 250 miles on a single charge, and be able to charge in an hour or less at charging stations that could also be used for electric ground vehicles. They would have a cruising speed of up to 150 miles per hour, and produce zero emissions while operating.