03/25/14, 21:17 UTC, Soyuz FG with Soyuz TMA-12M from TB 1/5 to LEO/ISS
03/31/14, 02:46 UTC, CZ-2C with Shijian 11-06 from JQ 43/603 to LEO/S
04/03/14, 14:46 UTC, Atlas 5 with DMSP F-19 from VA 3E to LEO/S
04/03/14, 20:02 UTC, Soyuz 2-1a/Fregat with Sentinel 1A from KO ELS to LEO/S
04/04/14, 11:44 UTC, PSLV-XL with IRNSS 1B from SR FLP to GTO-
04/09/14, 15:26 UTC, Soyuz U with Progress M-23M from TB 1/5 to LEO/ISS
04/09/14, 18:59 UTC, Shavit-2 with Ofek 10 from PA to LEO/r
04/10/14, 17:45 UTC, Atlas 5 with NROL-67 from CC 41 to GEO?
04/16/14, 16:20 UTC, Soyuz U with Egyptsat 2 from TB 31/6 to LEO
04/18/14, 20:25 UTC, Falcon 9 v1.1 with CRS-3 from CC 40 to LEO/ISS

Worldwide Space Launch Box Score
as of 04/18/14
All Orbital Launch Attempts(Failures)
2014: 22(0)
2013:  81(3)
2012:  78(6)
2011:  84(6)
Crewed Launch Attempts(Failures)
2014:  1(0)
2013:  5(0)
2012:  5(0)
2011:  7(0)

Several hours after the flight, Elon Musk tweeted that data from a tracking plane had showed that the final landing phase had been performed successfully, meaning that the stage had remained stable, that the landing burn had fired for its full duration, and presumably that the landing legs had deployed.  Several boats were enroute to the landing zone located about 520 km downrange from the Cape and about 400 km east-southeast of Charleston, South Carolina, though heavy seas were reported in the area.  

After Dragon separated, the second stage coasted for 35 minutes before performing a brief depletion burn as it flew over the Indian Ocean southwest of Australia.  The burn was intended to determine propellant residuals and to lower the orbit of the stage, hastening its reentry.

Dragon successfully berthed with ISS two days after launch.

On February 21, 2014, SpaceX President and Chief Executive Officer Gwynne Shotwell said that the first stage had landed softly at near zero velocity, but that recovery was unlikely due to rough seas.  She said that the stage, or that parts of the stage, had been located.  A Coast Guard navigation hazard notice briefly listed a floating stage obstruction at about 31 North, 76 West, but the notice was subsequently canceled. 

Russia Launches Spy Satellite for Egypt

One of Russia's final Soyuz-U rockets launched EgyptSat 2, an optical reconnaissance satellite, into low earth orbit from Baikonur Cosmodrome on April 16, 2014. The 2.5 stage rocket lifted off from Area 31 Pad 6 at 16:20 UTC and quickly lifted the 1.05 tonne satellite into a 435 x 700 km x 51.6 deg orbit. Orbital insertion occurred 520 seconds after liftoff.

Russia's RKK Energia developed and built the new imaging satellite for Egypt's military and other government agencies. If successful, the design could be the first of many to fly for Egypt and other countries.

The launch was unusual because a Progress payload fairing housed the satellite. It was likely the final launch of a Soyuz-U with a non-Progress payload. In the not too distant future, likely during 2015, Soyuz 2-1a, with modernized flight control systems and upgraded engines, will replace the older, but highly reliable Soyuz-U design even for Progress missions.


Atlas 5 Launches NROL-67

The 45th Atlas 5, a 541 model with a five meter diameter payload fairing and four solid rocket boosters, launched a classified satellite for the National Reconnaissance Office from Cape Canaveral, Florida on April 10, 2014. AV-045 lifted off from Space Launch Complex 41 at 17:45 UTC to begin the NROL-67 mission. A bit more than four hours later, United Launch Alliance announced that the rocket had completed its mission successfully. The timing of the announcement, and the eastward launch azimuth, was generally consistent with a launch directly to geosynchronous orbit involving three Centaur upper stage burns.

The launch had been delayed by more than two weeks due to failure of hard-to-replace equipment at a range radar tracking station.

It was only the second flight of an Atlas 5-541, and was the first time that the variant performed an NRO launch. Some analysts suspect that the NROL-67 could be a new-generation signals intelligence satellite. Others believe that it might be a new type of data relay satellite.

Shavit-2 Launches Israeli Spy Satellite (Updated 4/11/14)

Israel's Shavit-2 rocket launched a synthetic aperture radar imaging satellite named Ofek 10 into orbit from Palmachim Air Base on April 9, 2014. Liftoff took place at 19:06 UTC. Ofek 10 was expected to operate in a 600 km orbit, though some sources described a 330 x 610 km x 141 deg insertion orbit. 

The launch was jointly carried out by IAI and the Defense Ministry’s Space Administration, which is a part of the Administration for the Development of Weapons and Technological Infrastructure.

MAFAT, the research and development department of Israel’s Ministry of Defense, contracted Israel Aerospace Industries (IAI Ltd) and other Israeli companies to develop both the Ofek 10 satellite and the Shavit 2 launcher. It was the third Shavit-2 launch.



Progress Cargo Spacecraft Launches, Docks with ISS

A Soyuz U rocket launched the unmanned Progress M-23M cargo spacecraft into orbit from Baikonur Cosmodrome on April 9, 2014. The spacecraft flew a fast track, four-orbit, six hour approach to an International Space Station docking. Docking took place at 21:14 UTC.

Progress M-23M lifted off from Area 1 Pad 5 at 15:26 UTC. The spacecraft carried about 2.7 tonnes of cargo and fuel to the station. The Expedition 38 crew currently occupies the station. It consists of Japanese astronaut Koichi Wakata, flight engineers Mikhail Tyurin, Alexander Skvortsov and Oleg Artemyev of Russia, and NASA astronauts Rick Mastracchio and Steve Swanson.

It was the 55th Progress flight to ISS and the 146th launch of all types to the station since construction began in 1998.

PSLV Launches Navsat

PSLV-XL C24 orbited India’s IRNSS 1B, a navigation satellite, from Satish Dhawan Space Center at Sriharikota on April 4, 2014. The four stage rocket lifted off from the First Launch Pad at 11:44 UTC. The stages fired in succession, with a nearly four minute coast occurring between the third and fourth stage burns. The fourth stage inserted 1.432 tonne IRNSS 1B into a subsynchronous transfer orbit targeted to be 284 x 20,650 km x 19.2 deg. Mission plans call for the satellite to use its own propulsion system to perform a series of burns to reach its final 35,786 km x 0 deg geosynchronous orbit.

IRNSS-1B, the second of seven planned IRNSS missions, was developed by the Indian Space Research Organization.

C24 was the 6th PSLV-XL and the 24th success in 26th PSLV flights.


Soyuz 2-1a/Fregat Launches Europe's Sentinel 1A

Russian contractor teams launched a Soyuz 2-1a/Fregat from Kourou Space Center in French Guiana for Arianespace on April 3, 2014. The launch orbited the European Space Agency's Sentinel 1A environmental monitoring satellite. The 3.5 stage rocket lifted off from the ELS pad at 21:02 UTC to begin the Arianespace VS07 mission. The 2.257 tonne Thales Alenia Space-built satellite was boosted into a 693 km x 98.2 deg sun synchronous orbit after the Fregat stage completed a single burn about 20 minutes after liftoff..

Sentinel 1A will use a C-band synthetic aperture radar to provide imagery of both ocean and land surfaces.

Atlas 5 Orbits DMSP F-19

Atlas 5-401 number AV-044 lofted Defense Meteorological Satellite Program Flight 19 into sun synchronous orbit from Vandenberg Air Force Base on April 3, 2014. The two-stage rocket, powered by a Russian-built RD-180, lifted off from Space Launch Complex 3 East at 14:46 UTC. After the first stage completed its 244 second burn, the Centaur second stage performed a single, nearly 12 minute burn to insert DMSP F19 into an 853 km x 98.87 deg orbit.

Lockheed Martin built the 1.2 tonne weather satellite, which will serve the needs of the U.S. Department of Defense.

It was the 43rd successful Atlas 5 launch in 44 attempts, and the 34th consecutive success.

CZ-2C Launch

A CZ-2C rocket launched China's Shijian 11-06 into sun synchronous orbit from Jiuquan Satellite Launch Center on March 31, 2014. It was China's first orbital launch of the year.

The 213 tonne, two stage rocket lifted off from Launch Complex 43, Pad 603 at 02:46 UTC. The satellite, sixth in a series, entered a roughly 700 km x 98.3 deg orbit. 

Shijian 11-06 was developed by China Spacesat Co. Ltd for China Aerospace Science and Technology Corporation. It likely weighed less than 1 tonne, given CZ-2C's near-polar orbit capability. 

The purpose of the satellite is unknown by outsiders. China announced only that it will be used to conduct scientific experiments in space.

Soyuz TMA-12M Launch

A Soyuz FG orbited the Soyuz TMA-12M spacecraft with two Russians and one American from Baikonur Cosmodrome on March 25, 2014. Liftoff from Area 1 Pad 5 took place at 21:17 UTC. The launch was successful, but Soyuz TMA-12M had to abort its planned fast-track, four-orbit rendezvous with the International Space Station when a problem occurred during an orbit changing burn. Crewmates Alexander Skvortsov, Oleg Artemyev, and NASA astronaut Steven Swanson were expected to revert to a back-up plan that called for at least a two-day approach to ISS.

The crew was expected to join the current Expedition 39 team at ISS, which includes Japan's Koichi Wakata, Russia's Mikhail Tyurin, and NASA astronaut Rick Mastracchio.

The flight took place even as tensions grew between the U.S. and Russian governments after Russia's military occupation and annexation of Crimea from Ukraine.

It was the first crewed space launch of 2014.


Russia Orbits Glonass-M

A Soyuz 2-1b/Fregat rocket boosted a Russian Glonass-M navigation satellite into orbit from Plesetsk Cosmodrome on March 23, 2014. Liftoff from Area 43 Pad 4 took place at 22:54 UTC. The 2.5 stage Soyuz accelerated Fregat and its payload into low earth orbit during a nine minute ascent. Fregat subsequently performed three burns to lift the 1.415 tonne Glonass-M (Uragan-M No. 42) into a 19,128 x 19,154 km x 64.81 deg orbit, with spacecraft separation taking place at 02:26 UTC on March 24.

It was the first Glonass launch attempt since three similar satellites were lost in a spectacular July 2013 Proton launch failure at Baikonur.

Ariane 5 Launches from Kourou

Ariane 5 Launcher Number 571, an Ariane 5 ECA, boosted ASTRA 5B and Amazonas 4A into geosynchronous transfer orbit from Kourou on March 22, 2014. The 772.3 tonne rocket lifted off from ELA 3 at 22:04 UTC to begin Arianespace Mission VA-216. 5.724 tonne ASTRA 5B and 2.938 tonne Amazonas 4A were inserted into 250 x 35,786 km x 3 deg orbits about 25 minutes after liftoff. Amazonas 4A rode in the lower position inside a SYLDA 5A adapter.

Ariane 5's EPC core stage burned for about 8.75 minutes to push the upper stage into a -1027 x 179 km x 6.95 deg suborbital trajectory. The ESC-A upper stage then performed a single, roughly 16 minute long burn to complete the ascent.

ASTRA 5B was manufactured by Airbus Defence and Space (former Astrium). AMAZONAS 4A was built by Orbital Sciences Corporation.

It was the 43rd consecutive Ariane 5 ECA success, moving the rocket marginally back ahead of Atlas 5 in the Space Launch Report reliability list.

Proton Orbits Comsat Pair

Russia's 395th Proton rocket successfully placed two broadcast TV satellites into geosynchronous orbit after a March 15, 2014 launch from Baikonur Cosmodrome. The Proton M/Briz M lifted off from Area 81 Pad 24 at 23:08 UTC to begin its more than nine-hour mission. During the flight, Briz M fired four times to lift Express AT1 and Express AT2 into their deployment orbits.

The satellites were stacked directly on top of each other within the Proton payload fairing. Express AT2, which weighed 1.326 tonnes, was positioned below 1.672 tonne Express AT1. Russia's ISS Reshetnev built the Express 1000-series satellites, which were equipped with Thales Alenia Space communications payloads.

With the flight, Proton became the first orbital launch vehicle to fly a second time during 2014.  It was the 10th orbital flight of the year, worldwide.

H-2A Orbits NASA/JAXA Precipitation Observatory

Japan's 23rd H-2A launch vehicle, an H-2A-202 with two SRB-A strap on motors, orbited the joint JAXA/NASA Global Precipitation Measurement (GPM) Core Observatory satellite from Yoshinobu Launch Complex 1 at the Tanegashima Space Center on February 27, 2014. H-2A F23 lifted off at 18:37 UTC. Its second stage performed a single burn to insert the 3,850 kg GPM Core Observatory into a 407 km x 65 deg orbit about 16 minutes later.

The observatory, built by Goddard Space Center in Maryland, will provide near real-time observations of rain and snow precipitation. It is equipped with a microwave imager built by Ball Aerospace & Technologies and a precipitation detecting radar built by NEC Toshiba Space Systems.

F-23 was the 17th consecutive H-2A success.  The only H-2A failure in occurred in November 2003.

Delta 4 Launches GPS 2F-5

Delta 365, a Delta 4M+4,2 with two solid boosters and a four meter payload fairing, launched GPS 2F-5 into orbit from Cape Canaveral, Florida on February 21, 2014.    Liftoff took place from SLC 37B at 01:59 UTC.

Delta 4's Delta Cryogenic Second Stage (DCSS) performed three burns during a 3.5 hour mission to lift the 1.63 tonne navigation satellite into a 20,459 km x 55 deg circular orbit.  DCSS fired first during the initial ascent to reach a low earth parking orbit.  It performed a second burn after a 9-minute coast to enter an elliptical transfer orbit with a roughly 20,459 km apogee.  Following a three hour coast, DCSS fired a third time to reach the GPS 2F-5 insertion orbit. 

It was the 25th Delta 4 launch.  The flight came after a six-month launch gap party due to an additional investigation into a propellant leak on a second stage RL10B-2 engine during a 2012 Delta 4 mission that barely managed to place GPS 2F-3 into its orbit.  GPS 2F-5 was the first Delta 4 GPS launch since that 2012 mission.

Proton Orbits Satellite for Turkey

2014's first Proton M/Briz M successfully boosted Turksat 4A into geosynchronous transfer orbit from Baikonur Cosmodrome, Kazakhstan on February 14.   Liftoff from Area 81 Pad 24 occurred at 21:09 UTC to start a 9 hour 13 minute mission.

Turksat 4A, a Mitsubishi Electric Corporation DS2000 series satellite that weighed 4.85 tonnes, was inserted into orbit using a five burn Briz M profile. 

After the three Proton stages completed their ascent burns to achieve a velocity just short of orbital speed, Briz M fired to reach a circular parking orbit.  The upper stage fired one orbit later to reach an intermediate orbit.   One orbit after that it fired twice, dropping its toroidial external tank between burns, to reach a transfer orbit.  Finally it fired at apogee to raise its perigee and reduce its inclination to complete the mission.  The target orbit was 9,673 x 35,786 km x 12.7 deg.

Turksat 4A will provide communications services for government-owned Turksat.

The mission was performed by Proton serial number 93543, which was the 394th Proton launched. 

Ariane 5 Orbits Satellite Pair

Ariane 5 ECA Launcher 572 boosted two communications satellites into geosychronous transfer orbit from Kourou space center on February 6, 2014. The 773.4 tonne rocket lifted off from ELA 3 at 21:30 UTC to begin the Arianespace VA-217 mission. Launcher 572 rose on 1,326 tonnes of thrust produced by its two EAP solid motors and its single Vulcain 2 liquid core engine. Within 32 minutes, 6.33 tonne ABS-2 and 3.08 tonne Athena-Fidus separated into 244 x 35,786 km x 6 deg orbits.

ABS-2 (Asia Broadcast Satellite), which rode atop the Sylda 5B dual payload system, was an FS-1300 series satellite built by Canadian-owned Space Systems/Loral for East Asia commercial service.

Athena-Fidus, a Spacebus 4000B2 model built by Thales Alenia Space for French and Italian military use, rode within the Slyda 5B adapter.

It was the first Ariane 5 launch in more than five months.

Progress ISS Cargo Launch

A 2.5 stage Soyuz-U launched Progress M-22M, an unmanned cargo spacecraft headed for the International Space Station (ISS), into low earth orbit from Baikonur Cosmodrome Area 1 Pad 5 on February 5, 2014.  Liftoff took place at 16:23 UTC from a cold winter landscape. 

Progress M-22M will use the fast-rendezvous technique to reach ISS in about four orbits, or six hours.  The spacecraft carries about 2 tonnes of supplies for ISS.

With the New Year's holiday period concluded, the liftoff begin's Russia's launch year.

Atlas Orbits TDRS-L

The year's first Atlas 5, a two-stage 401 model, successfully orbited NASA's TDRS-L (Tracking and Data Relay Satellite) from Cape Caneveral on January 24, 2014.  Liftoff from Space Launch Complex 41 took place at 02:33 UTC.  TDRS-L, a Boeing Space System 601 model that weighed 3.454 tonnes, was aimed toward a 4,839 x 35,788 km x 25.5 deg high perigee geosynchronous transfer orbit (GTO).  Spacecraft separation took place 1 hour 45 minutes 57 seconds after liftoff.

The RD-180 powered first stage burned for 4 minutes 2 seconds.  This was followed by a 13 minute 55 second long Centaur second stage burn that boosted the vehicle into a 185 x 24,919 km x 26.5 deg parking orbit.  After a 1 hour, 21 minute 55 second coast, Centaur reignited for a 63 second burn to accelerate TDRS-L into its final orbit.

The success, the 42nd in 43 Atlas 5 attempts, moves Atlas 5 past Ariane 5 for the first time on the Space Launch Report reliability list.  The incremental difference, which essentially represents a statistical tie, will likely shift back and forth between the two launch vehicles during the coming months.
  

Antares Launches Cygnus Cargo Mission

Orbital Sciences launched its third Antares rocket from Wallops Island, Virgina on Janaury 9, 2014 with the company's first operational Cygnus cargo mission to the International Space Station. The Orb-1 Commercial Resupply Services mission, the first of eight currently planned for NASA, began from Launch Complex 0A - part of the Mid-Atlantic Regional Spaceport - with an 18:07 UTC liftoff.

It was the first flight of an Antares 120 variant outfitted with an upgraded ATK Castor 30B second stage solid motor. Castor 30B was the same size and produced about the same thrust as the Castor 30A motor used during the first two launches, but it used a longer, larger nozzle that improved specific impulse to about 300 seconds. One more Antares 120 will fly this year, to be followed by the first Antares 130 with a more powerful, longer, and heavier Castor 30XL second stage motor.

The Yuzhnoye/Yuzhmash first stage burned its Kuznetsov/Aerojet AJ-26 engines for 3 minutes 54 seconds to lift the rocket to an altitude of about 100 km. After shutdown, the stage separated and the upper portion of the vehicle coasted upward to about 179 km altitude until the Castor 30B ignited about 1 minute 52 seconds after first stage shutdown. The payload fairing and interstage adapter separated shortly before the 128 second long second stage burn began.

Second stage burnout occurred about 7 minutes 54 seconds after liftoff. Cygnus, named "C. Gordon Fullerton" in honer of the NASA astronaut and test pilot who died in August, 2013, separated two minutes later in a 219 x 280 km x 51.654 deg orbit. Cygnus carried 1.261 tonnes of ISS cargo, including equipment, crew supplies, and 33 CubeSat microsatellites that will be released from ISS later this year. The spacecraft weighed about 4.69 tonnes including cargo.

Orb-1 Cygnus Approaches ISS Berthing on January 12, 2013

After a three day long series of orbit raising manuvers, Cygnus successfully berthed with ISS on January 12, 2013 at 13:05 UTC.

Orbital Sciences officials had delayed the launch one day to study high solar radiation levels after a January 7 solar flare. A winter storm producing very cold temperatures had delayed the launch by one day earlier in the week. The entire mission had been delayed by three weeks when a coolant leak developed on the space station that required a pair of space walks by the ISS crew to repair.

Falcon 9 Launches Thaicom 6

SpaceX Corporation's eighth Falon 9 rocket, and its third upgraded Falcon 9 v1.1 variant, launch Thailand's Thaicom 6 commuication satellite into orbit from Cape Canaveral, Florida on January 6, 2014.  Liftoff from Space Launch Complex 40 took place at 22:06 UTC.  The Merlin 1D Vacuum powered second stage performed two burns to accelerate the 3.016 tonne Orbital Sciences GEOStar 2 satellite toward a targeted 295 x 90,000 km x 22.5 deg supersynchronous transfer orbit.  

After maneuvering itself to geosynchronous orbit, Thaicom 6, equipped with Ku and C-band transponders, will be co-located with Thaicom 5 at 78.5 degrees East. 

After a 174 second long first stage burn, the second stage burned for about 350 seconds to place itself and its payload into a 173 x 497 x 27.3 deg parking orbit.  Payload fairing separation occurred during the early part of the second stage burn.  After an 18 minute coast, the second stage reignited for just over one minute to loft the payload toward its insertion orbit.  Spacecraft separation occurred about 31 minutes 13 seconds after liftoff.

SpaceX performed its quickest launch pad turnaround for Thaicom 6, which lifted off just more than one month after Falcon 9 No. 7 orbited SES 8.  During the campaign, the Thaicom 6 booster performed a hot fire test at SLC 40 on December 28, 2013.  

GSLV with India's Cryogenic Stage Succeeds

India’s Geosynchronous Satellite Launch Vehicle (GSLV) successfully boosted the GSAT 14 communications satellite into geosynchronous transfer orbit on January 5, 2013.  It was the first success for the launch vehicle since 2004, and the first success for India's indigenously-developed, liquid hydrogen fueled Cryogenic Upper Stage (CUS). 

The 415 tonne, 49 meter tall three-stage GSLV Mk 2 rocket, fitted with a 3.4 meter diameter payload fairing, lifted off at 10:48 UTC from the Second Launch Pad at the Satish Dhawan Space Center at Sriharikota to begin the GSLV-D5 development mission.  It rose on 690.7 tonnes (1.52 million lbf) of liftoff thrust produced by a solid core motor augmented by four L40 liquid non-separating strap-on motors, each powered by a Vikas 2 engine that burned UDMH/N2O4 until cutoff 149 seconds after liftoff, about 60 seconds after the core burned out.  The liquid second stage, powered by a single Vikas 4 UDMH/N2O4 engine, performed a 140.5 second burn to lift the vehicle to a 132 km altitude and a velocity of more than 4,900 m/sec. 

The CUS LOX/LH2 third stage then fired its 7.5 tonne thrust CE-7.5 engine one time for more than 12 minutes to finish the mission.  The 1.982 tonne satellite payload was accelerated toward a targeted 180 x 35,975 km x 19.3 deg orbit.  ISRO's CE-7.5 is a staged combustion engine designed to operate at 454 seconds specific impulse - more efficient than the Aerojet-Rocketdyne RL10A-4-1 engine that powers the Atlas 5 Centaur stage.  The fixed CE-7.5 engine is augmented by a pair of small steering engines.

An August, 2012 attempt to fly GLSV-D5 was thwarted by a second stage propellant leak during the early stages of the countdown.  Damage caused by the leak forced ISRO to roll back and dismantle the rocket.  Its core first stage and second stage were replaced entirely while its first stage liquid units were refurbished.

It was the third GSLV success in eight flights since 2001. 

Soyuz 2-1v Inaugural Launch Success

Russia's Soyuz 2-1v, a new small satellite launch vehicle, achieved success during its inaugural launch from Plesetsk Cosmodrome on December 28, 2013. The two stage rocket, topped by a multiple-restart capable Volga third stage for orbit trim maneuvers, carried the 50 kg Aist satellite and two lightweight SKRL-765 radar calibration spheres into a roughly 600 x 625 km x 82.42 deg orbit following a 12:30 UTC liftoff from Site 43 Pad 4. The first two stages lifted Volga and its payloads into an initial roughly 260 x 600 km x 82.43 deg transfer orbit. Volga fired at apogee to circularize the orbit. Spacecraft separation occurred at about 14:10 UTC.

Soyuz 2-1v stands 44 meters tall and weighs about 157 tonnes at liftoff. It uses the existing Soyuz 2-1b third stage as a second stage. The first stage is newly developed except for the top portion of the upper LOX tank, which is borrowed from the Soyuz 2-1b core stage. A single chamber NK-33A staged combustion LOX/kerosene engine, augmented by a four-chamber RD-0110R steering engine, powers the first stage. At liftoff, the engines combine to produce more than 179 tonnes of sea level thrust. About 88% of the total thrust is produced by the NK-33A, an engine originally created as part of the Soviet Union's N1 lunar rocket program during the 1970s.


The first stage kerosene tank and the lower part of the LOX tank are 2.66 meters in diameter, fatter than the old Soyuz core's 2.15 meters diameter. The common upper tank section still flares out to 2.95 meters in diameter, allowing both Soyuz launcher types to share launch pad equipment.

The first stage burns for about 250 seconds.  The Blok I second stage, which is also powered by a staged combustion LOX/kerosene engine, burns for about 270 seconds.

Soyuz 2-1v can lift 2.85 tonnes to a 200 km x 51.6 deg orbit from Baikonur, or 1.4 tonnes to an 835 km sun synchronous orbit from Plesetsk.

Soyuz 2-1v plans call for the NK-33A engine to be replaced by a more powerful Energomash RD-193 engine derived from the RD-191 Angara engine, which in turn was derived from the RD-170/180 family that power Zenit and Atlas 5 rockets.  The decision to use RD-193 rather than restarting long-shelved NK-33A production will also likely affect the Orbital Sciences Antares rocket, which is currently using up a dwindling stock of refurbished NK-33 engines.

Proton Launches Ekspress AM5

A Proton M/Briz M launched Russia's Ekspress-AM5 communications satellite into near-geosynchronous orbit  from snow-covered Baikonur, Kazakhstan on December 26, 2013.  The four-stage rocket lifted off from Area 81 Pad 24 at 10:49:56 UTC and quickly disappeared into the frozen haze hovering above the steppe.  The Briz M upper stage performed a more than nine hour long, four-burn mission to lift the 3.2 tonne satellite into its final orbit.  Spacecraft separation occurred at about 20:10 UTC.   

It was the year's 80th announced orbital launch attempt and 77th success.  Iran may have performed an unannounced, failed attempt during the early months of the year.  It was also Proton's tenth launch of 2013, one of which failed on July 2.

Rokot Orbits Russian Milcomsats

A Rokot/Briz KM successfully orbited three Rodnik (Strela 3M) "store/dump" communication satellites for the Russian military on December 25, 2013. The three-stage rocket lifted off from Plestesk Site 133 Pad 3 at 00:31 UTC under the direction of a Russian missile launch crew. After the initial ascent sent Briz KM and its payload into a 100 x 1,500 km x 82.5 deg transfer orbit, Briz KM performed a cirularization burn at around 01:45 UTC.

Satellite separation occurred around 02:16 UTC. The satellites, subsequently tracked in roughly 1,480 x 1,510 km x 82.48 deg orbits, were named Kosmos 2488, 2489 and 2490. Each satellite weighed about 225 kg.

It was the fourth Rokot/Briz KM, and the fifth UR-100N based, orbital launch of 2013, more than in any previous year.



China Orbits Bolivian Comsat

The 26th Chang Zheng 3B rocket orbited Tupac Katari, a Chinese built communications satellite for Bolivia, from XiChang on December 20, 2013. The 3.5 stage CZ-3B/E lifted off from Launch Complex 2 at 17:02 UTC. The liquid hydrogen fueled third stage performed two burns during a roughly half-hour mission to lift the satellite into geosynchronous transfer orbit.

Tupac Katari, also known as TKSat 1, weighed 5.1 tonnes at liftoff. It was manufactured by China Academy of Space Technology (CAST) using a DFH-4 platform. The satellite carries 26 Ku-band, 2 C-band, and 2 Ka-bank transponders. It will be positioned at 87.2 degrees west.

It was the 14th Chang Zheng launch of 2013 and the 15th orbital attempt by China during the year.

Soyuz Orbits European Observatory

A Soyuz 2-1b/Fregat launched Europe's Gaia observatory toward deep space from Kourou, French Guiana on December 19, 2013.  Liftoff of the Arianespace VS06 mission from the Soyuz Launch Complex at Kourou took place at 09:12 UTC.  The Fregat upper stage fired twice during the mission to boost Gaia toward a highly elliptical Earth orbit on a trajectory aimed toward the L2 Lagrange point.  The target orbit was 6,722 km x 952,022 km x 14.98 deg.  Spacecraft separation occurred at 09:54 UTC.  Gaia's own propulsion system will provide course correction maneuvers during the transit toward L2.

The 2.034 tonne satellite is fitted with a super-high resolution camera that will be used to survey the stars of the Milky Way galaxy in fine detail.  The survey will catalog the three-dimensional positions and motions of stars.     

After completing its mission, Fregat performed a depletion burn that propelled it deeper into space.

Chang'e 3 Lands on Moon

A Chang Zheng 4B rocket launched Brazil's CBERS-3 satellite from Taiyuan Satellite Launch Center on December 9, 2013.  The three-stage rocket lifted off at 03:26 UTC from the center's Launch Complex 9.  CBERS-3 was aimed toward a 778 km sun synchronous earth orbit, but something went wrong during the ascent and no orbit was achieved.

CBERS, which stands for "China-Brazil Earth Resources Satellite", was a 2.1 tonne earth observation satellite jointly developed by China and Brazil. 

According to Oswaldo Duarte Miranda, the deputy director of Brazil's National Institute for Space Research, the CZ-4B third stage cut off 11 seconds before it's planned T+16 minute shut down time, leaving CBERS-3 in a suborbital trajectory. 

After a five minute propulsion phase performed by its first two stages, the CZ-4B third stage coasts upward for more than four minutes to orbital altitude.  The stage then performs a single burn of its two YF-40 engines, burning UDMH/N2O4 hypergolic propellants to produce 10.3 tonnes of thrust for durations that can exceed 6 minutes.  If the 11 second early cutoff report is correct, the stage performed all but the final roughly 3% of its burn, but that is enough to fall well short of orbital velocity.

It was the 13th CZ launch of the year, and China's 14th orbital attempt of 2013.

Atlas Launches Secret Satellite

An Atlas 5-501 launched NROL-39, a classified satellite for the National Reconnaissance Office, into orbit from Vandenberg Air Force Base in California on December 6, 2013. The two-stage, 337 tonne rocket lifted off from Space Launch Complex 3 East at 07:14 UTC, then rose into the night sky and, as its 5 meter diameter European built payload fairing separated, entered a news blackout. A little less than two hours later, United Launch Alliance announced that the launch had been a success.

According to Notice to Mariners warnings posted before the launch, the Atlas flew a southwest trajectory consistent with a retrograde orbit. Two prior launches along similar flight paths (NROL 41 in September 2010 and NROL-25 in April 2012) were believed to have placed Topaz radar imagery satellites into 1,100 km x 123 deg orbits. Such missions would likely have called for the Atlas 5 Centaur second stage to perform two burns, with the second occurring about 45 minutes after the first.

Documents leaked by former NSA contractor Edward Snowden confirmed that Topaz radar imagery satellites are replacing a previous generation named Onyx.

It was the eighth and final Atlas 5 launch of 2013, the highest one year total during the 12 year history of the Lockheed Martin developed vehicle.  It was also the 32nd consecutive Atlas 5 success and the 42nd Atlas 5 launch since the RD-180 powered rocket began flying in 2002.

Falcon 9 Performs First Geosynchronous Transfer Mission

The second SpaceX Falcon 9 v1.1, and the seventh Falcon 9 overall, performed the Hawthorne, California company's first commercial geosynchronous transfer orbit launch from Cape Canaveral, Florida on December 3, 2013.  The launch boosted SES 8, a 3,138 kg communications satellite built by Orbital Sciences for SES of Luxembourg, toward a targeted 295 x 80,000 km x 20.75 degree supersynchronous transfer orbit. 

Liftoff from Space Launch Complex 40 occurred at 22:41 UTC.  The on-time launch took place after two prior scrubbed attempts.  A November 25 attempt was halted 3 min. 40 sec before launch by pressure fluctuations in the first stage LOX tank.  A last-second abort during engine start ended the launch attempt on Thanksgiving Day, November 28, 2013.  SpaceX replaced a gas generator on one Merlin 1D engine after that attempt.

Falcon 9's nine Merlin 1D first stage engines produced about 600 tonnes of liftoff thrust to boost the 69 meter tall, more than 500 tonne rocket slowly off its pad.  The first stage burn ended about two minutes 54 seconds after liftoff, with two engines cutting off shortly before the remining seven.  The second stage Merlin 1D Vacuum engine peformed two burns, with the first lasting about five minutes 20 seconds and the second about 71 seconds.  The stage coasted in a parking orbit for about 18 minutes toward the first equator crossing over the Atlantic Ocean before the restart. 

SES separated about 31 minutes 15 seconds after liftoff.

The second stage restart was a critical event.  A restart had failed to occur during the inaugural September 29, 2013 Falcon 9 v1.1 flight in a test of the stage after payloads had successfully separated into their planned low earth orbits.  SpaceX determined that hypergolic igniter fluid had been frozen by gaseous oxygen impingement during the flight.  The company added insulation to prevent a recurrence.

SES 8 became the first satellite boosted to geosynchronous transfer orbit by a two-stage hydrocarbon fueled rocket. 

It was the third Falcon 9 launch of 2013, the most in one year to date.  The launch was also the 10th of the year by all launch vehicles from Cape Canaveral.

China Launches Lunar Lander/Rover

China launched its first attempt at a robotic lunar landing mission on December 1, 2013 from XiChang space center in southwest China's Sichuan province. If successful, it would be the first lunar landing since the Soviet Union's Luna 24 landed during August 1976.

A Chang Zheng (Long March) 3B rocket, performing the 25th flight of China's most powerful launch vehicle, lifted off at 17:30 UTC from Launch Complex 2 with the 1.2 tonne Chang'e 3 lander, which carried the 140 kg "Yutu" ("jade rabbit") six-wheeled rover. The CZ-3B liquid hydrogen fueled third stage performed two burns during a 19 minute long mission to boost Chang'e 3 into a 210 x 389,109 km x 28.5 deg. elliptical earth orbit. After a four day transit to the vicinity of the Moon, the spacecraft is expected to insert itself into lunar orbit.  It is expected to attempt a landing upon the Sinus Iridum plain just northwest of Mare Imbrium on December 14.

Chang'e 3, China's third lunar mission, following two lunar orbiters, is planned to be the first of a series of landings.

Both the lander and the Yutu rover are equipped with plutonium heaters to keep the spacecraft warm during the two-week long lunar nights.

It was the year's 12th CZ launch and China's 13th orbital flight, but only the second launch from XiChang in 2013.


Progress M-21M

Russia's Soyuz-U launched Progress M-21M, an unmanned cargo hauler bound for the International Space Station (ISS), into orbit from Baikonur Cosmodrome Area 31 Pad 6 on November 25, 2013.  Liftoff took place at 20:53 UTC. 

Progress M-21M was equipped with a new rendezvous system that will be tested during a four-day period prior to docking with ISS.  The spacecraft carries nearly 3 tonnes of supplies for the Expedition 38 crew on the station.

It was the year's 14th R-7 launch and the 4th Progress.   Eight of the R-7 launches were in support of ISS.

CZ-2D Launches Remote Sensing Satellite

China's 20th CZ-2D lofted Shiyan Weixing 5, a high resolution remote sensing satellite, into a 739 x 755 km x 98 deg sun synchronous orbit on November 25, 2013.  Liftoff from Jiuquan LC 43 Pad 603 took place at 02:12 UTC.  

It was the second CZ-2D launch of the year and the 11th Chang Zheng family launch.

Rokot Orbits ESA Swarm Satellites

A Rockot/Briz KM successfully lofted a trio of European Space Agency Swarm satellites into low earth orbit from Plesetsk Cosmodrome on November 22, 2013.  The Swarm satellites, each weighing 473 kg, will map dynamics of the Earth's magnetic field from slightly differing orbits.

The three stage rocket, its first two stages from a retired RS-18/SS-19 ICBM, lifted off at 12:02 UTC from Area 133/Pad 3.  After the first two stages burned and fell away, the Briz KM third stage performed an initial burn to place itself and its payloads into a 153 x 476 km parking orbit.  The vehicle coasted for about an hour to apogee before the stage performed a 16 second long second burn to enter a 490 km x 87.55 circular orbit.  Satellite deployment occurred at 13:33 UTC.  The Swarm satellites will use their own cold gas Freon thrusters to manuever to operational orbits.

It was the third Rokot launch of 2013 and the 18th success in 20 attempts since 1994.  The first launch used a Briz K stage.   Subsequent flights used the current, upgraded Briz KM, beginning in 2000.

Dnepr Orbits Satellite Cluster

A Ukrainian built Dnepr launch vehicle orbited 32 small satellites on November 21, 2013 after rising from an underground missile silo at Dombarovsky missile base near Yasny, Russia.  Liftoff from LC 370/13 took place at 07:10 UTC.   The three-stage storable propellant rocket, a retired R-36MU/SS-18 ICBM, reached a sun sunchronous low earth orbit several minutes later.

Most of the satellites were CubeSats weighing less than 5 kg.   Two thirds of them were deployed from the rocket's modified multiple reentry vehicle warhead "bus"third stage.  Kosmotras, a Russian-Ukrainian company, oversaw the payload portion of the launch while Russian military forces performed the launch.  Among the larger satellites deployed conventionally were DubaiSat2, a South Korean/Emirates earth observation satellite and SkySat 1, a commercial imager for California's Skybox Imaging. 

It was the year's second Dnepr launch of 2013 and the 19th Dnepr launch attempt since the type entered service in 1999. 

China Launches Yaogan 19

China's state media stated that the satellite, which entered a roughly 1,200 km x 100.48 deg orbit, was an earth observation spacecraft designed to "conduct scientific experiments, carry out land surveys, monitor crop yields and aid in preventing and reducing natural disasters".  Western analysts belive that the satellite and others like it are also used for military reconnaissance.   Some believe that Yaogan 19 in particular carries a high resolution camera.

Minotaur 1 ORS-3 Launch

The 11th Orbital Sciences Minotaur 1 launch vehicle carried 29 satellites into orbit from Wallops Island, Virginia on November 20, 2013.  Payloads included the primary STPSat 3 satellite and 28 CubeSats provided by NASA and by university and high school students.  Total payload mass was 400.68 kg.

The four stage all solid motor rocket lifted off from Pad 0B at 01:15 UTC with the third Operationally Responsive Space (ORS) mission for the U.S. military.  Called "The Enabler Mission", ORS-3 demonstrated automated launch vehicle trajectory targeting and range safety processes.  These methods are intended to decrease launch costs.

Initial boost was provided by two repurposed Minuteman II missile stage motors (an M55A1 first stage and an SR19 second stage) fired sequentially.  An Orion 50XL motor performed the third stage burn, then remained attached to the fourth stage during a more than 5.5 minute coast.  About 10 minutes 14 seconds after liftoff, the rocket's Orion 38 fourth stage completed its burn to insert the Integrated Payload Stack into a 500 km x 40.5 deg orbit. 

STPSat 3 separated about 12.2 minutes after liftoff.   CubeSat deployment was expected to take place in stages during the subsequent 10 minutes.

It was the the final Minotaur launch under the initial Orbital/Suborbital Program-1 and -2 contracts.  No Minotaur 1 launches are currently planned, but future launches are theoretically possible under the OSP-3 contract.   Minotaur 1 uses upper stages and flight control systems from Pegasus XL, another rocket that currently has no future launches backlogged.  More powerful, Peacekeeper-based Minotaur 4 and 5 rockets have flown more often than Minotaur 1 and Pegasus in recent years.

Atlas Sends MAVEN Toward Mars

Atlas 5 tail number AV-038 launched NASA's Mars Atmosphere and Volatile Evolution (MAVEN) spacecraft into a trans-Mars solar orbit from Cape Canaveral, Florida on November 18, 2013.  The two-stage, Russian-engined rocket lifted off from Space Launch Complex 41 at 18:28 UTC and quickly disappeared into a low cloud cover.  After the first stage completed its 4 minute 2 second long portion of the ascent, the Centaur second stage took over to perform two burns of its Aerojet Rocketdyne RL10A-4-2 LOX/LH2 engine.