What if Orbital ATK's Antares rocket went away? Would that be a bad deal for NASA?
These were the original questions that sent me tumbling down a rabbit hole of commercial spaceflight data. To be clear: There is no immediate indication Antares is going anywhere. But ever since Orbital ATK added the stalwart Atlas V rocket as an option for sending Cygnus cargo vehicles to the International Space Station, Antares' future has gotten fuzzier. Chosen in part to fill a perceived gap in U.S. launch capabilities, Antares has yet to find a role outside of shipping cargo the ISS.
But that's only part of the story. What's equally interesting is picking apart exactly how much NASA pays for a typical space station cargo flight, comparing the differences between providers, and looking at the commercial cargo program as a whole to see if it has lived up to expectations.
Antares in infrared
NASA / Bill Ingalls
ANTARES IN INFRARED
Using a modified SLR camera, NASA photographer Bill Ingalls captured this infrared image of Antares rising from the launch pad on Sept. 18, 2013.
Who uses Antares? Right now, just NASA
Antares has flown six times, all in support of NASA's commercial cargo program. Two were demo flights, a 2014 mission ended in flames, and the other three were successful, paid ISS cargo trips. Four more flights are planned to fulfill the company's contractual obligations under CRS-1, the first phase of NASA's Commercial Resupply Services program.
Thus far, no one but NASA has booked a ride on an Antares rocket. The 2014 accident didn't do the booster's reputation any favors, but as the chart below shows, Antares is fairly light-lift when it comes to the U.S. launch market. Orbital ATK also has two other offerings on its menu not shown: the air-launched Pegasus, which can carry about 450 kilograms to low-Earth orbit in a 1.2-meter payload, and the rarely used Minotaur, the most powerful version of which can haul about 3.1 metric tons to LEO in a 2.3-meter fairing.
U.S. launch vehicle comparison chart
NASA Office of Inspector General
U.S. LAUNCH VEHICLE COMPARISON CHART
NASA could switch entirely to the Atlas V for future Cygnus flights. And Orbital ATK wants to build an Atlas V replacement
After the 2014 accident, Orbital scrambled to figure out what happened, eventually blaming the rocket's refurbished Soviet-era engines. In the meantime, they bought a United Launch Alliance-owned Atlas V to fly a Cygnus vehicle to the ISS. Because the Atlas V is more powerful, NASA and Orbital were able to squeeze more cargo into Cygnus, increasing its mass capacity from 3,200 kg to 3,513 kilograms. By using Atlas, Orbital realized it could fulfill its contractual obligation to fly 20 metric tons of cargo to the ISS in seven Cygnus flights instead of eight.
In 2015, NASA ordered three more Cygnus flights, bringing Orbital's total obligation up to 10. Orbital, in turn, booked two more Atlas rockets.
The company's final four CRS-1 cargo flights will use Antares, but all of this shuffling around has very much put the Atlas V in play for CRS-2, the second round of ISS cargo flights that will begin in 2019. Orbital ATK, SpaceX and Sierra Nevada are the winning CRS-2 providers, but no missions have yet been awarded.
"NASA hasn't actually told us which missions they'll want on which vehicles, and that's part of the contract proposal we made to them," said Orbital ATK space systems group president Frank Culbertson during an April 17 press conference. "So we're waiting to see which way they'd like to go, whether it's a mix or all one or the other."
Capping the Antares uncertainty is Orbital ATK's development of a larger rocket called the Next Generation Launch System, or NGL. NGL development has been supported by the U.S. Air Force. In 2016, the Air Force awarded contracts to Orbital ATK and SpaceX to spur development of possible replacements to the Atlas V, which uses Russian-built engines. Another round of Air Force contract awards are expected next year.
The competition, however, could be steep. And United Launch Alliance already has its own Atlas V exit plan: the Vulcan.
How much does NASA pay for a Cygnus flight, anyway?
Determining how much NASA actually pays for a typical Cygnus cargo flight (and while we're at it, a SpaceX Dragon cargo flight) to is surprisingly difficult to calculate. While NASA disclosed the initial terms of its CRS-1 awards, the agency was less forthcoming with details on CRS-1 extensions, citing its partners' wishes to keep financial details private.
Nevertheless, we can pull together some reasonable estimates. Here, to the best of my knowledge, are the amounts of money NASA has paid Orbital ATK and SpaceX for the current round of cargo flights, including development costs.
Orbital ATK Cygnus
Award Amount, millions Notes
COTS round 2 $170 Re-award after Rockplane Kistler contract terminated
Augmented funding $118 Extra FY11 funding per Augustine Commission / White House / Congressional recommendation
CRS-1 $1,900 8 Antares/Cygnus flights with option to add more, $3,100 max contract value. Later reduced to 7 Cygnus flights due to additional Atlas V mass capability.
CRS-1 extension 1 $475 1 Cygnus flight. Value undisclosed, figure from FAA 2017 annual compendium.
CRS-1 extension 2 $725 2 Cygnus flights. Value undisclosed. At this point, $725 remained from original $3,100 contract cap. Based on prior $475 single flight extension, assumption is that remaining funds were allocated.
Total cargo award $3,388 10 Cygnus flights total. 6 completed, 4 remaining, 1 failure.
SpaceX Dragon
Award Amount, millions Notes
COTS round 1 $278
Augmented funding $118 Extra FY11 funding per Augustine Commission / White House / Congressional recommendation
CRS-1 $1,600 12 Dragon flights with option to add more, $3,100 max contract value
CRS-1 extension 1 $450 3 Dragon flights. Value undisclosed, Gwynne Shotwell later approximates $150 per flight.
CRS-1 extension 2 $1,200 5 Dragon flights. Value undisclosed, figure from FAA 2017 annual compendium. This brings CRS-1 total award to 3,250, exceeding $3,100 cap—unsure about discrepancy.
Total cargo award $3,646 20 Dragon flights total. 9 completed, 11 remaining, 1 failure.
With these estimates, we can calculate a per-flight cost: The 20 SpaceX Dragon flights cost roughly $182 million each, while the 10 Orbital ATK Cygnus flights cost roughly $339 million each.
Dragon flights are cheaper, but Cygnus has some unique capabilities
Based on the above estimates, Cygnus flights are 1.86 times more expensive than Dragon flights. But to be fair, these are two different vehicles with different capabilities.
The current 'enhanced' Cygnus variant has more than double the pressurized volume of Dragon: 26.2 versus 11 cubic meters. That's an important capability for shipping voluminous amounts of food, water, crew supplies and science experiments to the ISS.
Dragon, on the other hand, has an unpressurized trunk for exterior station equipment, such as BEAM, the inflatable module attached to the station last year. Dragon can also return cargo to Earth—a vital and unique capability (besides the Soyuz, which also carries crew).
Cygnus pulls double duty as a dumpster, allowing astronauts to stuff it full of trash for incineration in Earth's atmosphere. That also allows scientists to use it for risky experiments, like learning how large-scale fires spread in space.
In terms of mass capabilities, Dragon and Cygnus are about equal. Cygnus can carry 3,200 kilograms to the ISS via Antares, and 3,513 kilograms with the Atlas V. Though SpaceX advertises Dragon's upmass capability as 6,000 kg to orbit, NASA's original agreement with SpaceX is for 3,310 kilograms, and indeed, that's the most Dragon has ever carried, during the aforementioned BEAM flight. (Here's my dataset.) On average, Dragons arrive at the station carrying 2 metric tons of cargo; Cygnus usually shows up with about 2.6 metric tons.
Dragon, however, has flown more. Its total ISS haul to date is 17.8 metric tons, while Cygnus is slightly behind, at 15.6 metric tons.
Here's a combined plot of Dragon and Cygnus ISS cargo deliveries during CRS-1:
CRS-1 cumulative cargo delivered to ISS by vehicle
Jason Davis / The Planetary Society
CRS-1 CUMULATIVE CARGO DELIVERED TO ISS BY VEHICLE
During the Cygnus outage in 2014, and Dragon outage in 2015, NASA leaned on its other partner. This highlights why the agency chose more than one cargo provider in the first place.
COTS and CRS-1 in retrospect
It was almost 11 years ago when NASA chose SpaceX and Rocketplane Kistler to receive the first round of commercial cargo funding. Just a year-and-a-half later, NASA associate administrator Doug Cooke selected Orbital Sciences Corporation to join the program after Rocketplane Kistler failed to meet required financial milestones.
In Cooke's selection statement, he explained why he chose Orbital over Boeing, the other leading competitor.
"A significant discriminator between Boeing and Orbital is the market stimulation created by Orbital's new launch vehicle. The Taurus II will meet a real market need for a medium launch vehicle capability outside of support to the ISS in the areas of science missions and small satellite launches, which raises my confidence level that its development will be sustainable going forward. This meets the objective of the COTS project to stimulate a broad space transportation market for multiple customers."
The Taurus II, which was renamed Antares, has yet to find a home in the beyond-ISS market Cooke envisioned. It may never. Instead, Boeing's proposed rocket, the Atlas V, figures to be a key part of the International Space Station's future. It will, at the very least, be used to launch Sierra Nevada's Dreamchaser cargo spaceplane and Boeing's Starliner crew capsule.
Also in Cooke's selection statement, there's an overview of why NASA's commercial spaceflight program exists in the first place:
"...to implement U.S. Space Exploration policy with investments to stimulate the commercial space industry; facilitate U.S. private industry demonstration of cargo and crew space transportation capabilities with the goal of achieving safe, reliable, cost effective access to low-Earth orbit; and create a market environment in which commercial space transportation services are available to Government and private sector customers."
By that benchmark, the program is doing quite well.
Cygnus is more expensive, and Antares hasn't become the market-shaking launcher NASA originally envisioned. But the dual-provider strategy has been crucial to the success of the agency's commercial spaceflight program, and that plan persists as America's ISS resupply capability evolves from cargo to crew.