Roscosmos, the federal space agency of the Russian Federation, launched the Progress MS-07 craft on a resupply mission to the International Space Station on Saturday and docked on a Monday docking. A previous option for Progress to debut a new super fast rendezvous with the ISS – docking to the Station just 3.5 hrs after liftoff – was lost after an earlier scrub.
Progress MS-07:
For the third time this year, Roscosmos launched an uncrewed Progress resupply vehicle to the International Space Station.
The seventh in the new line of Progress spacecraft, MS-07 was to enjoy a super fast, 2 orbit rendezvous with the ISS, arriving at the orbital outpost just 3.5 hrs after lifting off from the Baikonur Cosmodrome, had launch occurred on Thursday.
In all, Progress MS-07 is the 159th Progress mission since the program began in 1978 for resupply efforts of the Salyut 6 space station and the 70th Progress mission to the ISS, counting the two Progress flights that were not designated as resupply missions because they delivered modules to the Station.
One of those two Progress non-resupply flights occurred in 2001, when a modified Progress delivered the Pirs docking compartment to ISS.
Including this flight, 70 Progress missions have launched to ISS to date, with Progress MS-07 (or Progress 68 as it is known to NASA) being the 67th attempt of a Progress family vehicle to successfully reach the Station following the Progress 44 launch failure in August 2011, the Progress 59 launch mishap in April 2015, and the Progress 65 launch failure in December 2016.
Progress MS-07 – as a few previous Progress missions have – rode to orbit atop the Soyuz-2.1a rocket.
Following various construction milestones, system checkouts, and cargo loading, the Progress MS-07 vehicle was fueled with its propellants and compressed gases at the filling station at Baikonur before engineers moved the craft to the Spacecraft Assembly and Testing Facility (SC ATF).
There, Progress MS-07 underwent final checkouts before undergoing encapsulation with its payload fairing.
On 6 October, the encapsulated Progress was transferred to the Spacecraft Integration and Test Facility (SC ITF), where it was mated to the third stage of its Soyuz 2.1a carrier rocket.
The integrated third stage/spacecraft was then mated to the core/second stage of the Soyuz on 9 October.
The Soyuz rocket and its Progress passenger were then moved to pad 31/6 at the Baikonur Cosmodrome in Kazakhstan via rail transport on 10 October.
Liftoff was initially scheduled for 09:32:03 GMT (05:32:03 EDT – 15:32:03 local time at Baikonur) on Thursday, 12 October 2017.
Under the initial plan, after an 8 minute 45 second ascent, the Soyuz-2.1a rocket was to deliver Progress MS-07 into its initial orbit to begin a super fast tracked, two-orbit (3.5 hr) rendezvous with the ISS.
This new approach trajectory and sequence was to be tested on Progress MS-07 ahead of the timeline’s anticipated use on the Soyuz crew rotation flight set for December.
Improvements to the Soyuz rocket and Soyuz crew vehicles have enabled the somewhat steady use of fast rendezvous with the ISS over the past several years – thereby significantly alleviating crew stress for those riding aboard Soyuz, which is small and cramped.
However, due an electrical connector failing to disconnect just before lower mast retraction, which prevented switching to internal power, the first launch attempt was scrubbed seconds prior to launch, meaning the next opportunity on Saturday saw a return to the old two day rendezvous.
The previous two-orbit rendezvous timeline:
Progress missions are routinely used to test new procedures ahead of their use on crewed missions of Soyuz.
The new super fast rendezvous was to have tested the Progress MS-series (which uses the same software and engine systems as the Soyuz MS-series) craft’s ability to perform the complex rendezvous profile under a strict set of conditions and a tight timeline.
(Note: The below times and events are part, not all, of NASA’s rendezvous timeline – full document available for download on L2 – provided to NASASpaceflight.com. Real-time flight events and spacecraft performance usually cause the below timeline to shift by a few seconds.)
After orbit insertion is accomplished, the Progress’ orbital parameters will be immediately discerned via spacecraft communication with Vostochny Cosmodrome’s tracking stations in eastern Russia.
If all of those parameters meet the specifications needed for two-orbit rendezvous, MS-07 was to embark on its super fast trajectory to the ISS.
Options exist to default after launch to a standard 34 orbit, 2 day rendezvous profile should something occur in the opening minutes of the mission that would preclude fast track docking. This is the option being taken.
However, per any future two orbit, 3.5hr rendezvous plan, Progress will perform the DV-1 burn ~41 mins into the mission – changing its velocity by 24.52 m/s and beginning the process of aligning itself with pinpoint accuracy into the ISS’s approach corridor.
The automated rendezvous sequence will start ~62 mins after liftoff.
Progress will then execute the Impulse 1 burn 81 mins after liftoff, further changing its velocity by 46.559 m/s.
Onboard the Station, the crew had begun final preparations for Progress MS-07’s arrival 93 mins after the craft’s launch when Motion Control of the Station will be transferred from the USOS (United States Operating Segment) to the Russian Segment.
This would have been followed by a short 1.992 m/s delta-V Impulse 2 burn by Progress and the activation of the Kurs-P communication system on the ISS’s Zvezda Service Module.
One minute later, Progress’ corresponding Kurs-NA system would have activated at a Mission Elapsed Time (MET) of ~1 hr 53 mins.
Progress would have then conducted the Impulse 3 burn (delta-V of 35.917 m/s) at MET 2 hrs 6 mins.
Confirmation of Kurs-P range data from the Service Module’s system would have been taken at MET 2 hrs 19 mins – at which point Progress would have been just 45 km (28 mi) behind the Station.
Just 5 mins later, Progress MS-07 would have closed another 15 km (9.3 mi) on the Station, at which point its Kurs-NA antenna would have activated.
Eight minutes later, at MET 2 hrs 32 mins, a full-up Kurs test between Progress and the ISS SM would have occurred – and Progress woul dbe just 15 km (9.3 mi) from the Station.
At this point the mission followed previous – and now current – rendezvous ops – with Progress at 9 km from ISS, the Station’s VHF-2 transmitter was activated. This transmitter is a vital part of Progress’ TORU (Teleoperated Mode of Control) automated docking system’s ability to safely and accurately guide the craft through a completely automated rendezvous to ISS.
VHF-2 transmitter activation occurred with Progress’ VHF receiver being activated 11 mins later.
Progress performed the Impulse 4 burn to change its velocity by 5.897 m/s and bring itself to the Ballistic Targeting Point 2 km from the ISS just seconds later.
At this point, Progress MS-07 TORU command link tests, Progress TV camera activation, and final ISS system power-downs and command inhibits were put in place.
The Impulse 5 and 6 burns further changed Progress’ velocity by 5.755 m/s and 1.705 m/s, respectively.
Progress flyaround of the ISS commenced, at the conclusion of which Progress was properly aligned with nadir docking port one on the Pirs docking compartment (DC).
At this time, Progress initiated station keeping operations to hold relative position with the ISS as final alignment and system checks completed.
Once a “go” to proceed was given, Progress began its final approach.
Docking operations then follow.
At the moment of docking, the ISS entered free drift to help dampen out relative motion between the two vehicles. Once those dispersions were gone, Progress drove its hooks into the DC1 nadir port to achieve hard dock.
After this, the vestibule between the Station and Progress MS-07 will be pressurized ahead of hatch opening.
This plan has now been lost, but the Progress will eventually make the trip to the Station.
Now docked, the Station crew will begin the process of offloading / transferring 1,940 lbs (880 kg) of propellant, 51 lbs (23 kg) of oxygen, 53 lbs (24 kg) of air, 926 lbs (420 kg) of water, and 2,976 lbs (1,350 kg) of dry cargo, spare parts, and similar items from the MS-07 spacecraft.
In all, MS-07 arrived with 5,946 lbs (2,697 kg, or 2.9 tons) of equipment, supplies, and life support elements to Station.
While all the cargo aboard MS-07 is valuable and necessary in the long-term view, the Station is incredibly well stocked with all consumables at present.
In fact, the ISS is so well stocked that NASA public affairs told NASASpaceflight.com’s Chris Gebhardt that, “Even without Progress [MS-07], consumables on Station can last through next spring.”
After Progress MS-07, only two more resupply missions to Station remain for 2017.
Orbital ATK is targeting NET (No Earlier Than) 10 November for the launch of the Cygnus OA-8E mission on the company’s Antares rocket from the Mid-Atlantic Regional Spaceport in Virginia.
SpaceX will quickly follow with the CRS-13 mission of Dragon on NET 28 November 2017.
(Images: Roscosmos and NASA)