STS-128

STS-128

Discovery approaches the ISS with Leonardo in its payload bay
Mission type ISS assembly
Operator NASA
COSPAR ID 2009-045A
SATCAT № 35811
Mission duration 13 days, 20 hours, 54 minutes, 55 seconds
Distance travelled 9,262,217 kilometres (5,755,275 mi)
Orbits completed 219
Spacecraft properties
Spacecraft Space Shuttle Discovery
Launch mass 121,422 kilograms (267,689 lb)[1]
Crew
Crew size 7
Members Frederick W. Sturckow
Kevin A. Ford
Patrick G. Forrester
José M. Hernández
John D. Olivas
Christer Fuglesang
Launching Nicole Stott
Landing Timothy Kopra
Start of mission
Launch date 29 August 2009, 03:59 (2009-08-29UTC03:59Z) UTC[2]
Launch site Kennedy LC-39A
End of mission
Landing date 12 September 2009, 00:53 (2009-09-12UTC00:54Z) UTC
Landing site Edwards Runway 22
Orbital parameters
Reference system Geocentric
Regime Low Earth
Perigee 219 kilometres (136 mi)[3]
Apogee 264 kilometres (164 mi)[3]
Inclination 51.6 degrees[3]
Period 89.33 minutes[3]
Epoch 29 August 2009[3]
Docking with ISS
Docking port PMA-2
(Harmony forward)
Docking date 31 August 2009, 00:54 UTC
Undocking date 8 September 2009, 19:26 UTC
Time docked 8 days, 18 hours, 32 minutes


Seated (l–r) Ford and Sturckow. Standing (l–r) are Hernández, Olivas, Stott, Fuglesang and Forrester.


Space Shuttle program
 STS-127 STS-129

STS-128 (ISS assembly flight 17A) was a NASA Space Shuttle mission to the International Space Station (ISS) that launched on 28 August 2009. Space Shuttle Discovery carried the Multi-Purpose Logistics Module Leonardo as its primary payload. Leonardo contained a collection of experiments for studying the physics and chemistry of microgravity. Three spacewalks were carried out during the mission, which removed and replaced a materials processing experiment outside ESA's Columbus module, and returned an empty ammonia tank assembly.[4]

The mission's first launch attempt was delayed due to weather concerns, including multiple weather violations in NASA's launch rules, beginning over two hours before the scheduled launch.[5][6][7] The second launch attempt, scheduled for 26 August 2009 at 01:10:22 EDT, was called off the previous evening due to an anomaly in one of the orbiter's fuel valves.[8][9][10] The launch finally took place on 28 August 2009 at 23:59 EDT. Discovery landed on 11 September 2009 at Edwards Air Force Base, which was the last landing of a shuttle to occur at the California site.

Crew

Position[4] Launching astronaut Landing astronaut
Commander United States Frederick W. Sturckow
Fourth spaceflight
Pilot United States Kevin A. Ford
First spaceflight
Mission Specialist 1 United States Patrick G. Forrester
Third spaceflight
Mission Specialist 2 United States José M. Hernández
First spaceflight
Mission Specialist 3 United States John D. Olivas
Second spaceflight
Mission Specialist 4 Sweden Christer Fuglesang, ESA
Second spaceflight
Mission Specialist 5 United States Nicole Stott
Expedition 20
First spaceflight
United States Timothy Kopra
Expedition 20
First spaceflight

Crew notes

Nicole Stott was originally scheduled to return aboard Soyuz TMA-15, but a change in the flight plan was made due to the possible flight delays in future shuttle missions, which could have extended Canadian astronaut Robert Thirsk's mission beyond the six-month duration preferred for station crew members.[11]

STS-128 was the final Space Shuttle flight used for ISS crew rotation, with Nicole Stott replacing Tim Kopra. Stott returned on STS-129, but that flight did not bring her replacement.

The mission of Christer Fuglesang was named Alissé by the European Space Agency.[12] The name was proposed by Jürgen Modlich from Baierbrunn, Germany. The name refers to the 15th-century explorers who used the trade winds to follow Christopher Columbus across the oceans to the New World.

STS-128 also marked the first time two Hispanic Americans were on the same crew. John "Danny" Olivas of El Paso, Texas, made his second trip into space, and José Hernández of Stockton, California, made his first. Both are of Mexican heritage.

Mission payload

Location Cargo Mass
Bays 1–2 Orbiter Docking System
EMU 3009 / EMU 3015
1,800 kilograms (4,000 lb)
~260 kilograms (570 lb)
Bay 3P Shuttle Power
Distribution Unit (SPDU)
~17 kilograms (37 lb)
Bay 4P APC/MISSE Carrier 57 kilograms (126 lb)
Bay 5P APC/MISSE Carrier 57 kilograms (126 lb)
Bay 7S ROEU umbilical ~79 kilograms (174 lb)
Bays 7–12 Leonardo (MPLM FM-1) 12,131 kilograms (26,744 lb)
Bay 13 Lightweight MPESS Carrier (LMC) 1,780 kilograms (3,920 lb)
Starboard Sill Orbiter Boom Sensor System ~382 kilograms (842 lb)
Port Sill Canadarm 410 kilograms (900 lb)
Total: 16,973 kilograms (37,419 lb)

Multi-Purpose Logistics Module (MPLM) Leonardo

Leonardo, as flown on STS-102.

The primary payload of STS-128 was the Multi-Purpose Logistics Module Leonardo to assist with establishing a six-man crew capacity by bringing extra supplies and equipment to the station. The Multi-Purpose Logistics Module contained three racks for life support, a crew quarter to be installed in Kibo, a new treadmill (COLBERT) that will temporarily be placed in Node 2 and later in Node 3, and an Air Revitalization System (ARS) that will temporarily be placed in Kibo and later in Node 3.

Leonardo Specifications

Lightweight Multi-Purpose Carrier (LMC)

LMC with ATA and EuTEF STS-128

The shuttle carried a Lightweight Multi-Purpose Experiment Support Structure Carrier (LMC) with Ammonia Tank Assembly (ATA).[1] The new ammonia tank will replace an empty tank during an EVA.

TriDAR

The shuttle flew the first test flight of the TriDAR, a 3D dual-sensing laser camera, intended for potential use as an autonomous rendezvous and docking sensor. The TriDAR successfully tracked the ISS position and orientation from the shuttle during docking operations.[13]

Other science packages

It will also contain three racks dedicated to science, FIR (Fluids Integrated Rack) and the first Materials Science Research Rack (MSRR-1) to be placed in Destiny and MELFI-2 (Minus Eighty Laboratory Freezer for ISS) to be placed in Kibo. The FIR will enable detailed study of how liquids behave in microgravity, a crucial detail for many chemical reactions. One experiment, for instance, will examine how mixtures known as colloids behave without being stirred by sedimentation and convection. Another using the Light Microscopy Module (LMM) will examine how an ideal heat pipe works without the distortions of gravity.[14]

Mission experiments

The STS-128 mission (as did STS-125 and STS-127) took part in crew seat vibration tests that will help engineers on the ground understand how astronauts experience launch. They will then use the information to help design the crew seats that will be used in future NASA spacecraft.

STS-128 repeated the Boundary Layer Transition (BLT) Detailed Test Objective (DTO) experiment that was done by the same shuttle during STS-119. In this experiment, one of the thermal protection systems was raised to create a boundary layer transition in which the air flow becomes turbulent beyond a certain speed. During STS-119 the tile was raised 0.25 inches (6.4 mm) above the others, tripping the flow at Mach 15 during reentry. In the modification being done, the tile has been raised 0.35 inches (8.9 mm) to trip at Mach 18 producing more heat.

Discovery undertook the testing of a catalytic coating which was meant to be used by the Orion (spacecraft). Two TPS tiles located in the protuberance downstream from the BLT tile had been fully coated with the catalytic material in order to understand the entry heating performance. The tiles were instrumented to collect a wide variety of data.[15]

Mission milestones

The mission marked:

Shuttle processing

Discovery rolled out from the Orbiter Processing Facility to the Vehicle Assembly Building after the external tank was cleared for use and was mated with it.[16][17] The foam insulation on the tank underwent stringent pull tests after the foam liberated and hit the orbiter during STS-127.[18] The STS-128's tank initially exhibited no concerns while the STS-127 case was determined to be a one off case due to surface contamination prior to foam application.[19][20]

The main change from previous missions is the change of the Ground Umbilical Carrier Plate (GUCP) vent housing. The quick release vents exhibited leaks during STS-119 and STS-127, which were determined to be due to a misalignment in the vent. This led to the one part rigid seal in the external tank being replaced with a two part flexible seal.[21]

Discovery later rolled out from the VAB to Launch Complex 39A on 4 August 2009, in a slow drive on the top of the Crawler-transporter. The 3.4-mile (5.5 km) rollout began at 02:07 EDT, and ended with the launch platform secured in place at about 13:50 EDT. The move took longer than expected due to adverse weather conditions, which included lightning warnings. The crawler also had to pause occasionally so mud could be removed from its treads and bearings. Technicians then quickly prepared the shuttle to host the crew’s countdown dress rehearsal known as the Terminal Countdown Demonstration Test (TCDT).[22] Discovery’s seven astronauts flew to Kennedy on 5 August 2009 for the training activity which concludes later in the week with a complete practice countdown, minus liftoff, involving the crew and the launch team.[23] Meanwhile, in an unprecedented operation, modifications were made to the left Solid rocket booster on the pad.[24] The modifications involved replacement of a check valve filter assembly in the booster which was found to have broken.[25] In a potentially delaying factor, in depth testing of the external tank with X-ray revealed voids in the foam which might have formed during the injection molding of the foam. This has also been decided as a suspect factor in the foam shedding during STS-127. The air in the voids could have expanded due to the high temperatures generated during ascent thus breaking the foam. The reviews considered a rollback as an option since the defect could not be set right in the pad.[25][26][27] Later, the tank was cleared for launch as is without any additional inspections.[28]

Launch attempts

The first launch attempt was delayed by 24 hours due to weather concerns, including multiple weather violations in NASA's launch rules beginning over 2 hours before the scheduled launch.[5][6][7] During the second attempt on Wednesday morning, a problem with a LH2 fill-and-drain fuel valve inside Discovery's aft compartment led to another scrubbing. The problem arose when sensors did not detect the closure of the valve when commanded to do so. The issue was thought to be with the sensors rather than the valve itself.[8][9][10] After inerting the orbiter's tank, which involved draining it, tests were conducted on the valves. Despite the valves working normally, another delay was called for to have more confidence in the system, and to give the console operators who performed the test some rest.[29][30][31] The launch team evaluated the issue, passing on a possible launch window on 27 August 2009 at 01:10 EDT. The launch was delayed until 23:59 EDT, 28 August 2009, to allow the engineers to be fully satisfied with the vehicle.[32] Later the mission was cleared for launch which involved a flight rule waiver for cycling the valve and a discussion to analyze the test failure of an Ares-1 booster that was similar to the SRBs used for the mission.[33] NASA feared another delay when storms formed near the Kennedy Space Center on 28 August 2009, but the weather cleared in time for a successful launch of Discovery at 23:59 EDT.[34][35][36][37]

Attempt Planned Result Turnaround Reason Decision point Weather go (%) Notes
1 25 Aug 2009, 1:36:05 am Scrubbed --- Weather 25 Aug 2009, 1:25 am(T– 9:00 hold) 80%[38] Precipitation and lightning in launch and landing area[5][6][7]
2 26 Aug 2009, 1:10:01 am Scrubbed 0 days, 23 hours, 34 minutes Technical 25 Aug 2009, 5:52 pm 70%[38] Failure indicator on LH2 inboard fill and drain valve[29][30][31]
3 28 Aug 2009, 11:59:37 pm Successful 2 days, 22 hours, 50 minutes 60%; later 80%[39] [36]

Mission timeline

28 August (Flight Day 1 – Launch)

Space Shuttle Discovery launches from Kennedy Space Center, 28 August 2009

After launch at 23:59 EDT, Discovery opened her payload bay doors. Once the doors were opened the crew deployed the Ku-band antenna and activated the Shuttle Remote Manipulator System (SRMS). Once the Ku-band antenna was deployed and activated the crew then down-linked photos from the External Tank Umbilical Well Camera system, so controllers on the ground could see how the tank performed and how much if any foam was shed during ascent.

29 August (Flight Day 2 – TPS Survey)

During Discovery's first full day on orbit, the crew used the SRMS to grapple the Orbiter Boom Sensor System (OBSS) and survey the wing leading edges, nose and other parts of the Thermal Protection System (TPS), as well as the Orbital Maneuvering System (OMS) Pods. During this time some of the crew were preparing the space suits that will be used during the 3 Extra-vehicular activities (EVA) and setting up the tools that will be used during the docking. This includes installing the Centerline Camera and extending the Orbiter Docking system Ring Extension.

30 August (Flight Day 3 – Docking)

Discovery docked with the Pressurized Mating Adapter (PMA) 2 on the front of the Harmony connecting module. Before the shuttle docked Commander Rick Sturckow performed what is known as the Rendezvous Pitch Maneuver (RPM), while Expedition 20 Commander Gennady Padalka and Flight Engineer Michael Barret took photos of the shuttles belly. The photos were down-linked to mission control for review. After docking, Nicole Stott and Tim Kopra switched Soyuz seat liners, making Stott an Expedition 20 Flight Engineer and Tim Kopra an STS-128 Mission Specialist. The joint crews also performed some transfers from the shuttle mid-deck and checked on the pressure in the MPLM Leonardo.

31 August (Flight Day 4 – MPLM Berthing)

During flight day 4, the MPLM Leonardo was berthed to the Nadir or earth facing port on Harmony using the Space Station Remote Manipulator System (SSRMS). Once it was berthed, the crews activated it and opened the hatch for ingress. Some more items were transferred from the shuttle mid-deck including the MDS experiment and the space suits Danny Olivas and Nicole Stott will use during EVA 1. The pair also prepared all the tools that will be used during the EVA with some help from Tim Kopra. Later on during the night when the crews were asleep, the team of ground controllers vented the Port 1 (P1) Ammonia Tank Assembly (ATA) Nitrogen Vent lines, in preparation for the ATA to be removed during EVA 1.

1 September (Flight Day 5 – EVA 1)

Nicole Stott during the STS-128 mission's first space-walk.

EVA 1 was performed, and saw the removal of the empty Ammonia Tank Assembly, and the removal and stowage of the EuTef and MISSE 6 experiments. While the spacewalk was going on crew members inside were transferring the Crew Quarters, C.O.L.B.E.R.T treadmill and the Node 3 Air Revitalization System rack (ARS). The treadmill and ARS were temporarily stowed, while the crew Quarters was installed in the Kibo Module where setup and activation was begun.

2 September (Flight Day 6)

During flight day 6 the joint crews continued the activation of the new crew quarters. The last of the major transfer items, the Fluids Integrated Rack (FIR), Materials Science Research Rack and the Minus Eighty Laboratory Freezer ISS 2 (MELFI-2) were transferred from the Multi-Purpose Logistics Module (MPLM) Leonardo. Astronauts Danny Olivas and José Hernández answered some questions submitted on YouTube and Twitter. Olivas along with Christer Fuglesang also prepared for the second EVA and "camped out" in the air lock at a lower pressure to help get ready for EVA 2 on flight day 7.

3 September (Flight Day 7 – EVA 2)

Composite of images showing the Russian Segment during the EVA

On flight day 7, Danny Olivas and Christer Fuglesang performed the second spacewalk of the STS-128 mission. Olivas and Fuglesang installed and connected the new Ammonia Tank Assembly (ATA), and also performed two get aheads. The get ahead tasks included installing protective lens covers on the Space Station Remote Manipulator System (SSRMS) End B cameras . Once the ATA was installed, the tank was integrated into the cooling loop. While Olivas and Fugelsang were outside, the rest of the crew continued on transferring items to and from both the shuttle mid-deck and MPLM.

4 September (Flight Day 8)

The first part of the crew day was spent off duty. The crews enjoyed a meal, took a crew photo and took part in a PAO event. More transfer was completed by both crews. The space station crew calibrated the Oxygen Generation System (OGS) H2 sensor. Timothy Kopra and Nicole Stott continued their hand over activities, helping Stott who is taking over from Kopra. Danny Olivas and Christer Fuglesang got their space suits ready for the third and final space walk. The pair spent the night in the Quest Joint Airlock, at a lower pressure of 10.2 psi instead of 14.7 psi.

5 September (Flight Day 9 – EVA 3)

Danny Olivas during EVA 3.
Highlights from the third spacewalk (2 min 21 secs)

During flight day 9 Danny Olivas and Christer Fuglesang performed EVA 3. The pair completed all tasks that were to be done, including installing two GPS antennas and deploying the Starboard 3 (S3) Payload Attach System (PAS), a new Rate Gyro Assembly (RGA) 2 and routing of Node 3 Avionics cables. The joint crew also completed more transfer, mostly transfer for return to earth in the MPLM and space shuttle mid-deck. The ISS crew also replaced a bolt on the Common Berthing Mechanism (CBM) so that the MPLM won't get stuck, and also to ensure correct capture of the HTV.

6 September (Flight Day 10 – Off duty)

Flight day 10 saw the joint crews transfer samples from the space station to the shuttle freezer known as Glacier. The samples will be returned to earth for examination by scientists who will develop ways to prevent bone and muscle loss in space as well as cures for other illnesses on earth. The crews also completed some close outs of the Multi-Purpose Logistics Module Leonardo. The last portion of the crew day was spent off duty.

7 September (Flight Day 11 – Hatch closure)

On flight day 11 the joint ISS/shuttle crews completed transfers and closed the hatches with the MPLM. Once the hatches were closed, the MPLM was deactivated, demated and berthed back in the payload bay of the space shuttle. During this process José Hernández and Nicole Stott took part in a PAO event. The end of the crews work days saw the two crews say goodbye in a farewell ceremony and close the hatches between the shuttle and ISS. Once the hatches were closed, the Pressurized Mating Adapter 2 was depressurized, in advance of undocking. The shuttle crew setup and checked out the rendezvous tools before going to bed.

8 September (Flight Day 12 – Undocking)

On flight day 12, space shuttle Discovery successfully undocked from the International Space Station at 19:26 UTC. After undocking, the shuttle backed out and performed a fly around of the ISS. The space shuttle then performed 2 separation burns using its thrusters. After the separation burns, astronauts Kevin Ford, José Hernández and Christer Fuglesang used the Orbiter Boom Sensor System (OBSS) to inspect the shuttle's Thermal Protection System (TPS). When they completed that task the OBSS was berthed on the starboard sill of the payload bay and the Shuttle Remote Manipulator System (SRMS) was powered down.

9 September (Flight Day 13 – End Of Mission Prep)

On flight day 13 the space shuttle crew began stowing items for landing. During the course of the day commander Frederick W. Sturckow and pilot Kevin A. Ford performed standard checks of the Flight Control Systems (FCS), Reaction Control System (RCS) jets and communications with the ground. The crew also deactivated the Wing Leading Edge System (WLES), stowed the Ku-band antenna, and reviewed landing procedures.

10 September (Flight Day 14 – Landing Postponed)

On flight day 14, Discovery was scheduled to land at Kennedy Space Center at 19:04 EDT (23:04 UTC). The landing was postponed due to weather conditions, and the second opportunity at 20:40 EDT (00:40 UTC) was also postponed due to weather conditions.

11 September (Flight Day 15 – Landing)

After weather delayed two landing opportunities at Kennedy Space Center, Discovery lands at Edwards Air Force Base, California.

On flight day 15 at 19:47 EDT (23:47 UTC), Discovery started the de-orbit burn for landing at Edwards Air Force Base after its two landing attempts at Kennedy Space Center the previous day were waved off. Discovery touched down safely at 20:53 EDT (17:53 PDT/00:53 UTC).

The landing marked the final time a space shuttle mission concluded at Edwards Air Force Base, as well as the last time a ferry flight would be needed for an operational orbiter. Discovery returned to KSC on Monday, 21 September 2009 after refueling stops at Amarillo International Airport, Fort Worth Naval Station and Barksdale Air Force Base on 20 September. The last seven missions of the shuttle all touched down at Kennedy Space Center.

Spacewalks

Each spacewalk was planned to last approximately 6.5 hours.[40]

EVA Spacewalkers Start (UTC) End (UTC) Duration
EVA 1 John D. Olivas
Nicole Stott
1 September 2009
21:49 UTC
2 September 2009
04:24 UTC
6 hours, 35 minutes
Prepared for the replacement of an empty ammonia tank on the station’s port truss by releasing its bolts. Retrieved the Materials International Space Station Experiment and European Technology Exposure Facility mounted outside the Columbus laboratory, and stowed them in Discovery’s cargo bay for their return to Earth.
 :Robotic Arm Operators: Ford and Thirsk[1]
EVA 2 John D. Olivas
Christer Fuglesang
3 September 2009
22:13 UTC
4 September 2009
04:51UTC[41]
6 hours, 39 minutes
Removed the new ammonia tank from the shuttle's payload bay and replaced it with the used tank from the station. The new tank, weighing about 1,800 pounds (820 kg), was the most mass ever moved by spacewalking astronauts.

With this spacewalk, ESA astronaut Fuglesang became the first person, who is not from either an American or Russian space program, to have participated in four or more spacewalks.
 :Robotic Arm Operators: Ford and Stott

EVA 3 John D. Olivas
Christer Fuglesang
5 September 2009
20:39 UTC
6 September 2009
03:40 UTC
7 hours, 01 minutes
Preparations for the arrival of the Tranquility node by attaching cables between the starboard truss and the Unity node, the area where Tranquility will be installed. Tranquility is targeted to arrive on STS-130 in February 2010. The spacewalkers also replaced a communications sensor device, installed two new GPS antennas, and replaced a circuit breaker.

Wake-up calls

NASA began a tradition of playing music to astronauts during the Gemini program, which was first used to wake up a flight crew during Apollo 15. Each track is specially chosen, often by their families, and usually has a special meaning to an individual member of the crew, or is applicable to their daily activities.[42][43]

Flight Day Song Artist Played for Links
Day 2 Back In The Saddle Again Gene Autry Frederick W. Sturckow WAV MP3
TRANSCRIPT
Day 3 Made to Love TobyMac Nicole Stott WAV MP3
TRANSCRIPT
Day 4 Mi Tierra Gloria Estefan José Hernández WAV MP3
TRANSCRIPT
Day 5 Indiana, Our Indiana Indiana University Band Kevin A. Ford WAV MP3
TRANSCRIPT
Day 6 What a Wonderful World Louis Armstrong Christer Fuglesang WAV MP3
TRANSCRIPT
Day 7 “There is a God” 33Miles Patrick G. Forrester WAV MP3
TRANSCRIPT
Day 8 What a Wonderful World Louis Armstrong Danny Olivas WAV MP3
TRANSCRIPT
Day 9 “El Hijo del Pueblo” José Alfredo Jiménez José Hernández WAV MP3
TRANSCRIPT
Day 10 “Rocket” Andrew Peterson Patrick G. Forrester WAV MP3
TRANSCRIPT
Day 11 “Only One” Jeremy Kay John D. Olivas WAV MP3
TRANSCRIPT
Day 12 "Beautiful Day" U2 Timothy Kopra WAV MP3
TRANSCRIPT
Day 13 "Sailing" Rod Stewart Christer Fuglesang WAV MP3
TRANSCRIPT
Day 14 "Good Day Sunshine" The Beatles Kevin A. Ford WAV MP3
TRANSCRIPT
Day 15 "Big Boy Toys" Aaron Tippin Frederick W. Sturckow WAV MP3
TRANSCRIPT

Media

See also

References

 This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.

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