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 Soyuz Launches ISS Crew
Russia's Soyuz FG orbited Russia's Soyuz MS-06
spacecraft from Baikonur, Kazakhstan with three
International Space Station crew on September 12,
2017. It was the year's third crewed launch. Liftoff
from Baikonur Cosmodrome Area 1 Pad 5 took place at
21:17 UTC. The spacecraft entered a roughly 197 x
255 km x
51.67 deg initial orbit. Onboard were Russia's
Alexander Misurkin and NASA's Mark Vande Hei and Joe
Acaba, comprising the Expedition 53/54 crew.
Soyuz
MS-06 aimed for a 6 hour, four orbit fast-track
ascent to ISS. The MS-06 crew will join Randy
Bresnik, Sergey Ryazanskiy, and Paolo Nespoli at the
station.
It was the ninth R-7 flight of 2017.
 Proton
Launches Amazonas 5
Russia's Proton
M/Briz M launched the Amazonas 5 communications
satellite from Baikonur Cosmodrome on September 11,
2017. The 415th Proton rocket, a "Phase 3" Proton M
variant, serial number 93565, lifted off from
Baikonur's Area 200 Pad 39 at 19:23 UTC to begin a
planned 9 hr 12 min ascent phase that included five
burns by the Briz M upper stage. The 5,900 kg Space
Systems/Loral-built SSL 1300 series satellite was
aimed toward a planned 4,450 x 35,286 km x 22.9 deg
geosynchronous transfer orbit.
Amazonas 5,
built for HISPASAT Group, is equipped by 24 Ku-band
transponders and a Ka-band spot beam with spot
beams. It will provide fixed and broadband services
in South America, Central America and Mexico. The
satellite will be positioned at 61 deg West after it
raises itself to geostationary orbit.
It was
the year's third Proton launch. It was also the 95th Proton
flown for International Launch Services.
 Falcon
9 Launches X-37B
Falcon 9-42, the
second v1.2 variant to fly with a "Block 4" first
stage, launched the fifth U.S. Air Force X-37B
Orbital Test Vehicle (OTV) mission into orbit from
Kennedy Space Center LC 39A on September 7, 2017.
Liftoff took place at 14:00 UTC. X-37B entered a low
earth orbit likely inclined 40 to 45 deg to the
equator after a single burn by the second stage
Merlin Vacuum engine.
This was the first
X-37B launch by Falcon 9. Atlas 5 performed the
first four launches, which are believed to have used
two different X-37B spacecraft. The winged robot
mini-shuttle, which carries classified payload in
its small payload bay, is believed to weigh about 5
metric tons at launch.
First
stage B1040 performed a 2 min 23 sec ascent burn
before separating from the second stage, turning 180
deg, and restarting three engines for a roughly 34
second boost-back
burn that pushed it back towards Florida even as it
continued to gain altitude. The stage performed a
roughly 20 second three-engine reentry burn starting at about T+6 min
34 sec and a final single-engine landing burn that
began about 30 seconds before it settled onto the
circular pad at Cape Canaveral Landing Zone 1. Landing took place about 8 min 14 sec after liftoff.
It was the 16th successful first stage
landing and the 7th landing at LZ 1. Fourteen first
stages have now been recovered, two having flown
twice. All of the recovered stages have been v1.2
types.
The second stage was expected to
perform a deorbit burn after payload separation,
possibly after performing an extended coast mission. Its
post-reentry remains were to be aimed toward a zone far
south of Australia.
The F9-42 stages were
test fired at McGregor, Texas during late July or
early August, 2017. The first stage engines
performed a brief static test at LC 39A on August
31, 2017 before OTV-5 was stacked atop the rocket.
 PSLV Fails
India's most-reliable launch
vehicle, PSLV, suffered its first launch failure
since 1997 during an attempt to orbit IRNSS 1H, the
country's eighth-planned navigation satellite, from
Sriharikota on August 31, 2017. The 4.5-stage
PSLV-XL variant, flying the C-39 mission, lifted off
from Satish Dhawan Space Center's Second Launch Pad
at 13:30 UTC. All of the propulsion elements
appeared to work as expected, but the payload
fairing failed to separate as planned about 3
minutes 23 seconds after liftoff. The extra mass
caused the fourth stage and its still-encapsulated
payload to fall short, only reaching a 167 x 6,555
km x 19.18 deg orbit, far short of the planned 675 x
20,650 km x 19.2 deg transfer orbit.
Plans
had called for the 1,425 kg satellite to raise
itself from the planned subsynchronous transfer
orbit to a geosynchronous orbit with a 29 deg
inclination, tracing a small figure-8 pattern over
the Earth's surface, centered on 55 deg East
longitude.
India's first generation
navigation constellation consists of four satellites
in inclined geosynchronous orbit and three in
equatorial geostationary orbits.
It was the
41st PSLV flight and the 18th by a PSLV-XL variant.
The failure ended a string of 36 consecutive
successes for the PSLV family. No PSLV-XL failures
had previously occurred. PSLV began flying in 1993.
 Minotaur
4 Cape Inaugural
Orbital ATK's
Minotaur 4 performed its first launch from Cape
Canaveral on August 26, 2017 when it boosted the
ORS-5 (Operationally Responsive Space) satellite
into equatorial low earth orbit. The 87 tonne rocket
lifted off from SLC 46
at 06:04 UTC, rising rapidly on 209 tonnes of thrust
from the SR-118 first stage motor.
An Orion 38 fifth stage was
added to the standard four-stage Minotaur 4 to
perform the unusual ascent. ORS-5 only weighed 140
kg, but the fifth stage was needed to perform the
largest-ever low earth orbit plane change maneuver
to insert the satellite into a 600 km x 0.0 deg
orbit.
Minotaur 4 uses surplus Peacekeeper
ICBM motors for its first three stages. An Orion 38
motor serves as the fourth stage. On this flight the
first stage fired for 0.94 minutes and the second
stage for 0.96 minutes before begininng a 0.18
minute coast. The third stage then separated from
the second stage and performed a 1.21 minute burn.
The stack coasted until the third stage separated at
T+13.74 minutes. The fourth stage ignited 0.18
minutes later to begin its 1.11 minute burn to reach
orbital velocity, entering a roughly 400 x 600 km x 24.6 deg
transfer orbit. After a coast to the equator, during
which three small cubesats deployed, the fifth stage
began its 1.15 minute burn at T+25.31 minutes to
raise perigee to about 600 km and to reduce inclination to 0 deg.
MIT/Lincoln Labs
led the effort to develop ORS-5, which will stare up
at the geosynchronous orbit belt to provide an
operational demonstration of situational awareness
about the movement of satellites operating in the
belt.
It was the fourth orbital launch
mission by a Minotaur 4, the sixth Minotaur 4
launch, and the seventh launch of a Minotaur 4 or 5.
Minotaur 5 uses a Star 48V, rather than an Orion 38,
fourth stage motor. Cape Canaveral became the fourth
launch range to see a Minotaur 4 or 5. Previous
launches took place from Vandenberg AFB, Kodiak, and
Wallops Island. It was the first launch from SLC 46
since a Lockheed Martin Athena lifted off in 1999.
Orbital ATK conducts Minotaur 4 launches under the
U.S. Air Force's Orbital/Suborbital-2 contract.
 Falcon 9 Orbits Formosat 5
Falcon 9 F9-40, a v1.2 variant with a "Block 3"
first stage, orbited Formosat 5, an Earth
observation satellite for Taiwan’s National Space
Organization (NSPO), from Vandenberg AFB on August
24, 2017. First stage number B1038 boosted the
rocket from Space Launch Complex 4 East at 18:51 UTC
to begin an 11 minute 18 second mission that
inserted the 475 kg satellite directly into a roughly 720 km
x 98.28 deg sun synchronous orbit.
The first stage fired for 2 minutes
28 seconds. Stage 2 performed a single 6 minute 38
second burn. After staging, the first stage performed a
39 second long 3-engine
reentry burn and a 33 second single-engine landing burn before
landing on the converted barge "drone ship" “Just
Read the Instructions” about 10 minutes 47 seconds
after liftoff. The second stage performed a deorbit
burn after spacecraft separation.
Formosat 5
carries a primary optical imager and a secondary
ionospheric sensor.
It was the 15th
successful Falcon 9 first stage landing. Thirteen
first stages have now been recovered, two having
flown twice. It was the 40th Falcon 9 launch, a
number that does not include the AMOS 6 launch
vehicle destroyed during a propellant loading test
on September 1, 2016.
The first and second
stages were test fired at the company's McGregor,
Texas test site during late June or early July. The
first stage was briefly hot fired at SLC 4E on
August 19, 2017 with the second stage, but no
payload, attached to the top of the rocket.
 H-2A Launches Navsat for Japan
H-2A F35 successfully launched the 4.7 tonne
Michibiki 3 navigation satellite for Japan Aerospace
Exploration Agency from Tanegashimi Yoshinobu Launch
Complex 1 on August 19, 2017. Liftoff took place at
05:30 UTC. F35 flew in the "204" configuration with
four strap on "SRB-A" monolithic solid motors and
two liquid hydrogen/oxygen core stages. After a 115
second SRB phase that augmented a 398 second first
stage burn, the rocket's second stage performed two
burns, of 271 seconds and 250 seconds duration with
a 736 second coast between, to inject Michibiki 3
into a geostationary transfer orbit.
Michibiki 3
will raise itself into geosynchronous orbit,
augmenting two previous satellites that trace
north-south "Figure 8" patterns across the Earth's
surface at Japan's longitude.
The launch,
which came after a one week delay caused by a
problem during propellant loading during the initial
launch attempt, was the fourth H-2A launch of the
year.
 Atlas Orbits TDRS-M
AV-074,
an Atlas 5 two-stage 401 model, successfully orbited
NASA's TDRS-M (Tracking and Data Relay Satellite)
from Cape Caneveral on August 18, 2017. Liftoff from
Space Launch Complex 41 took place at 12:29 UTC.
TDRS-M, a Boeing Space System 601 model that weighed
3.454 tonnes, was aimed toward a 4,640 x 35,787 km x
26.2 deg high perigee geosynchronous transfer orbit
(GTO). Spacecraft separation took place 1 hour 53
minutes 46 seconds after liftoff.
The RD-180
powered first stage burned for 4 minutes 2 seconds.
This was followed by a 13 minute 39 second long
Centaur second stage burn that boosted the vehicle
into a 183 x 25,672 km x 27 deg parking orbit. After
a 1 hour, 30 minute 6 second coast across the
equatorial Atlantic, southern Africa, and part of
the Indian Ocean, Centaur reignited for a 57 second
burn to accelerate TDRS-M into its final orbit.
TDRS-M's arrival at the launch pad was delayed
by a few weeks after one of its antennas was damaged
on July 14 during processing at Astrotech, the same
day that the Centaur stage was stacked atop the
first stage at SLC 41. The launch vehicle
ended up standing on its launch platform for more
than a month before liftoff.
The launch was the world's 50th known orbital
attempt of 2017. It was also the fourth Atlas 5 launch of
the year, the 62nd consecutive Atlas 5 success, and the
71st success in 72 flights to date.
 Proton Orbits Blagovest
(8/21/17 Update)
A Proton M Briz
M launched Russia's first Blagovest military
communications satellite from Baikonur Cosmodrome on
August 16, 2017. The liftoff from Site 81 Pad
24 took place at 22:07 UTC, with no live TV coverage
provided. The Briz M upper stage performed a
series of burns (most likely four burns) to insert the satellite into
near-geosynchronous orbit. Upon reaching orbit the
satellite was named Kosmos 2520.
Blagovest ("good news") is an
Ekspress-2000 series satellite built by ISS
Reshetnev in Zheleznogorsk, Russia, for Russia's
Ministry of Defense. It carries Ka and C-band
transponders. Europe's Thales Alenia provided
attitude control system sensors and communications
payload elements. Blagovest 11L is
the first of four planned in the series.
 Falcon
9 Launches CRS-12
Falcon 9-41, the first v1.2 variant to fly with a
"Block 4" first stage, launched Dragon CRS-12 into
orbit from Kennedy Space Center LC 39A on August 14,
2017. Liftoff took place at 16:31 UTC. Cargo-hauling
Dragon entered a low earth orbit inclined 51.6 deg to
the equator after a single 6 min 58 sec burn by the
second stage Merlin Vacuum engine. spacecraft
separation took place at T+10 min 20 sec.
This 14th Dragon flight used Dragon spacecraft C113,
the 13th and final new Dragon spacecraft capsule
planned to be manufactured by SpaceX. Future
missions will use refurbished recovered capsules.
Dragon carried 2,910 kg of cargo and packing,
including 1,258 kg in its unpressurized trunk.
Dragon's total liftoff weight including cargo was
likely about 8,400 kg.
First stage B1039 performed a 2 min 25 sec ascent burn
before separating from the second stage, turning 180
deg, and restarting three engines for a roughly 55
second boost-back
burn that pushed it back towards Florida even as it
continued to gain altitude. The stage performed a
roughly 14 second three-engine reentry burn starting
at about T+6 min 8 sec and a final single-engine landing burn that began
about 28 econds before it settled onto the circular pad
at Cape Canaveral Landing Zone 1. Landing took place
about 7 min 43 sec after liftoff.
 B1039.1
Landing
It was the 14th successful first stage landing and the
6th landing at LZ 1. Twelve first stages
have now been recovered, two having flown twice.
All of the recovered stages have been v1.2
types. CRS-12 was the 19th Falcon 9 v1.2 launch
and the 20th v1.2 to stand on a launch pad, a tally
that includes the AMOS 6 launch vehicle destroyed
during propellant loading for a pre-launch static test
firing on September 1, 2016.
The second stage performed a deorbit burn after Dragon
separated. Its post-reentry remains were aimed toward
a zone south and west of Australia.
The F9-41 stages were test fired at McGregor, Texas
during July, 2017. The first stage engines performed a
brief static test at LC 39A on August 10, 2017 before
Dragon was stacked atop the rocket.
 Vega
Orbits
Earth Observation Satellites
Europe's Vega launch vehicle orbited Optsat 3000 and
Venus, two Israeli-built earth observation
satellites, from Kourou on August 2, 2017. The
four-stage rocket lifted off on Arianespace Mission
VV10 from the Vega Launch Complex (ZLV) at 01:58 UTC
on a more than 97-minute mission that employed five
burns by the AVUM fourth stage to deploy the two
satellites into different orbits.
AVUM completed its first, 6 min 17 sec burn to reach
an initial elliptical orbit about 14 min 9 sec after
liftoff. After a coast to apogee, the stage
restarted at T+40 min 37 sec for a nearly 1.5 minute
burn to reach a 450 km x 97 deg orbit, where the 368
kg Optsat 3000 satellite separated. AVUM then
performed two more burns during the next hour to
reach a 720 km x 98 deg orbit, where 264 kg Venus
separated. AVUM performed a fifth, deorbit burn
beginning at T+1 hour 47 min 19 sec.
Vega's P80 solid motor first stage burned for 1 min
57 seconds. Its Z23 solid motor second stage ignited
one second later and burned until the 3 min 40 sec
mark. After a 23 second coast the Z9 solid motor
third stage ignited for its 2 min 39 second burn.
The payload fairing separated shortly after the
third stage ignited. After a 1 min 10 sec coast, the
liquid AVUM fourth stage began its first burn.
Optsat 3000 is a military optical survelliance
satellite for the Itialian Ministry of Defense.
Venus, a multi-spectral earth observation satellite,
is an Israeli/French collaboration.
 Soyuz
Launches ISS Crew
A 2.5 stage Soyuz FG rocket orbited Russia's Soyuz
MS-05 spacecraft from Baikonur, Kazakhstan with
three International Space Station crew on July 28,
2017. It was the year's second crewed launch.
Liftoff from Baikonur Cosmodrome Area 1 Pad 5 took
place at 15:41 UTC. The spacecraft entered a roughly
200 km x 51.6 deg initial orbit. Onboard the
upgraded spacecraft were Russia's Sergey Ryazanskiy,
NASA's Randy Bresnik and ESA's Paolo Nespoli,
comprising the Expedition 52/53 crew.
Soyuz MS-05 aimed for a 6 hour, four orbit
fast-track ascent to ISS. Ryazanskiy, Bresnik, and
Nespoli will join Russia's Fyodor Yurchikhin and
NASA's Jack Fischer and Peggy Whitson, the
longest-space time NASA astronaut, at the station.
It was the eighth R-7 flight of 2017. It was
also the 50th 2.5-stage Soyuz FG launch since the
type premiered in 2001. None have
failed. This 50th consecutive success pushes
Soyuz FG incrementally past Delta 2 to the top of
the Space Launch Report Launch
Vehicle Reliability table.
 Soyuz
2-1a/Fregat
Launch
A Soyuz 2-1a/Fregat lifted off from Baikonur
Cosmodrome on July 14, 2017 with Russia's 500+ kg
Kanopus V-IK Earth observation satellite and 72
smaller satellites bound for a variety of sun
synchronous orbits. Liftoff from Baikonur's Area 31
Pad 6 took place at 06:36 UTC. Fregat fired twice to
place Kanopus V-IK into a roughly 479 x 523 km x
97.44 deg orbit during the first hour of the
mission.
After two more Fregat burns to reach a 595 x 523 km
x 97.44 deg orbit, 24 small satellites were released
around 2.5 hours after liftoff. Two more Fregat
burns then moved the stage to a roughly 460 x 480 km
x 97 deg orbit, where 48 small satellites deployed
beginning about 7.6 hours after launch. A seventh
and final, deorbit burn took place about 8.25 hours
after liftoff.
It was the
year's 45th orbital launch attempt, worldwide.
 Falcon 9 Orbits
Intelsat 35e (Updated 07/07/17)
The year's tenth Falcon 9 boosted Intelsat 35e to
geosynchronous transfer orbit from Kennedy Space
Center's Launch Complex 39 Pad A on July 5,
2017. Liftoff took place at 23:37 UTC.
The Merlin 1D Vacuum-powered second stage performed
two burns to loft the 6.761 tonne communications
satellite into a geosynchronous transfer orbit. It
was by far the heaviest GTO payload yet for Falcon
9, a payload requiring use of the third
fully-expendable Falcon 9 v1.2 variant, with no
landing legs, grid fins, or other recoverable
hardware on the first stage.
The first stage fired for about 164 seconds. The
second stage then burned for about 346 seconds
before beginning a roughly 1,000 second parking
orbit coast to the equator. The stage completed its
second, 57 second burn at the 27 min 20 sec
mark.
Spacecraft
separation took place about 32 minutes after
liftoff. F9-39 aimed toward a GTO with a perigee of
about 250 km, an apogee of at least 31,230 km, and a
26 deg inclination. A minimum residual shutdown of
the second stage was planned, which under best-case
conditions could result in an apogee exceeding
35,500 km. Shortly after the flight, Elon Musk
of SpaceX tweeted that a 43,000 km apogee had been
achieved. Tracking data released a day later
showed Intelsat 35e in a 296 x 42,742 km x 25.85 deg
orbit.
The second
stage was an improved "Block 4" type while the first
stage appeared to be a standard "Block 3" variant.
Cryogenic propellant loading began only 35 minutes
before liftoff, a procedure implemented during the
past few launches that is designed to minimize
propellant temperatures for improved performance.
Boeing
Network & Space Systems built the BSS-702MP
satellite, which uses C and Ku-band transponders to
provide communications services to the Caribbean,
Europe to Africa, and Africa.
F9-39 used
first stage number B1037. It and its second stage
partner were test fired at McGregor, Texas during
late May or early June, 2017. The assembled rocket
performed a roughly 3 second hot fire at LC 39A on
June 29, 2017 with no payload attached. A July 2
launch attempt was halted at T-10 seconds due to a
guidance and navigation system issue, forcing a
24-hour turnaround. The second attempt was
also stopped at T-10 seconds by the ground sequencer
when it saw a parameter out of range. SpaceX waited
48 hours while determining that the flight hardware
had actually not exceeded flight limits.
 CZ-5 Failure (07/15/17
Update)
Eight months after its successful debut launch,
China's second Chang Zheng (Long March) 5 (serial
Y2) suffered a launch failure on July 2, 2017 during
an attempt to orbit Shijian 18, a heavy (roughly 7.6
tonne) experimental communications satellite, from
Wenchang Satellite Launch Center on Hainan Island
off China's southern coast. CZ-5 Y2 was aiming
for a 200 x 46,000 km x 19.5 deg target orbit on a
mission that would have seen two second stage burns.
The liftoff from Pad 101 took place at 11:23 UTC.
The 56.97 meter tall, 2.5 stage CZ-5, currently the
world's heaviest rocket, rose cleanly on the
combined 1,080 tonnes of thrust produced by 10
engines, two gas generator engines on the 5-meter
diameter LH2/LOX core and two staged-combustion
engines each on four 3.35 meter diameter
kerosene/LOX strap-on boosters. At some point,
however, something failed, likely involving first
(core) stage propulsion.
The
boosters completed their burns and separated cleanly
and, apparently, on time, but the core stage
continued to fire for more than 1.5 minutes longer
than expected. A long burn of this type is
consistent with one of the two YF-77 engines
suffering a failure at some point during the ascent,
but no official announcement of the failure mode was
made in the hours following the launch.
Despite the first stage issue, the second stage
separated and ignited its two YF-75D LH2/LOX engines
that together made 32.6 tonnes of thrust at 438
second specific impulse. The stage was to have
performed an initial nearly-five minute burn to
reach a low earth parking orbit. It is not clear if
the stage completed its burn as planned, but both
engines were visible performing their burns in
normal fashion in a an on-board view transmitted to
the ground. The stage and its payload apparently
reentered, unable to make up for the core stage
velocity shortfall.
The 31.02 x 5 meter first stage weighed 175.8 tonnes
and was powered by two YF-77 LH2/LOX engines that
together produced 104 tonnes of liftoff thrust. The
stage, which carried 158 tonnes of propellant, was
to have burned for 471 seconds, with the YF-77
engines operating at 430 seconds vacuum specific
impulse.
The four 26.28 x 3.25 meter strap-on boosters were
powered by two YF-100 RP/LOX staged combustion
engines that combined to produce 242 tonnes of
liftoff thrust for each booster. YF-100 had
previously powered China's inaugural CZ-6 and CZ-7
launches. Each booster may have weighed about 165
tonnes at liftoff. The boosters burned for nearly
173 seconds before separating from the still-burning
first stage.
The second stage weighed 26 tonnes and carried 22.9
tonnes of propellant.
CZ-5 in its fully developed form will lift as much
as 25 tonnes to low earth orbit in 1.5 stage form or
14 tonnes to GTO using 2.5 stages, making it more
capable than Proton or Ariane 5 and possibly
matching or exceeding Delta 4.
 Ariane 5 Launch
Ariane 5 ECA vehicle number L591 lofted two
communication satellites to geosynchronous transfer
orbit from Kourou on June 28, 2017. Arianespace
Mission VA238 began with a 21:15 UTC liftoff from
from ELA-3. After a single long burn by the ESC-A
second stage 5,780 kg Hellasat 3 separated at T+28
minutes 17 seconds, followed by 3,477 kg GSAT 17,
which rode up inside the rocket's Sylda 5 adapter,
at T+41 minutes 47 seconds.
Hellasat 3 is a Thales Alenia Space Spacebus 4000C4
satellite with Ku, Ka, and S-band transponders. It
will provide direct to home TV services. The S-band
transponders serve as a second payload named
"Inmarsat S EAN" that will serve the European
Aviation Network. It will be positioned at 39 deg
East in geostationary orbit.
GSAT 17 was built by ISRO/ISAC. It carries C and
S-band transponders. It will serve India from 93.5
deg East.
It was the
year's fourth Ariane 5 launch, and the 63rd Ariane 5
ECA flight since the type began flying in 2002.
 Falcon 9 Launches
IridiumNEXT
SpaceX Corporation's Falcon 9 performed its second
launch within roughly 49.5 hours on June 25, 2017
when F9-38 boosted the second set of ten IridiumNEXT
satellites from Vandenberg AFB in California. The
v1.2 variant, using new first stage number B1036,
lifted off from foggy Space Launch Complex 4 East at
20:24 UTC to begin an hour-long mission that
inserted the 860 kg, Thales Alenia Space-built
satellites into roughly 625 km x 86.4 deg orbits.
The satellites will raise themselves into 780 km
operational orbits.
After a
roughly 43 minute parking orbit coast, the Falcon 9
second stage restarted for a brief second,
circularization burn at first apogee about 52
minutes 6 seconds after liftoff to complete the
powered phase of the flight. Spacecraft separation
began at about the 57 minute 10 seconds mark, with
each satellite separating individually separated by
about 1.5 minutes.
The first
stage performed 3-engine boostback, 3-engine
reentry, and single-engine landing burns before
landing on the converted barge "drone ship" “Just
Read the Instructions”. The stage descended
using, for the first time, enlarged titanium grid
fins for flight control. It was the second
successful first stage landing in three West Coast
attempts and the 13th successful first stage
landing. Eleven first stages have now been
recovered, two having flown twice.
The launch
was the second of seven planned IridiumNext Falcon 9
flights that will replace the company's orbiting
"Little LEO" communication satellite constellation.
The F9-38
first and second stages were test fired at the
company's McGregor, Texas test site during mid-May,
2017. The first stage was briefly hot fired at SLC
4E on June 20, 2017 with the second stage, but no
payload, attached to the top of the rocket.
F9-38 was
the 37th Falcon 9 launch and the 17th v1.2 variant
to fly, not including AMOS 6 launch vehicle
destroyed during a pre-launch static test countdown.
It was the second v1.2 to fly from VAFB and the
first to fly from VAFB with what appeared to be a
"Block 4" second stage.
 Used
Falcon 9 Orbits Bulgariasat (06/24/17
Update)
SpaceX launched a previously-flown Falcon 9 first
stage for the second time on June 23, 2017. The
stage, B1029 (flying for the second time as
B1029.2), boosted the F9-37 mission that flung the
Bulgariasat 1 communications satellite to
supersynchronous transfer orbit from Kennedy Space
Center Launch Complex 39 Pad A. B1029 had previously
flown during the F9-30 Iridium Next 1-10 launch from
VAFB SLC 4E on January 14, 2017 and landed downrange
on the drone ship "Just Read the Instructions".
This time, after a 19:10 UTC liftoff and 2 min 36
sec ascent burn, B1029.2 landed again on a downrange
floating platform (named "Of Course I Still Love
You", or "OCISLY") after performing three-engine
reentry and landing burns.
After the first stage completed its ascent burn, the
Falcon 9 second stage fired its Merlin 1D Vacuum
engine for 351 sec to reach a parking orbit. After a
19 minute 30 second coast to the equator above the
west African coast, the stage restarted for 65
seconds to accelerate the 3,669 kg Bulgariasat 1
satellite toward a planned supersynchronous transfer
orbit. Bulgariasat 1 separated from the stage at
T+plus 34 minutes, 55 seconds.
From its roughly 210 x 65,640 km x 23.9 deg transfer
orbit, the Space Systems/Loral 1300 series satellite
will raise itself to geostationary orbit at 1.9 deg
East to provide direct broadcast and fixed
communication services to Europe, North Africa, and
the Middile East using 33 Ku-band transponders.
Following its January flight, the B1029 stage was
apparently shipped directly to Florida, with no
known testing performed at the company's McGregor,
Texas test site. The stage was static test fired for
a few seconds at LC 39A with the second stage
attached on June 15, 2017. A planned launch
two days later was delayed for a week to replace a
faulty valve in the payload fairing.
It was the
12th successful first stage landing and the 6th
landing on OCISLY. Ten first stages have now
been recovered, two having flown twice.
Before the launch, Elon Musk tweeted, "Falcon 9 will
experience its highest ever reentry force and heat
in today's launch. Good chance rocket booster
doesn't make it back". After the flight, he
tweeted that the first stage had returned "extra
toasty" and had landed hard on OCISLY, using almost
all of the "emergency crush core" in the landing
legs. The stage was visible in video views standing
near the edge of the deck, exhibiting a slight lean.
 Soyuz 2-1v Launch
(06/24/17 Update)
Russia's third Soyuz 2-1v launched with a classified
payload from Plesetsk on June 23, 2017. Liftoff from
Pad 4 Site 43 took place at 18:04 UTC. The two-stage
Soyuz 2-1v was topped by a Volga third stage. Volga
performed an initial burn as the vehicle headed
north above the Arctic Ocean to reach an elliptical
parking orbit. The stage fired again at some point
during the next 1.5 hours, presumably to circularize
the orbit. The satellite, identity and purpose
unannounced, was named Kosmos 2519 upon reaching
orbit.
The
satellite was subsequently tracked in a roughly 660
km by 98 deg sun synchronous orbit.
It was the first Soyuz 2-1v launch since December 5,
2015, when Volga reached its planned orbit with
Kanopus ST, but then failed to separate from the
satellite when one of four clamps on Volga failed to
open. The Volga stage was used to deorbit the
useless satellite after about two days in orbit. The
first Soyuz 2-1v/Volga launch successfully placed a
small test payload into orbit on December 28, 2013.
All missions have launched from Plesetsk 43/4.
 PSLV
Orbits Cartosat 2E/Nanosats (06/23/17
Update)
PSLV-C38, an XL version of Indian Space Research
Organizaion's Polar Satellite Launch Vehicle,
boosted 712 kg Cartosat 2E and 30 nanosatellites
that together weighed about 243 kg into sun
synchronous orbits from Sriharikota, India on June
23, 2017.
Liftoff from the First Launch Pad at Satish Dhawan
Space Center took place at 03:59 UTC. The 4.5-stage,
321 tonne, 44.4 meter tall rocket fired its four
stages (solid, liquid, solid, and liquid fueled,
respectively) in succession during the first 16
minutes of the ascent, with a 10 second coast before
fourth stage ignition. Six strap-on solid motors
(four ground lit and two air lit) augmented thrust
during the first stage burn. The liquid MMH/MON-3
fourth stage fired for about 7 minutes 39 seconds
during its insertion burn.
Satellite deployment into roughly 500 km x 97.45 deg
orbits took about eight minutes, beginning with the
cartographic mapping Cartosat 2e at T+16 minutes 41
seconds.
It was the
40th PSLV and the 17th PSLV-XL.
 CZ-3B
Leaves ChinaSat 9A in Low Orbit (Updated 07/14/17)
China's Chang Zheng (Long March )3B/E launched
Zhongxing 9A (ChinaSat 9A) from Xichang Satellite
Launch Center on June 18, 2017. Liftoff from Launch
Pad 2 took place at 16:08 UTC. After performing two
burns, the launch vehicle's liquid hydrogen fueled
third stage was slated to place the 5.1 tonne
communications satellite in a geosynchronous
transfer orbit. However, no announcement of
mission success was made as the hours passed.
Finally, more than 12 hours later, China Aerospace
Science and Technology Corporation announced that
the launch had failed to place the satellite in its
intended orbit due to a problem with the third
stage.
Subsequent
tracking data showed the second stage and payload in
roughly 193 x 16,350 km x 25.68 deg orbits, well
short of the typical 35,800-plus km apogee.
CASC reported that the satellite had deployed its
solar arrays and antennas. It seemed unlikley
that Zhongxing 9A would be able to make up the
roughly 550 m/s delta-v shortfall.
The orbit
suggested that the third stage had suffered a
problem that affected its second burn. Typical
failure modes for such results include propulsion
system and flight control issues. A mid-July
report stated that the stage had suffered a roll
control issue.
It was the
third orbital launch vehicle failure in less than a
year for China's DF-5 based launch vehicle family.
It was also the first CZ-3B or 3C failure since
August 31, 2009 after 40 consecutive successes.
China Aerospace Science and Technology Corporation
(CASC) built the DFH-4 series satellite. China
Satcom was to operate ChinaSat 9A from a 92 degrees
East position in geostationary orbit. The satellite
was equipped with 22 Ku-band transponders designed
to provide direct broadcasting and other services.
It was the
40th CZ-3B launch and the third this year.
 HXMT
Launch
China's Chang Zheng (Long March) 4B orbited the Hard
X-ray Modulation Telescope (HXMT) from Jiuquan
Satellite Launch Center on June 15, 2017. Liftoff of
CZ-4B serial number Y31 from Pad 43, Site 603 took
place at 03:00 UTC. HXMT, a 2.5 tonne 3-axis
controlled satellite, was targeted toward a roughly
550 km x 43 deg low earth orbit.
HXMT is China's first orbiting X-ray astronomy
telescope. It will map X-ray emitting objects like
black holes, pulsars, and neutron stars. The Chinese
Academy of Space Technology (CAST) assembled the
satellite, incorporating a payload module developed
by IHEP and Tsinghua University.
Two microsatellites, weighing a combined total of 87
kg (other reports suggested 130 to 150 kg) were
orbited along with XMHT.
 Russia
Launches ISS Cargo (Updated)
Russia's Soyuz 2-1a launched the Progress MS-06
International Space Station cargo hauling mission
from Baikonur Cosmodrome on June 14, 2017. Liftoff
from Site 31 Pad 6 took place at 09:20:13 UTC. The
roughly 7,300 kg spacecraft carried around 2,500 kg
of cargo by some accounts - 2,398 kg, 2,450 kg, and
2,739 kg by other accounts - into a 193 x 240.8 km x
51.67 deg initial orbit. The heaviest account,
attributed to NASA, said that cargo included 1,392
kg dry pressurized materials, 880 kg of propellant
for transfer to ISS, 420 kg of water, and 47 kg of
oxygen and air. The lighter accounts only gave
620 kg for propellant.
The flight marked a return to Soyuz 2-1a for
Progress after three final launches by Soyuz-U, one
of which (Progress MS-04 on December 1, 2016) failed
to reach orbit. It was the 69th Progress launch
meant to reach ISS and the 158th Progress launch
since the program began in 1978.
 Proton
Returns
Nearly one year after its last flight, Russia's
Proton M/Briz M finally returned to flight on June
8, 2017. The 413th Proton rocket, a "Phase 4" Proton
M variant, lifted off from Baikonur's Area 81 Pad 24
at 03:45 UTC with Echostar 21, beginning a planned 9
hr 13 min ascent phase that included five burns by
the Briz M upper stage. The 6,871 kg Space
Systems/Loral-built SSL 1300 series satellite was
aimed toward a 2,300 x 35,786 km x 30.5 deg
geosynchronous transfer orbit.
During the
previous Proton flight, on June 9, 2016, one of the
four second stage main engines shut down nine
seconds early, causing a small delta-v shortfall
that had to be made up by the Briz M upper stage.
The make-up was possible because the Intelsat 31
payload was relatively light. An investigation found
defects in RD-0210, RD-0211, and RD-0214 second and
third stage engines made at the Voronezh Mechanical
Factory due to a change in a solder used in the
production process. The company also made Soyuz U
and Soyuz FG third stage engines that fell under
investigation after a December 1, 2016
Soyuz/Progress launch failure.
Echostar
21, the heaviest GTO payload yet launched by Proton,
will be positioned at 10.25 degrees East after it
raises itself to geostationary orbit. From there it
will serve a European Internet Protocol based mobile
communications network.
 First
GSLV Mk3 Orbital Launch (06/07/2017 Update)
India's GSLV Mk 3, for the first time topped by a
live third stage, successfully boosted GSAT 19 to
geosynchronous transfer orbit from Sriharikota on
June 5, 2017. The D1 mission was the second GSLV Mk3
flight but the first orbital attempt. GSLV Mk3 had
previously performed a successful inaugural
suborbital flight with a dummy third stage on
December 18, 2014. GSLV Mk3 D1 lifted off from the
Second Launch Pad at 11:58 UTC.
Now India's most powerful rocket, GSLV Mk3 (formerly
known as LVM3) is capable of lifting 4 tonnes to GTO
or 10 tonnes to low earth orbit. GSAT 19, a
communications technology demonstration satellite,
weighed 3,136 kg on this development flight, less
than the rocket's capability but still the heaviest
satellite yet launched by India.
The
satellite was targeted toward a 170 x 35,975 km x
21.5 deg transfer orbit. GSAT 19 was
subsequently tracked in a 163 x 34,592 km x 21.5 deg
orbit, about 13 m/s short of the goal. A small
shortfall of this amount on an inaugural
direct-to-GTO mission was apparently acceptable.
The 640 tonne GSLV Mk3 consisted of two S200 solid
rocket boosters, an L110 hypergolic liquid core
stage powered by two Vikas 2 engines, and a C25
LH2/LOX upper stage powered by a single Indegenous
Cryogenic Engine.
The solid boosters together weighed 472 tonnes and
provided 1,050 tonnes of liftoff thrust. They were
3.2 meters in diameter and 26.2 meters tall. They
burned for 2 min 20 sec and provided all of the
initial thrust.
The 125
tonne, twin-engine core stage ignited at T+1 min 54
sec, about 26 seconds before the solids burned out
and separated. The core, which acted like a second
stage, provided about 163 tonnes of thrust for 3 min
23 sec. It separated at T+5 min 20 sec, by which
time the vehicle had reached 168 km altitude and
4,430 m/s velocity.
The 33 tonne Cryo Stage ignited two seconds after
Core Stage separation. Its 20 tonne thrust CE-20
engine was expected to perform a single, 10 min 43
sec burn to push GSAT 19 to its 10,260 m/sec
insertion velocity, but the stage apparently cut off
a bit more than 19 seconds early. Spacecraft
sepration took place at T+16 min 20 sec.
 Falcon
9 Launches CRS-11
Falcon 9-36, a v1.2 "Block 3" variant, boosted
CRS-11, with the first "used" Dragon cargo
spacecraft, back into orbit from Kennedy Space
Center LC 39A on June 3, 2017. Liftoff took place at
21:07 UTC. Dragon entered a low earth orbit inclined
51.6 deg to the equator after a single 6 min 38 sec
burn by the second stage Merlin Vacuum engine.
spacecraft separation took place at T+10 min 20 sec.
On this, the 13th Dragon flight, Dragon spacecraft
C106, which performed the CRS-4 mission in 2014,
became the first Dragon to fly a second time. After
its 2014 flight, the capsule was refurbished and its
heat shield replaced. Dragon carried 2,708 kg of
cargo, including 1,593 kg in its unpressurized
trunk. Dragon's total liftoff weight including cargo
was likely about 8,200 kg.
First stage B1035 performed a 2 min 22 sec ascent
burn before separating from the second stage,
turning 180 deg, and restarting three engines only
13 seconds after separation for a boost-back burn
that pushed it back towards Florida even as it
continued to gain altitude. The stage performed a
three-engine reentry burn starting at T+6 min 10 sec
and a final single-engine landing burn that began a
few seconds before it settled onto the circular pad
at Cape Canaveral Landing Zone 1. Landing took place
at T+7 min 27 sec. It was the 11th successful
first stage landing and the 5th landing at LZ 1.
Ten first stages have now been recovered, one
having flown twice.
The second
stage performed a deorbit burn after Dragon
separated. Its post-reentry remains were aimed
toward a zone south and west of Australia.
The F9-36 stages were test fired at McGregor, Texas
during March, 2017. The first stage engines
performed a brief static test at LC 39A on May 28,
2017 before Dragon was stacked atop the rocket. A
June 1 launch attempt was scrubbed by weather
conditions.
It was the 100th launch from LC 39A, a total that
includes 82 Space Shuttle, 12 Saturn 5, and 6 Falcon
9 liftoffs.
 Ariane
5 Dual Satellite Launch
The 62nd
Ariane 5 ECA boosted two communication satellites to
geosynchronous transfer orbit from Kourou on June 1,
2017. Arianespace Mission VA237 began with a 23:45
UTC liftoff from from ELA-3. On board were 6,418 kg
ViaSat 2 and 3,551 kg Eutelsat 172B, their 9,969 kg
combined mass setting a record for a commercial GTO
launch. ViaSat 2 separated about 29.5 minutes after
launch. Eutelsat 172B, housed inside the rocket's
Sylda 5 adapter, separated just under 42 minutes
after liftoff.
ViaSat 2 is a Boeing 702HP satellite with a Ka-band
payload. Positioned at 70 deg West, it will provide
about 300 Gigabits per second total communications
capacity, more than any other commercial
communications satellite.
Eutelsat 172B is the first Airbus Defense and Space
all-electric Eurostar E3000e satellite to fly on
Ariane 5. It will serve the Asia-Pacific region from
172 deg East using 14 C-band, 36 Ku-band, and 11
Ku-band transponders.
 H-2A Launches
Navsat for Japan
H-2A F34 successfully
launched the 4 tonne Michibiki 2 navigation
satellite for Japan Aerospace Exploration Agency
from Tanegashimi Yoshinobu Launch Complex 1 on June
1, 2017. Liftoff took place at 00:17
UTC. F34 flew in the "202" configuration with
two strap on "SRB-A" monolithic solid motors and two
liquid hydrogen/oxygen core stages. The
rocket's second stage performed two burns to inject
Michibiki 2 into a 250 x 36,140 km x 31.9 deg
transfer orbit.
Michibiki will raise
itself into 33,100 x 38,500 x 44 deg "quasi zenith"
geosynchronous orbit that will trace a north-south
"Figure 8" across the Earth's surface at Japan's
longitude. From this orbit, the satellite will
be able to augment existing GPS signals, allowing
better coverage in urban areas with tall buildings.
It was the third H-2A
launch of the year and the 30th known 2017 orbital
launch attempt by all rockets world-wide.
 Russia
Launches
Early Warning Satellite
Russia's Soyuz-2.1b/Fregat launched an early warning
satellite into orbit from Plesetsk Cosmodrome on May
25, 2017. Liftoff from Site 43 Pad 4 took place at
06:33 UTC. After reaching a low earth parking orbit,
the Fregat M stage fired multiple times to lift its
payload into an elliptical “Tundra” orbit of
approximately 1,620 x 38,500 km x 63.4 deg.
The satellite, named Kosmos 2518, is believed to be
an EKS type early warning satellite designed to
detect ballistic missile launches.
A Tundra orbit is an elliptical geosynchronous orbit
that traces a figure-8 pattern over the earth twice
each day. The satellite spends most of its time at
high altitude essentially hovering over high
latitudes in such orbits.
It was the year's
fifth R-7 launch.
 Electron Inaugural Falls
Short of Orbit
Rocket Lab's Electron rocket fell short of orbit in
its inaugural test launch from New Zealand on May
25, 2017. The new small launch vehicle, named "It's
a Test", lifted off from Rocket Lab's Launch
Complex 1 on the Mahia Peninsula of New
Zealand's North Island at 04:20 UTC. The 17 meter
tall, 1.2 meter diameter rocket, its innovative
carbon composite case propellant tanks filled with
kerosene and liquid oxygen, was slated to steer
toward a south, south-east azimuth, rising on about
15.65 metric tons of thrust from its nine
equally-innovative, electric-motor-pump-fed
Rutherford engines.
Electron carried test instrumentation, rather than a
revenue payload, on this test flight.
The launch was not
broadcast live and post-launch information was
limited. Peter Beck, Rocket Lab’s CEO,
reported that Electron had a good first stage burn,
stage separation, second stage ignition, and fairing
separation, but orbital velocity was not achieved.
A 300 x 500 km x 83
deg orbit was planned. The company did not give a
cause for the failure. It did release several
videos showing portions of the first stage
flight. An on-board video showed a roll
developing during ascent.
Plans called for the
first stage to burn for 2 minutes 30 seconds. Stage
separation was to take place four seconds after
first stage shutdown. The second stage's single
vacuum-optimized Rutherford engine was then slated
to fire for 4 minutes 48 seconds to reach orbital
velocity.
The launch took place
after several days of weather delays.
Although orbit was not
achieved, Mr. Beck expressed satisfaction with the
results of the heavily instrumented test flight- the
first of three such test flights currently planned.
 Soyuz 2.1a/Fregat
Orbits SES 15
A Soyuz 2.1a/Fregat - also known as Soyuz ST-A for
its Kourou application - orbited the all-electric
SES 15 communications satellite from Kourou's Guiana
Space Center on May 18, 2017. Liftoff of the
Arianespace VS17 mission from the Soyuz launch zone
(ELS) took place at 11:54 UTC, beginning a roughly
5.4 hour mission to spacecraft separation.
The Fregat upper stage performed two burns to
accelerate the 2,302 kg Boeing 702SP satellite into
a 2,207 x 31,349 km x 5.99 deg orbit. The atypical
geosynchronous transfer orbit was selected to allow
the all-electric, low thrust satellite to more
easily and quickly raise itself to geostationary
orbit by starting with a higher perigee to reduce
drag. SES 15 will take about 6-7 months to raise its
orbit.
The Soyuz rocket's
four boosters jettisoned at T+1 m 58 s. The
fairing jettisoned at T+ 3 m 39 s. The central
core "second stage" burned out and separated at T+4
m 47 s. The "third stage" completed its work
at T+ 8 m 49 s. Fregat performed its first
burn starting at T+ 9 m 49 s and ending at T+23 m 34
s. Fregat coasted to apogee where, at T+4 h 57
m 35 s it began a 52 second burn. Spacecraft
separation took place at T+5 h 18 m 28 s.
It was the 17th Soyuz
launch from Kourou and the second GTO mission.
 Falcon 9 Orbits
Inmarsat 5 F4 (May 16 Update)
The year's sixth Falcon 9 boosted Inmarsat 5 F4 to
geosynchronous transfer orbit from Kennedy Space
Center's Launch Complex 39 Pad A on May 15, 2017.
Liftoff took place at 23:21 UTC. The Merlin 1D
Vacuum-powered second stage performed two burns to
loft the 6.086 tonne communications satellite into a
supersynchronous transfer orbit. It was the
heaviest GTO payload yet for Falcon 9.
According to the SpaceX press kit, the first stage
burned for 2 min 45 sec. The second stage then fired
for 5 min 42 sec before beginning a nearly 18.5
minute parking orbit coast to the equator. The stage
completed its second, 56 second burn at the 27 min
55 sec mark. Spacecraft separation occurred 31
minutes 48 seconds after liftoff into a 381 x 69,839
km x 24.5 deg orbit.
F9-35 was the second Falcon 9 v1.2 flown in fully
expendable mode, with no landing legs, grid fins, or
other recoverable hardware on the first stage.
Expendable mode was needed to accomodate the heavy
GTO payload.
The second stage
exhibited the same external appearance as the
improved second stage used during the prior NROL 76
launch, leading outside observers to wonder if this
was the second example of a "Block 4" upper stage.
Additionally, cryogenic propellant loading
began only 35 minutes before liftoff, compared to
the previous 45 minutes, a new procedure designed to
minimize propellant temperatures for improved
performance.
Boeing Network & Space Systems built Inmarsat 5
F4, which uses Ka-band transponders to provide
broadband communications services.
The rocket used first stage number B1034. It
and its second stage partner were test fired at
McGregor, Texas during March 2017. The
assembled rocket performed a roughly 3 second static
test at LC 39A on May 11 with no payload attached.
 GSLV
Orbits GSAT 9
India's GSLV boosted its GSAT 9 communications
satellite into geosynchronous transfer orbit from
Satish Dhawan Space Center, Sriharikota on May 5,
2017. Liftoff of the GSLV F09 mission from the
Second Launch Pad took place at 11:27 UTC. GSAT 9
separated about 17 minutes later, after a roughly
12-minute burn by the rocket's liquid hydrogen
fueled third stage. For unknown reasons, ISRO banned
press coverage of the launch.
ISRO-built GSAT-9 weighed 2.23 tonnes at liftoff. It
carries 12 Ku-band transponders to provide
communications services to India, Bangladesh,
Bhutan, the Maldives, Nepal and Sri Lanka.
It was the fifth GSLV Mk 2 launch, using India's own
LH2/LOX Cryogenic Upper Stage engine, and the 11th
GSLV flight. It was also the 25th known
orbital launch attempt of 2017.
 Ariane 5 Launches
Comsats
Ariane 5 ECA L589, performing Arianespace mission
VA236, launched two communication satellites -
Brazil's SGDC and Korea's Koreasat 7 - from Kourou
Space Center on May 4, 2017. Liftoff from ELA 3 took
place at 21:50 UTC. The satellites separated into
geosynchronous transfer orbits about one-half hour
later.
VA236 was delayed by nearly six weeks after French
Guiana residents blockaded the space center as part
of a social movement. The blockades were finally
removed after the French government signed
agreements with the protesters.
SGDC was a 5,735 kg Thales Alenia Space Spacebus
4000C4 satellite. It will serve Brazil's government,
providing both civil and military communications
service, using its 57 Ka and X-band transponders at
a 75 deg West geostationary position.
Koreasat 7, the lower passenger, was a 3,680 kg
Thales Alenia Space Spacebus 4000B2 satellite. It's
Ka-band transponders will work from 116 deg. East
for KT SAT, Korea's satellite service provider.
 Falcon
9 Orbits NROL 76
SpaceX’s Falcon 9
orbited NROL 76, a secret payload for the National
Reconnaissance Office, from Kennedy Space Center
Launch Complex 39 Pad A on May 1, 2017.
Liftoff took place at 11:15 UTC, following an
aborted attempt one day earlier caused by a faulty
LOX outlet temperature sensor.
Falcon 9 headed on a
northeast azimuth. No coverage was provided of
the second stage performance as the flight entered a
press blackout. Elon Musk tweeted about 22
minutes after launch that the payload had been
successfully orbited, hinting at a low earth orbit
for NROL 76.
After completing its 2
min 17 sec ascent burn, the shortest such burn yet
for a v1.2 variant, the first stage did a 180 deg
flip and performed 40 second long 3-engine boostback
burn. It flipped again before performing a
roughly 24 second long 3-engine entry burn and a 30
second long single engine landing burn. The
stage landed at Cape Canaveral Landing Zone 1 just
under 9 minutes after liftoff. It was the
tenth successful first stage landing and the fourth
landing at LZ 1. Nine first stages have now
been recovered, one having flown twice.
The second stage was
expected to perform a deorbit burn nearly 4 hours
after liftoff. A targeted zone for the stage
to fall was listed off the southeast coast of
Africa. The delayed deorbit may be to allow
for a long coast experiment.
This 33rd Falcon 9
flight was performed by the F9-34 vehicle, which
used first stage number B1032. The
shorter than normal first stage burn, along with
design changes visible externally on the second
stage, initiated speculation that this was the first
so-called "Block 4" Falcon 9 with liftoff thrust
increased from the prior 694 tonnes, but no
confirmation has to date been provided.
The vehicle's stages
were test fired at McGregor, Texas, apparently
during February, 2017. The first stage
performed a brief static firing at LC 39A on April
25, 2017. The first and second stages without
payload were stacked for the test.
It was the fifth
Falcon 9 launch of the year and the fourth from LC
39A. The pad has now hosted a total of 98
launches, including 12 Saturn 5 and 82 Space Shuttle
liftoffs.
 China Orbits
Heaviest Payload
China's Chang Zheng (Long March) 7 launched Tianzhou
1, a robot cargo ship bound for the Tiangong 2 space
station, from Wenchang Satellite Launch Center on
Hainan Island on April 20, 2017. Liftoff from Pad
201, the easternmost of two new launch pads at the
Center, took place at 11:41:35 UTC. Including
propellant, Tianzhou 1 weighed 12.91 tonnes, making
it the heaviest payload ever launched by a rocket
from China, and the heaviest payload launched by any
nation so far this year.
Tianzhou 1 was loaded with several tonnes of
propellant. It will test automatic docking equipment
when it attempts to dock with Tiangong 2 in a 42 deg
inclination low earth orbit two days after launch.
The mission is a test of procedures for China's
planned full-scale space station, which the country
may begin to launch in 2018.
It was the second CZ-7 launch, following a June,
2016 debut. CZ-7 is one of three of China’s Academy
of Launch Vehicle Technology's (CALT) new family of
launchers, which include the smaller CZ-6 and the
larger CZ-5.
CZ-7 uses a 3.35 meter
diameter core stage powered by two 122.5 tonne
thrust YF-100 RP/LOX staged combustion engines. Four
2.25 meter diameter strap-on boosters, each powered
by one YF-100, augment the core to produce a total
of 734.1 tonnes (1.618 million pounds) of thrust at
liftoff. Four 18 tonne thrust YF-115 RP/LOX staged
combustion engines power the 3.35 meter diameter
second stage. The 2.5 stage rocket weighs about 594
tonnes at liftoff and stands about 53.1 meters tall.
It can lift 13.5 tonnes to 200 x 400 km x 42 deg
orbit or 5.5 tonnes to a 700 km sun synchronous
orbit.
On this flight, the
strap-on boosters shut down and separated about 174
seconds after liftoff. The first stage cut off
and separated about 10 seconds later. Stage 2
burned its main engines for about 389 seconds.
Its vernier engines burned for about 20 more
seconds after the main engines shut down.
Spacecraft sepration took place shortly after the
verniers shut cut off, about 10 minutes after
liftoff.
 Soyuz Launches ISS
Crew
A 2.5 stage Soyuz FG rocket orbited Russia's Soyuz
MS-04 spacecraft from Baikonur, Kazakhstan with two
International Space Station crew on April 20, 2017.
It was the year's first crewed launch. Liftoff from
Baikonur Cosmodrome Area 1 Pad 5 took place at 07:14
UTC. The spacecraft entered a roughly 200 km x 51.6
deg initial orbit. Onboard the upgraded spacecraft
were Russia's Fyodor Yurchikhin and NASA's Jack
Fischer, comprising the Expedition 51/52 crew.
After a 6 hour, four orbit fast-track ascent, Soyuz
MS-04 docked with ISS at 13:18 UTC.
Yurchikhin and Fischer will join NASA's Peggy
Whitson, ESA's Thomas Pesquet, and Russia's Oleg
Novitskiy at the station.
Russia cut the normal three crew complement down to
two on this mission to save money. Cargo replaced
the missing crew member. Fewer Progress launches
will be needed to support Russia's reduced ISS crew
complement.
It was the first R-7 flight of a re-engined rocket
with crew since a Soyuz-U RD-0110 upper stage engine
suffered a turbopump failure on December 1, 2016
while attempting to orbit Progress MS-04.
Investigators found manufacturing defects and
unqualified alloys in other engines from the same
production batch. The investigation led to the
replacement of engines from a bad production lot.
 Atlas 5 Launches
Cygnus OA-7
United Launch Alliance's Atlas 5 launched
Orbital-ATK's Cygnus cargo hauling spacecraft toward
the International Space Station on April 18, 2017.
The OA-7 Commercial Resupply Services flight was the
third Atlas-launched Cygnus as part of orbital ATK's
plan to catch up in the wake of the company's 2014
Antares rocket failure. OA-7 used an enhanced Cygnus
with a longer pressurized module packed with 3,376
kg of cargo. An additional 83 kg of unpressurized
cargo, consisting of several cubesats, was also
carried. Including cargo, Cygnus weighed a reported
7,225 kg.
The 59.13 meter tall AV-070 Atlas 5-401 used an
extra extended payload fairing. Liftoff from Cape
Canaveral SLC 41 took place at 15:11:26 UTC. The
rocket flew a northeastward track off the Eastern
U.S. Seaboard. Centaur performed a single, 13 min 45
sec burn to insert itself and Cygnus into a roughly
230 km x 51.6 deg orbit. Payload separation occurred
about 21 minutes after liftoff. Centaur performed a
subsequent deorbit burn.
Cygnus OA-7 was dubbed "S.S. John Glenn" in memory
of the late astronaut.
The launch was originally planned for March 27, but
was delayed five days before launch by ground and
flight vehicle hydraulic system problems. A
hydraulic return line was found to have ruptured on
the Atlas first stage while technicians were
troubleshooting the ground system issue.
It was the 71st Atlas 5 launch, the 70th success,
and the 61st consecutive success.
 China
Orbits Experimental Comsat
A Chang Zheng (Long
March) 3B/E rocket orbited Chinasat 16, an
experimental communications satellite, from Xichang
Satellite Launch Center on April 12, 2017. Liftoff
from Launch Pad 2 took place at 11:04 UTC. The
rocket's liquid hydrogen fueled upper stage
performed two burns to accelerate its payload into a
geosynchronous transfer orbit.
The 4.6 tonne China Academy of Space Technology
(CAST) DFH-3 satellite is equipped with a Ka-band
communications payload and an electric propulsion
system, both firsts for China. It will be positioned
at 110.5 degrees East.
It was the 40th
consecutive success by the CZ 3B/3C variant.
 Falcon 9 Reflies
First Stage, Orbits SES 10 (March 31,
2017 Update)
SpaceX launched a previously-flown Falcon 9 first
stage for the first time on March 30, 2017. The
stage, B1021, boosted the F9-33 mission that lofted
the SES 10 communications satellite to
geosynchronous transfer orbit from Kennedy Space
Center Launch Complex 39 Pad A. B1021 had previously
flown during the F9-23 CRS-8 mission on April 8,
2016, when it landed downrange on a converted barge.
After a 22:27 UTC liftoff, B1021 repeated the feat,
landing again on the downrange floating platform
after performing reentry and landing burns.
After the first stage completed its 2 min 38 sec
ascent burn, the Falcon 9 second stage fired its
Merlin 1D Vacuum engine for 345 sec to reach a
parking orbit. After a 17 min 55 sec coast to the
equator above the west African coast, the stage
restarted for 53 seconds to accelerate the 5,282 kg
SES 10 satellite toward a planned 218 x 35,410 km x
26.2 deg transfer orbit. SES 10 separated from
the stage 32 min 03 sec after liftoff. The
second stage ended up in a 217 x 33,395 km x 26.3
deg orbit, suggesting that a slightly lower than
planned apogee was achieved, but SpaceX announced
that it had met customer requirements.
After raising itself to geostationary orbit, Airbus
Defense and space-built SES 10 will serve Latin
America, using 55 Ku-band transponder equivalents,
from 67 deg West.
After the flight,
SpaceX CEO Elon Musk announced that the company had,
in another first, directed one of the two payload
fairing halves to a landing zone in a test of future
payload fairing recovery. The fairing had been
equipped with a cold gas thruster system.
Eventually, steerable parachutes and inflatable
shock absorbers will be used to bring the fairings
down to recoverable ocean landings.
It was the first
reflight of a complete orbital-class liquid fueled
rocket stage. Blue Origin's New Shepard rocket
had previously reflown, but on much less taxing
suborbital missions. Reusable Space Shuttle
orbiters brought back three main engines (SSMEs) and
avionics, but expended the large external propellant
tank that fed the three SSMEs. Space Shuttle
solid rocket boosters were also recovered and
reused, but they were disassembled after each flight
and the motor segments never stayed together to fly
again as a unit.
After its 2016 flight,
the B1021 stage was partially disassembled (its
engines were removed, for example) and was shipped
back to the SpaceX factory in Hawthorne,
California. After the engines were
re-installed and other refurbishment work completed,
the stage was shipped to the company's McGregor,
Texas test site. There, it was test-fired on
January 25, 2017, completing what appeared to be a
standard test cycle for a Falcon 9 first
stage. The new second stage was also test
fired in late January or early February. After
shipment to LC 39A's Horizontal Integration
Facility, the assembled F9-33 rocket performed a
five-second static test at LC 39A on March 27, 2017,
with no payload installed.
 Delta 4 Launches
WGS-9
Delta 377, a Delta 4M+5,4 with four solid rocket
motors and a five meter diameter Delta cryogenic
second stage (DCSS), lofted Wideband Global SATCOM
No. 9 into supersynchronous transfer orbit from Cape
Canaveral Florida on March 19, 2017. The 399 tonne,
66.3 meter tall liquid hydrogen fueled rocket rose
from Space Launch Complex 37B at 00:18 UTC on 829.7
tonnes (1.829 million pounds) of thrust created by
its RS-68A first stage engine and its four GEM-60
solid motors.
DCSS performed two burns of its 11.23 tonne thrust
RL10B-2 LOX/LH2 engine during the ascent. The first
placed the vehicle into a 185 x 6,100 km x 27.6 deg
parking orbit about 20 minutes after liftoff. After
a 9.5 minute coast to the equator the second,
roughly 3.5 minute burn pushed the 5.987 tonne
Boeing 702 series satellite into a 431 x 44,290 km x
27 deg transfer orbit. Spacecraft separation
occurred about 41 minutes 45 seconds after liftoff.
WGS-9 was jointly purchased by Canada, Denmark, the
Netherlands, Luxembourg and New Zealand. It will
provide up to 11 Gbps data transfer rates for the
military of these nations and for the U.S. military
using X-band and Ka-band transponders and on-board
data processors.
DCSS was expected to perform a deorbit burn at about
T+1 hour 11 min 44 sec, leading to destructive
reentry at about T+12 hours 12 min.
It was the first Delta
4 launch of 2017. It was also the 35th Delta 4
flight. Only one more WGS launch is currently listed
on the Delta 4 backlog, along with only three more
Medium variant launches, as United Launch Alliance
works toward retirement of the type.
 H-2A Launches Radarsat
An H-2A boosted
Japan's Information Gathering Satellite (IGS) Radar
5 to a sun synchronous orbit on March 17, 2017.
Liftoff from Yoshinobu Launch Complex 1 at
Tanegashima Space Center took place at 01:20 UTC.
The 202 series rocket, tail number F33, was boosted
by a pair of SRB-A solid motors.
It was the second H-2A launch of 2017.
IGS Radar 5 is a radar reconnaissance satellite
built by Mitsubishi Electric that will be operated
by the Cabinet Satellite Information Center. It will
support Japan's national defense and aid in civil
natural disaster monitoring.
 Falcon 9 Orbits
Echostar 23
A SpaceX Falcon 9 boosted Echostar 23 to
geosynchronous transfer orbit from Kennedy Space
Center's Launch Complex 39 Pad A on March 16, 2017.
Liftoff took place at 06:00 UTC. The Merlin 1D
Vacuum-powered second stage performed two burns to
accelerate the roughly 5.6 tonne communications
satellite into a 179 x 35,903 km x 22.43 deg
geosynchronous transfer orbitd.
According to the SpaceX press kit, the first stage
burned for 2 min 43 sec. The second stage then fired
for 5 min 36 sec before beginning a nearly 18 minute
parking orbit coast to the equator. The stage
completed its second, 1 minute burn at the 27 min 19
sec mark. Spacecraft separation occurred 34 minutes
after liftoff.
F9-31 was the first Falcon 9 v1.2 flown in fully
expendable mode, with no landing legs, grid fins, or
other recoverable hardware on the first stage.
Expendable mode was needed to accomodate the
heaviest-ever Falcon 9 GTO payload.
Space Systems/Loral built Echostar 23, using its
SSL-1300 bus. The satellite has 32 Ku-Band
transponders, as well as Ka- and S-Band
transmitters. It will raise itself to a
geostationary orbit at 45 degrees West.
The rocket used first stage number B1030. It and its
second stage partner were test fired at McGregor,
Texas during mid to late November, 2016. They were
stored in the LC 39A hangar when the CRS-10 Dragon
launch moved ahead of Echostar 23 in launch order.
The assembled rocket performed a roughly 3 second
static test at LC 39A on March 9 with no payload
attached, after a scrubbed attempt two days earlier.
A March 14 launch attempt was scrubbed by high winds
about 38 minutes before T-0.
 Vega Orbits
Sentinel 2B
Europe's Vega launch vehicle orbited the Sentinel 2B
earth observation satellite for Arianespace and ESA
from Kourou on March 7, 2017. The four-stage rocket
lifted off from the Vega Launch Complex (ZLV) at
01:49 UTC, beginning a nearly 58 minute mission that
deployed the 1,130 kg Airbus-built satellite into a
786 km x 98.57 deg sun synchronous orbit.
Sentinel 2B is the fourth Copernicus program
satellite. It will be positioned in an orbit
opposite to Sentinel 2A, which was launch by a Vega
in June 2016.
Vega's P80 solid motor first stage burned for 1 min
55 seconds. Its Z23 solid motor second stage ignited
one second later and burned until the 3 min 39 sec
mark. After a 12 second coast the Z9 solid motor
third stage ignited for its 2 min 41 second burn.
The payload fairing separated shortly after the
third stage ignited.
After a 1 min 51 sec coast, the liquid AVUM fourth
stage began a 7 min 4 second burn to enter an
elliptical parking orbit. The stage and payload then
coasted over the Arctic before performing a second,
two-minute burn beginning 55 min 7 sec after
liftoff. This burn circularized the orbit. Sentinel
2B separated about 50 seconds after the burn ended.
AVUM was scheduled to perform an orbit reduction
burn about an hour later.
 China Launches
Another New Rocket
China debuted the KT-2 (Kaitou 2) orbital launch
vehicle on March 2, 2017. The solid-fuel, likely
three-stage launch vehicle lifted off from the CZ-11
flat pad at Jiuquan space center at 23:53 UTC. KT-2
injected a small test satellite named TK-1
(Tiankong) into a 381 x 403 km x 96.9 deg sun
synchronous orbit.
Xinhua reported that the TK-1 satellite was
developed by CASIC to be used for "remote sensing,
telecommunications and experiments in
minisatellite-based technologies".
China Aerospace Science & Industry Corporation
(CASIC) also reportedly developed the launch
vehicle. KT-2 may be based on the DF-31 mobile ICBM
family, but that has yet to be determined. According
to Xinhua, KT-2 is one of five launch vehicles
planned for development by CASIC. It is capable of
lifting 350 kg to a low inclination low earth orbit
or 250 kg to a 700 km sun synchronous orbit.
CZ-11, a similar DF-31 based rocket that first flew
in 2015, was developed by the China Academy of
Launch Vehicle Technology (CALT). Two smaller, DF-21
based launchers, both by CASIC, have also flown:
Kuaizhou 1(A) beginning in 2013 and KT-1, which
failed in two attempts during 2002-2003.
 Atlas 5 Launches
Classified Payload
Atlas 5 AV-068, a 401 variant with no solid fuel
boosters and a four-meter fairing, launched the
NROL-79 mission for the National Reconnaissance
Office from Vandenberg AFB Space Launch Complex 3
East on March 1, 2017. Liftoff took place at 17:49
UTC.
United Launch Alliance
ended its webcast after the Centaur second stage
separated from the Atlas first stage and ignited its
RL10-C1 engine. The unannounced payload appeared
aimed toward an initial orbit inclined 63 degrees to
the equator. No orbital parameters, payload
information, or mission timeline were announced.
Mission success itself was not announced for several
hours, indicating that the rocket's Centaur upper
stage likely performed multiple burns.
Amateur observers suspected that the mission placed
a pair of Intruder (third generation NOSS) type
satellites into roughly 1,000 x 1,200 km x 63.4 deg
orbits for the purpose of pinpointing mobile radio
signal emitter locations on the world's oceans.
The launch had been delayed for more than a month
after a problem was found with the Atlas 5 Centaur
stage when propellants were loaded during a wet
dress rehearsal (WDR). After the unspecified
problem was fixed, the launch vehicle was subjected
to a second WDR to certify its readiness for flight.
It was the 70th Atlas
5 launch and the 60th consecutive success.
 Soyuz-U
Finale (February 23, 2017 Update)
Russia's long-lived Soyuz-U launch vehicle performed
its final flight on February 22, 2017 when it
boosted the Progress MS-05 robotic cargo hauling
spacecraft into orbit from Baikonur Cosmodrome,
Kazakhstan. Liftoff took place at 05:58 UTC from
snow-covered Area 1 Pad 5.
It marked a return to flight after the previous
Soyuz-U's RD-0110 upper stage engine suffered a
turbopump failure on December 1, 2016 while
attempting to orbit Progress MS-04. Investigators
found manufacturing defects and unqualified alloys
in other engines from the same production batch.
Progress MS-05 carried 2,395 kg of cargo, including
dry cargo, propellant, water, and oxygen. The loaded
spacecraft weighed nearly 7,300 kg at liftoff.
Soyuz-U, an improved, standardized version of
earlier R-7 based launch vehicles, first flew in
1973. It orbited recoverable Soviet Zenit and Yantar
spy satellites from Baikonur and Plesetsk and manned
Soyuz spacecraft from Baikonur, including the Soyuz
19 Apollo Soyuz Test Project spacecraft in 1975. In
1978, it launched the first of many unmanned
Progress cargo spacecraft, this one to the Salyut 6
manned space station. It was Russia's primary crew
launch vehicle until the Soyuz TM-34 launch in 2002.
Since then, Progress has been its most common
payload.
A total of 786 Soyuz-U launch vehicles have flown,
including 10 that carried Ikar or Fregat upper
stages on Globalstar and European Space Agency
Cluster missions beginning in 1999. The number does
not include the Soyuz-U/Soyuz T-10-1 pre-liftoff
fire that resulted in the escape tower firing to
save the crew, but destroying the launch vehicle, on
September 26, 1983. A total of 765 of the launches
were successful, making Soyuz-U one of the world's
most reliable orbital launch vehicles. Soyuz-U flew
47 times in 1979, including two failures, and 40 or
more times each year from 1978 to 1984. It ranks as
the most oft-flown, and longest-lived launch vehicle
variant of the Space Age.
The type was
originally replaced for manned launches by Soyuz FG,
but now both the "U" and "FG" types are being
supplanted by Soyuz 2 launch vehicles, which use
modern digital avionics.
 Falcon 9 Debuts
from KSC (February 23, 2017 Update)
SpaceX’s Falcon 9
orbited the CRS-10 Dragon spacecraft with cargo for
the International Space Station from Kennedy Space
Center Launch Complex 39 Pad A on February 19,
2017. It was the first Falcon 9 launch from
the converted NASA Saturn 5/Space Shuttle launch
site. Liftoff took place at 14:39 UTC,
following an aborted attempt one day earlier caused
by out of range readings from the second stage
thrust vector control system.
Falcon 9's second
stage boosted Dragon into a 51.6 deg low earth
orbit, with stage cutoff occurring about 9 min 5 sec
after liftoff and spacecraft separation taking place
about one minute later. While the second stage
was performing its 393 second long burn, the first
stage did a 180 deg flip and performed 3-engine
boostback burn. It flipped again before
performing a 3-engine entry burn and a single engine
landing burn that began about 7 min 33 sec after
liftoff. The stage landed at Cape Canaveral
Landing Zone 1, performing the first daylight
landing, and third overall, at the site. The
second stage was expected to perform a deorbit burn
after spacecraft separation.
 The CRS-10 Dragon (Dragon
spacecraft No. 12) carried about 2,490 kg tonnes of
cargo, including 1,530 kg inside the pressurized
capsule and 960 kg attached to the unpressurized
trunk section. SpaceX does not announce total
spacecraft mass, but based on early publications by
the company and on more recent expert estimates,
CRS-10 Dragon likely weighed more than 8,400 kg at
liftoff, including cargo.
Spacecraft berthing at
ISS was scheduled to occur on February 22, but a 24
hour delay resulted from a problem with Dragon's
GPS-based guidance system. The berthing took
place successfully on February 23.
The flight was
performed by the F9-32 vehicle, a v1.2 (or "Block
3") variant, which used first stage number
B1031. The vehicle's stages were test
fired at McGregor, Texas, apparently during
December, 2016. The first stage performed a
brief static firing at LC 39A on February 12, 2017
after a scrubbed attempt the day before. The
first and second stages without payload were stacked
for the test.
With the flight,
Falcon 9 became the first launch vehicle family to
perform a second orbital flight in
2017.
For Falcon 9 and Falcon Heavy, SpaceX added a large
horizontal processing hangar just south of the SLC
39A fence line and replaced the crawlerway ramp with
dual rail tracks for a transporter erector launcher
(TEL) to roll upon while carrying rockets up to the
pad. The flame trench was rebuilt and
reconfigured, with exhaust now exiting only toward
the north, and large "rainbirds" were added to spray
water on the launcher during liftoff.
Additional changes to the pad are planned to support
Commercial Crew launches, including installation of
a crew access arm on the fixed service tower.
Falcon Heavy is not
expected to debut from LC 39A until after Cape
Canaveral SLC 40 is restored to service sometime
after mid-2017. Meanwhile, SpaceX hopes to
perform a first unmanned flight of its Dragon 2
Commercial Crew spacecraft from LC 39A by year's
end. An improved "Block 5" Falcon 9 being
developed to launch Dragon 2 will perform the
launch.
It was the 95th launch
from LC 39A, a number that includes 12 Saturn 5 and
82 Space Shuttle liftoffs, the most recent by
Shuttle Atlantis on July 8, 2011 for STS-135
mission.
 PSLV
Orbits Cartosat 2D/Nanosats
PSLV-C37, an XL
version of Indian Space Research Organizaion's Polar
Satellite Launch Vehicle, boosted 714 kg Cartosat 2D
and 103 nanosatellites that together weighed 664 kg
into a 505 km x 97.46 deg sun synchronous orbit from
Sriharikota, India on February 15, 2017. The
mission set a record for numbers of satelites on a
single launch.
Liftoff from the First Launch Pad at Satish Dhawan
Space Center took place at 03:58 UTC. The 4.5-stage,
321 tonne, 44.4 meter tall rocket fired its four
stages (solid, liquid, solid, and liquid fueled,
respectively) in succession during the first 1,008
seconds of the ascent, with a 10 second coast before
fourth stage ignition. Six strap-on solid motors
(four ground lit and two air lit) augmented thrust
during the first stage burn. The liquid MMH/MON-3
fourth stage fired for about 505 seconds during its
insertion burn.
Satellite deployment
took about 11 minutes, beginning with the
cartographic mapping Cartosat 2D at T+17.5 minutes
with the last separation at about the 28 minute 43
second mark..
 Ariane 5 Launches
Two Comsats
A 2.5 stage Ariane 5 ECA orbited two communication
satellites from Kourou on February 14, 2017.
Liftoff from ELA 3 took place at 21:39 UTC. The
Arianespace VA235 mission placed 6,000 kg Sky Brasil
1 and 3,550 kg Telkom 3S into geosynchronous
transfer orbits. The second stage completed its
single burn at T+25 minutes to reach the insertion
orbit. Airbus-built Sky Brasil 1 (an E3000
bus) deployed first from atop the Sylda 5 dual
payload carrier at T+27 minutes. Thales Alenia-built
Telkom 3S (a Spacebus 4000B2) separated 12 minutes
later.
Both satellites will raise themselves into
geostationary orbits where they will proide HDTV and
other services. Sky Brasil will be positioned
at 43.1 deg West. Telkom 3S will work from 118
deg East.
VA235 was the 60th
Ariane 5 ECA launch, and 59th success.
 Soyuz Orbits
Hispasat 36W-1
A Soyuz 2-1b/Fregat (also designated Soyuz ST-B)
rocket launched the Hispasat 36W-1 communications
satellite into geosynchronous transfer orbit from
Kourou, French Guiana on January 28, 2017. Liftoff
from the ELS pad took place at 01:03 UTC. The VS16
mission for Arianespace was the first GTO launch by
Soyuz from Kourou.
Germany's OHB System AG built the 3,220 kg
"SmallGEO" platform satellite. Hispasat 36W-1 will
be stationed at 36 deg West to provide communication
services to Spain, Portugal, the Canary Islands and
South America.
After a 9 minute 23 second ascent by the 2.5 stage
R-7 launch vehicle, the mission finished with a
single burn by the Fregat MT upper stage, which
began 10 min 23 seconds, and ended 28 minutes, after
liftoff. The burn boosted the satellite toward a
targeted 250 x 35,736 km x 5.44 deg orbit.
Spacecraft separation
took place 32 minutes 10 seconds after liftoff.
 Japan Launches
Milcomsat
H-2A F-32, an H-2A-204 with four SRB-A solid rocket
motors, orbited Japan's first dedicated military
communications satellite from Tanegashima Space
Center on January 24, 2017. Liftoff from Pad 1 took
place at 07:44 UTC. The LE-5B powered second stage
performed two burns to place the DSN 2 satellite
into geosynchronous transfer orbit within about
one-half hour of liftoff.
DSN Corporation, a
subsidiary of SKY Perfect JSAT Corporation, built
and will operate DSN 2 as part of an X-band
satellite communications system for the Japanese
Ministry of Defense. The mass of the payload
was not released, but H-2A-204 can lift up to
5.7 tonnes to geosynchronous transfer orbit.
It was the 31st H-2A success in 32 launches since
the program began in 2001.
 Atlas 5 Orbits
SBIRS GEO 3
AV-066, a basic Atlas 5-401 variant, launched the
third Space Base Infrared System Geosynchronous
Earth Orbit satellite (SBIRS GEO 3) into orbit from
Cape Canaveral, Florida on January 21, 2017. Liftoff
from Space Launch Complex 41 took place at 00:42
UTC..
Centaur fired twice to insert the 4.54 tonne,
Lockheed-Martin-built early warning satellite into
geosynchronous transfer orbit.
The launch campaign included a record short, 13-day
period from first stage stacking to rollout. An
initial launch attempt 24 hours earlier was scrubbed
by a sensor issue and by an aircraft intruding on a
downrange safety zone.
 Sounding
Rocket
Orbit Try Fails
Japan's SS-520-4, a small experimental three-stage
orbital launcher based on an existing two-stage
sounding rocket, failed during its inaugural attempt
from Uchinoura Space Center at Kagoshima on January
14, 2017. The solid-fueled rocket zipped skyward
from its rail launcher at the KS sounding rocket pad
at 23:33 UTC, aiming to place Tricom 1, a 3kg
Cubesat, into a 180 x 1,500 km x 31 deg orbit after
a rapid ascent lasting just over four minutes.
The first stage burn appeared to be good, ending
after about 31 seconds, but the second stage never
ignited as planned after a 140 second coast. Reports
indicated that telemetry was lost even before first
stage cutoff. Second stage ignition needed to be
enabled from the ground, which was impossible
without an established downlink. The vehicle
apparently fell into the expected first stage drop
zone, indicating that the first stage propulsion
phase had more or less succeeded.
SS-520-4 (SS-520 serial number 4) weighed about 2.6
tonnes at launch, which would have made it the
lightest-ever orbital rocket had it succeeded. The
rocket was 9.54 meters long and 0.52 meters
diameter. It's first stage HTPB solid fuel
motor produced about 18 tonnes of liftoff thrust.
The launch was to be a one-off experiment, so no
additional SS-520-4 orbital attempts are expected.
 Falcon 9 Returns to
Flight
Ending a four-month failure investigation
stand-down, SpaceX Corporation's Falcon 9 launch
vehicle returned to service on January 14, 2017,
orbiting ten IridiumNEXT satellites from Vandenberg
AFB in California. The v1.2 variant, informally
designated F9-30 by outside observers (it used first
stage number B1029), lifted off from Space Launch
Complex 4 East at 17:54 UTC to begin a hour-long
mission that inserted the 860 kg, Thales Alenia
Space-built satellites into roughly 610 x 620 km x
86.4 deg orbits. The satellites will raise
themselves into 780 km operational orbits.
After a 43 minute, 16 second coast, the Falcon 9
second stage restarted for a brief second,
circularization burn at first apogee about 52
minutes 31 seconds after liftoff to complete the
powered phase of the flight. Spacecraft separation
began at about the 59 minutes 16 seconds mark, with
each satellite separating individually separated by
about 1.5 minutes.
The first stage
performed boost-back, reentry, and landing burns
before landing on the converted barge "drone ship"
“Just Read the Instructions”. It was the first
successful first stage landing in two West Coast
attempts. Six previous first stage recoveries had
been made after Cape canaveral liftoffs.
The launch was the first of seven planned
IridiumNext Falcon 9 flights that will replace the
company's orbiting "Little LEO" communication
satellite constellation.
Falcon 9 had been grounded since F9-29 and its $200
million AMOS 6 satellite payload were destroyed
during a pre-launch propellant loading and hot fire
test exercise at Cape Canveral on September 1, 2016.
SpaceX determined that the cause was sudden
overpressurization of the second stage liquid oxygen
(LOX) tank due to the failure of a composite
overwrapped pressure vessel (COPV) containing
pressurized helium that was mounted inside the LOX
tank. Improper control of subcooled-LOX temperatures
may have been involved. Elon Musk of SpaceX
suggested that LOX froze within or beneath the
composite overwrapping, causing loss of COPV
structural integrity.
SpaceX performed cryogenic loading tests, with some
leading to failure, of small test vessels at its
McGregor, Texas test site to confirm the failure
mode. The company also changed its propellant
loading procedures, more than doubling the LOX
loading time.
The F9-30 first and second stages were test fired at
the company's McGregor, Texas test site during late
October and early November, 2016. The first stage
was hot fired at SLC 4E on January 5, 2017 after a
scrub the previous day. The IridiumNEXT payload was
not atop the vehicle during the wet dress rehearsal
and hot fire exercise.
F9-30 was the 29th Falcon 9 launch and the ninth
v1.2 variant to fly, not including the lost AMOS 6
launch vehicle. It was the first v1.2 to fly from
VAFB.
 Kuaizhou 1A Launch
China's Kuaizhou 1A (KZ-1A), an improved variant of
previously-flown Kuaizhou 1, flew for the first time
on January 9, 2016 from Jiuquan Satellite Launch
Center. The three-stage solid fuel rocket lifted off
from a mobile launcher on a flat pad at 04:11 UTC.
Three satellites, including remote-sensing JL-1 and
CubeSats XY-S1 and Caton-1, separated into sun
synchronous orbits.
Expace Technology Co., Ltd., a subsidiary of China
Aerospace Science & Industry Corp, handled the
launch as a commercial enterprise.
KZ-1A can loft 200kg into a 700 km sun synchronous
orbit, or up to 300 kg to lower inclincation low
earth orbits. It is 20 meters tall, 1.4 meters in
diameter, and weighs 30 tonnes at liftoff. The three
solid motor stages weigh 16.621 tonnes, 8.686
tonnes, and 3.183 tonnes and have 65 second, 62
second, and 55 second burn times, respectively. The
first two stages are 1.4 meters diameter. The third
stage is 1.2 meters diameter. 1.2 and 1.4 meter
diameter fairing are available. This launch appeared
to use the 1.4 meter fairing.
A small N2O4/MMH
bipropellant insertion fourth stage provided final
orbit trim during a roughly 13 minute long period
that included nearly six minutes of low-thrust
burn. Spacecraft separation began about 17.7
minutes after liftoff.
 China Kicks Off
2017
China performed the
first orbital launch of 2017 with a CZ-3B/E launch
from XiChang on January 5. The 3.5 stage rocket
carried TJSW 2 (Tongxin Jishu Shiyan Weixing, or
Communications Engineering Test Satellite) aloft
from LC 2 at 15:18 UTC. TJSW 2 entered a
geosynchronous transfer orbit about one-half hour
later after two burns by the liquid hydrogen-fueled
third stage.
Like the first TJSW launched September 12, 2015,
TJSW 2's appears to have a classified purpose.
The first TJSW was used, in part, to test Ka-band
technology for broadband communications.
It was the 38th CZ-3B
launch.
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