Venera 16

1983 uncrewed Soviet spacecraft to Venus

Venera 16
Spacecraft properties
Venusian topography by Veneras 15/16

Mission type	Venus orbiter
Operator	Soviet Academy of Sciences
COSPAR ID	1983-054A
SATCAT no.	14107
Mission duration	Overall: 1 year, 1 month At Venus: 9 months


Spacecraft type	4V-2
Manufacturer	NPO Lavochkin
Launch mass	5,300 kilograms (11,700 lb)^[1]
Dry mass	4,000 kilograms (8,800 lb)


Start of mission
Launch date	June 7, 1983, 02:32 (1983-06-07UTC02:32) UTC^[1]
Rocket	Proton-K/D-1
Launch site	Baikonur 200/40


End of mission
Last contact	June 13, 1985 (1985-06-14)^[2]


Orbital parameters
Reference system	Cytherocentric
Semi-major axis	45,632.0 kilometres (28,354.4 mi)
Pericytherion altitude	7,081 kilometres (4,400 mi)
Apocytherion altitude	72,079 kilometres (44,788 mi)
Inclination	92.5 degrees
Period	24 hours


Venus orbiter
Orbital insertion	October 11, 1983^{[citation needed]}
Orbits	243

Venera ← Venera 15 Venera-D →

Venera 16 (Russian: Венера-16 meaning Venus 16) was a spacecraft sent to Venus by the Soviet Union. This uncrewed orbiter was to map the surface of Venus using high resolution imaging systems. The spacecraft was identical to Venera 15 and based on modifications to the earlier Venera space probes. The latest data from the spacecraft were received on June 13, 1985, when it responded to the signal sent from Earth for Vega 1.

Mission profile

Venera 16 was launched on June 7, 1983, at 02:32:00 UTC and reached Venus' orbit on October 11, 1983.

The spacecraft was inserted into Venus orbit a day apart from Venera 15, with its orbital plane shifted by an angle of approximately 4° relative to one another probe. This made it possible to reimage an area if necessary. The spacecraft was in a nearly polar orbit with a periapsis ~1,000 kilometres (620 mi), at 62°N latitude, and apoapsis ~65,000 kilometres (40,000 mi), with an inclination ~90°, the orbital period being ~24 hours.

Together with Venera 15, the spacecraft imaged the area from the north pole down to about 30°N latitude (i.e. approx. 25% of Venus surface) over the 8 months of mapping operations.

Spacecraft structure

The Venera 15 and 16 spacecraft were identical and were based on modifications to the orbiter portions of the Venera 9 and Venera 14 probes. Each spacecraft consisted of a 5 metres (16 ft) long cylinder with a 0.6 m (2.0 ft) diameter, 1.4 m (4.6 ft) tall parabolic dish antenna for the synthetic aperture radar at one end. A 1-metre (3 ft 3 in) diameter parabolic dish antenna for the radio altimeter was also located at this end. The electrical axis of the radio altimeter antenna was lined up with the axis of the cylinder. The electrical axis of the SAR deviated from the spacecraft axis by 10 degrees. During imaging, the radio altimeter would be lined up with the center of the planet (local vertical) and the SAR would be looking off to the side at 10 degrees. A bulge at the opposite end of the cylinder held fuel tanks and propulsion units. Two square solar arrays extended like wings from the sides of the cylinder. A 2.6-metre (8.5 ft) radio dish antenna for communications was also attached to the side of the cylinder. The spacecraft each weighed 4,000 kilograms (8,800 lb).

Both Venera 15 and 16 were equipped with a synthetic aperture radar. A radar was necessary in this mission because nothing else would be able to penetrate the dense clouds of Venus. The probes were equipped with on board computers that saved the images until the entire image was complete.

List of spacecraft instruments and experiments:

Polyus-V Synthetic Aperture Radar
Omega Radar Altimeter
Infrared Fourier Spectrometer
Cosmic-Ray Detectors (6 sensors)
Solar-Plasma Detectors

To get to Venus, Venera 16 was placed in a heliocentric orbit with perihelion of 0.71 astronomical units, aphelion of 1.01 astronomical units, eccentricity of 0.17, orbital inclination of 2.3 degrees and orbital period of 293 days.

References

^ ^a ^b Siddiqi, Asif (2018). Beyond Earth: A Chronicle of Deep Space Exploration, 1958–2016 (PDF) (second ed.). NASA History Program Office.
^ Siddiqi, Asif A. (2018). Beyond Earth: A Chronicle of Deep Space Exploration, 1958–2016 (PDF). The NASA history series (second ed.). Washington, DC: NASA History Program Office. p. 160. ISBN 9781626830424. LCCN 2017059404. SP2018-4041.

External links

The Soviet Exploration of Venus
Catalog of Soviet Venus images
Venera 16
Venera 15/16 Radar Mosaic Browser

Venera program

Flybys

Venera 1
Venera 2

Orbiters

Venera 15
Venera 16

Descent probes

Landers

Failed launches

Future missions

Venera-D

Spacecraft missions to Venus

Active missions

Orbiters	Akatsuki
Flybys	Parker Solar Probe (en route) BepiColombo (en route) Solar Orbiter (en route) Jupiter Icy Moons Explorer (en route)

Past missions

Orbiters	Magellan Pioneer Venus Orbiter Venera 9 10 15 16 Venus Express
Flybys	Venera 1^† Mariner 2 Zond 1^† Venera 2^† Mariner 5 10 Venera 11 12 13 14 Vega 1 2 Galileo Cassini–Huygens MESSENGER IKAROS Shin-en^†
Descent probes	Venera 3^† 4 5 6 Pioneer Venus Multiprobe
Landers	Venera 7 8 9 10 11 12 13 14 Vega 1 2 Pioneer Venus Small Probes
Balloon probes	Vega 1 2
Failed launches	Tyazhely Sputnik Mariner 1 2MV-1 No.1 2MV-1 No.2 2MV-2 No.1 Kosmos 21 3MV-1 No.2 Kosmos 27 96 167 482

Planned missions

Orbiters	VERITAS (2029) EnVision (2031)
Flybys	Dragonfly (2027) MBR Explorer (2028)
Descent probes	Venus Life Finder (2025) DAVINCI (2029)

Proposed missions

Venus missions	AREE CUVE HAVOC HOVER Venus Orbiter Mission VAMP Venera-D VICI VISAGE VISE VOICE VOX Zephyr
Flybys	Mercury-P Laplace-P NASA Uranus orbiter and probe

Cancelled / concepts

Program overviews

Missions are ordered by launch date. ^† indicates failure en route or before any data returned.

v t e ← 1982 Orbital launches in 1983 1984 →
January	Kosmos 1437 Unnamed
February	OPS 0252 OPS 0252 SSU-1 OPS 0252 SSU-2 OPS 0252 SSU-3
March	Kosmos 1443 NOAA-8
April	STS-6 (TDRS-1) OPS 2925 Soyuz T-8
May	Intelsat V F-6
June	OPS 6432 OPS 6432 SSU-1 OPS 6432 SSU-2 OPS 6432 SSU-3 ECS-1 OSCAR-10 STS-7 (Anik C2, Palapa B1, SPAS-01, OSTA-2) OPS 0721 OPS 3899 Soyuz T-9
July	OPS 7304
August	Progress 17
September	STS-8 (INSAT-1B)
October	Intelsat V F-7 Progress 18
November	STS-9
Unknown month	Kosmos 1428 Kosmos 1429 Kosmos 1430 Kosmos 1431 Kosmos 1432 Kosmos 1433 Kosmos 1434 Kosmos 1435 Kosmos 1436 IRAS PIX-2 Kosmos 1438 Sakura 2a Kosmos 1439 LIPS-2 Kosmos 1440 Kosmos 1441 Tenma Kosmos 1442 Kosmos 1444 Molniya-3 No.34 Ekran No.18L Kosmos 1445 Kosmos 1446 Molniya-1-56 Astron Kosmos 1447 Kosmos 1448 Kosmos 1449 Molniya-1 No.68 Kosmos 1450 Gran' No.23L Kosmos 1451 Satcom 1R Kosmos 1452 Rohini RS-D2 Kosmos 1453 Kosmos 1454 Kosmos 1455 Kosmos 1456 Kosmos 1457 Kosmos 1458 GOES 6 Kosmos 1459 Kosmos 1460 Kosmos 1461 Kosmos 1462 Kosmos 1463 Kosmos 1464 Kosmos 1465 Kosmos 1466 EXOSAT Kosmos 1467 Venera 15 Venera 16 Kosmos 1468 Kosmos 1469 Kosmos 1470 HILAT Kosmos 1471 Galaxy 1 Gorizont No.17L Prognoz 9 Kosmos 1472 Kosmos 1473 Kosmos 1474 Kosmos 1475 Kosmos 1476 Kosmos 1477 Kosmos 1478 Kosmos 1479 Kosmos 1480 Kosmos 1481 Kosmos 1482 OPS 7994 Molniya-1 No.66 Kosmos 1483 Kosmos 1484 Kosmos 1485 Telstar 301 Kosmos 1486 Kosmos 1487 Sakura 2b Kosmos 1488 Kosmos 1489 Kosmos 1490 Kosmos 1491 Kosmos 1492 Fanhui Shi Weixing 6 Kosmos 1493 Gran' No.24L Molniya-3 No.32 Kosmos 1494 Kosmos 1495 Kosmos 1496 Satcom 2R Kosmos 1497 Kosmos 1498 Kosmos 1499 Galaxy-2 Soyuz 7K-ST No. 16L Kosmos 1500 Ekran No.25L Kosmos 1501 Kosmos 1502 Kosmos 1503 Kosmos 1504 Kosmos 1505 Kosmos 1506 Meteor-2 No.10 Kosmos 1507 Kosmos 1508 Kosmos 1509 OPS 1294 Molniya-1 No.48 Kosmos 1510 Kosmos 1511 Gorizont No.18L Kosmos 1512 Kosmos 1513 Kosmos 1514 Kosmos 1515 Molniya-3 No.35 Kosmos 1516 Kosmos 1517 Kosmos 1518 Kosmos 1519 Kosmos 1520 Kosmos 1521
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). CubeSats are smaller. Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).