Rassvet (ISS module)

Rassvet
Station statistics
Rassvet as seen from the Cupola module during STS-132 with a Progress in the lower right
Launch date:	May 14, 2010
Launch vehicle:	Space Shuttle Atlantis
Docked:	May 18
Undocked:	N/A
Reentry:	2020+
Mass:	5,075 kg
Diameter:	2.35m
Living volume:	Total:17.4 m³ Pressurized:5.85m³

The Russian Orbital Segment as seen from the departing STS-135 in July 2011 with (clockwise from left) a Russian Progress unmanned vehicle, two Soyuz manned spacecraft, and an additional Progress vehicle currently docked.

Rassvet (Russian: Рассве́т; lit. "dawn"), also known as the Mini-Research Module 1 (MRM-1) (Russian: Малый исследовательский модуль, МИМ 1) and formerly known as the Docking Cargo Module (DCM), is a component of the International Space Station (ISS). The module's design is similar to the Mir Docking Module launched on STS-74 in 1995. Rassvet is primarily used for cargo storage and as a docking port for visiting spacecraft. It was flown to the ISS aboard Space Shuttle Atlantis on the STS-132 mission on May 14, 2010,^[1] and was connected to the ISS on May 18.^[2] The hatch connecting Rassvet with the ISS was first opened on May 20.^[3] On 28 June 2010, the Soyuz TMA-19 spacecraft performed the first docking with the module.^[4]

Details

Rassvet in the Space Station Processing Facility (SSPF) at Kennedy Space Center in Florida.

An interior view of Rassvet.

Rassvet was docked to the nadir port of Zarya with help from the SSRMS.^[5] Rassvet carried externally attached outfitting equipment from NASA for the Nauka Multipurpose Laboratory Module (MLM), a spare elbow joint for the European Robotic Arm, and a radiator. Delivering Rassvet thus enabled NASA to fulfill its promise to ship 1.4 metric tons to equip the MLM.^[6]

Rassvet has two docking units: one to attach to the nadir port of the Zarya module, and one to provide a docking port for a Soyuz or Progress spacecraft. It implements the role of the Docking and Stowage Module from the original ISS design. Russia announced the cancellation of the last of the two planned Russian Research Modules when it announced the plans for Rassvet.

Initial planning

The initial ISS plan included a Docking and Storage Module (DSM). This planned Russian element was intended to provide facilities for stowage and an additional docking port, and would have been launched to the station on a Proton launch vehicle. The DSM would have been mounted to Zarya's nadir (Earth-facing) docking port. It would have been similar in size and shape to the Zarya module.

The DSM was cancelled due to Russian budgetary constraints for some time, but its design was eventually modified into the Docking and Cargo Module (Rassvet) that was to be connected to the same Zarya location to provide stowage space and a docking port. During the cancellation period, it was proposed that a Multi Purpose Module (MPM) called Enterprise should be docked to Zarya, and later the Multipurpose Laboratory Module (MLM) was proposed to be located there as well, but the Enterprise module has since been cancelled and the MLM will be docked to Zvezda's nadir port instead.

Purpose

Rassvet was designed as a solution to two problems facing the ISS partners:

NASA was under contract to carry the MLM outfitting equipment into space.
The overlapping missions of the Progress, Soyuz, and ATV spacecraft highlighted the need to have four Russian docking ports available on the ISS. The cancellation of both Russian Research Modules meant that the ISS would be left with just three such docking ports after the installation of the Permanent Multipurpose Module in 2011, which made the nadir port of Zarya unusable.

Rassvet solved both of these issues. NASA did not need to add another payload flight to accommodate the MLM outfitting equipment, as it could attach the hardware to the exterior of MRM-1. The ISS now had 4 docking ports available on the Russian segment: the aft port of Zvezda, the port of Pirs, later MLM (on the nadir port of Zvezda), the port of MRM-2 (on the zenith port of Zvezda), and the port on MRM-1 (on the nadir port of Zarya). Russia's cancellation of the Research Module thus came to be of less consequence for the ISS program as a whole.

Design and construction

The Experiment Airlock on the Rassvet module.

The module was designed and built by S.P. Korolev RSC Energia, from the already-made pressurized hull of the mock-up for dynamic tests of the canceled Science Power Platform.^[7]^[8]

On December 17, 2009, an Antonov An-124 carrying the Rassvet Module and ground process equipment arrived at the Kennedy Space Center in Florida.^[9] Upon unloading, the equipment was delivered to a prelaunch processing facility run by the Astrotech. Energia specialists and technicians continued their work on the processing of the Rassvet module at the facility, completing stand-alone electrical tests and leak tests of the module and the airlock. They also prepared the airlock and the radiative heat exchanger for installation onto Rassvet. The module was moved to NASA's Space Station Processing Facility on April 2, 2010. After completing the final touches, it was placed into the shuttle payload transporter on April 5, 2010. The payload canister containing the Rassvet Module arrived at Launch Pad 39A on April 15, 2010.^[10]

Engineers at Launch Pad 39A preparing Space Shuttle Atlantis had noticed paint peeling from the MRM-1 module. Although the problem was declared to have no impact on the operation of Rassvet, it posed a potential threat of releasing debris on orbit.^[11]

Specifications

The Soyuz TMA-19 spacecraft docks to the Rassvet Mini-Research Module 1.

Source: ^[12]

Module launch mass	5,075 kg
Total Launch mass	8,015 kg
Maximum hull diameter	2.35 m
Hull length between docking assembly planes	6 m
Pressurized volume	17.4 m³
Habitable volume	5.85 m³

Visited spacecraft

Rassvet was connected to nadir port of Zarya on May 18, 2010.^[2]

Patch	Spacecraft	Docking	Undocking
	Soyuz TMA-19	28 June 2010 03:38 UTC	26 November 2010 01:23 UTC
	Soyuz TMA-20	17 December 2010 20:12 UTC	23 May 2011 21:35 UTC
	Soyuz TMA-02M	9 June 2011 21:18 UTC	21 November 2011 23:00 UTC
	Soyuz TMA-03M	23 December 2011 15:19 UTC	1 July 2012 04:48 UTC
	Soyuz TMA-05M	17 July 2012 04:51 UTC	18 November 2012 22:26 UTC
	Soyuz TMA-07M	21 December 2012 14:09 UTC	13 May 2013 23:08 UTC
	Soyuz TMA-09M	29 May 2013 02:10 UTC	1 November 2013
	Soyuz TMA-11M	7 November 2013 10:27 UTC	13 May 2014 22:36 UTC
	Soyuz TMA-13M	29 May 2014 19:57 UTC	10 November 2014 00:31 UTC
	Soyuz TMA-15M	23 November 2014 01:01 UTC	11 June 2015 10:20 UTC
	Soyuz TMA-17M	23 July 2015 02:45 UTC	11 December 2015 09:49 UTC
	Soyuz TMA-19M	15 December 2015 17:33 UTC	18 June 2016 5:52 UTC
	Soyuz MS-01	9 July 2016 04:12 UTC^[13]	30 October 2016 planned
	Soyuz MS-03	19 November 2016 21:58 UTC	15 May 2017 planned

Gallery

MRM1 at the Astrotech Facility.

References

↑ Chris Gebhardt (9 April 2009). "STS-132: PRCB baselines Atlantis' mission to deliver Russia's MRM-1". NASAspaceflight.com. Retrieved 12 November 2009.
1 2 NASA (May 18, 2010). "STS-132 MCC Status Report #09". Retrieved July 7, 2010.
↑ NASA (May 20, 2010). "STS-132 MCC Status Report #13". Retrieved July 7, 2010.
↑ Justin Ray (June 28, 2010). "Station crew takes Soyuz for 'spin around the block'". SpaceFlight Now. Retrieved July 7, 2010.
↑ "MRM-1 for ISS". NASAspaceflight.com. 11 April 2007. Retrieved 5 December 2012.
↑ "NASA Extends Contract With Russia's Federal Space Agency". NASA.
↑ NASA оплатило полёты своих астронавтов до 2011 года Novosti Kosmonavtiki №2007/6
↑ Justin Ray (March 25, 2010). "Russian space module set for American launch aboard the shuttle Atlantis". Spaceflight Now. Retrieved March 31, 2010.
↑ "Mini-Research Module MRM1 At Cape For Shuttle Processing". December 30, 2009. Retrieved March 6, 2010.
↑ Justin Ray (April 15, 2010). "Russian space station module shipped to NASA's space shuttle launch pad". Spaceflightnow. Retrieved April 25, 2010.
↑ Chris Bergin (April 28, 2010). "STS-132: Managers work through SSP FRR – Will slip launch date if required". NASAspaceflight.com. Retrieved April 29, 2010.
↑ "Space Shuttle Mission STS 132 PRESS KIT" (PDF). NASA. May 2010. Retrieved 2010-05-10.
↑ Next Station Crew Arrives at Launch Site

External links

http://space.skyrocket.de/doc_sdat/dsm.htm
http://www.russianspaceweb.com/iss_enterprise.html
http://nasatech.net/Astrotech-MM2_100324/ Rassvet at Astrotech looking NW
http://nasatech.net/Astrotech-Rassvet1_100324/ Rassvet at Astrotech looking north
http://nasatech.net/Astrotech-Rassvet2_100324/ Rassvet at Astrotech from above
http://nasatech.net/Astrotech-Rassvet3_100324/ Rassvet at Astrotech looking SE

Components of the International Space Station

Overview

Orbiting

Major components	Zarya (Functional Cargo Block) Zvezda (Service Module) Destiny (laboratory) Columbus (laboratory) Kibō (PM, ELM-PS, EF) Unity (Node 1) Harmony (Node 2) Tranquility (Node 3) Quest Joint Airlock Pirs (docking module, airlock) Rassvet (MRM 1) Poisk (MRM 2) Leonardo (PMM) Cupola Integrated Truss Structure (ITS)

Subsystems	Mobile Servicing System (MSS) Canadarm2 Dextre (SPDM) Boom Assembly Strela cranes Kibō Remote Manipulator System External Stowage Platforms (ESPs) ExPRESS Logistics Carriers (ELCs) 1-4 Pressurized Mating Adapters (PMAs) International Docking Adapters (IDAs) Electrical System Life Support System

Experimental devices	AMS-02 CALET CATS HDEV MAXI PK-3 Plus Bigelow Expandable Activity Module (BEAM)

Future

Via Proton	Nauka (Multipurpose Laboratory Module) (with European Robotic Arm (ERA)) Science Power Module

Via Soyuz	Uzlovoy Module (UM)

Proposed	Node 4 XBASE

Spare
hardware

Cancelled

Support
vehicles

Current	Soyuz Progress H-II Transfer Vehicle (HTV) Dragon Cygnus

Future	CST-100 Dragon V2 Federation (PPTS) Dream Chaser Cargo System (DCCS)

Former	Space Shuttle Automated Transfer Vehicle (ATV)

Cancelled	NASDA HOPE ESA Hermes

Mission
control

Administrative
and legal

Multilateral Coordination Board

Book
Category
Portal

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Compass-G1 \| Globus-1M No.12L \| Progress M-04M \| STS-130 (Tranquility · Cupola) \| SDO \| Intelsat 16 \| Kosmos 2459 · Kosmos 2460 · Kosmos 2461 \| GOES 15 \| Yaogan 9A · Yaogan 9B · Yaogan 9C \| EchoStar XIV \| Soyuz TMA-18 \| STS-131 (Leonardo MPLM) \| CryoSat-2 \| GSAT-4 \| Kosmos 2462 \| USA-212 \| SES-1 \| Kosmos 2463 \| Progress M-05M \| STS-132 (Rassvet · ICC-VLD) \| Akatsuki · IKAROS (DCAM-1 · DCAM-2) · Shin'en · Waseda-SAT2 · Hayato · Negai ☆'' \| Astra 3B · COMSATBw-2 \| USA-213 \| SERVIS-2 \| Compass-G3 \| Badr-5 \| Dragon Spacecraft Qualification Unit \| STSAT-2B \| Shijian XII \| Prisma · Picard · BPA-1 \| Soyuz TMA-19 \| TanDEM-X \| Ofek-9 \| Arabsat-5A · Chollian \| Progress M-06M \| EchoStar XV \| Cartosat-2B · AlSat-2A · StudSat · AISSat-1 · TIsat-1 \| Compass-IGSO1 \| Nilesat 201 · RASCOM-QAF 1R \| Yaogan 10 \| USA-214 \| Tian Hui 1 \| Kosmos 2464 · Kosmos 2465 · Kosmos 2466 \| Chinasat-6A \| Gonets-M No.2 · Kosmos 2467 · Kosmos 2468 \| Progress M-07M \| Michibiki \| USA-215 \| Yaogan 11 · Zheda Pixing 1B · Zheda Pixing 1C \| USA-216 \| Kosmos 2469 \| Chang'e 2 \| Shijian 6G · Shijian 6H \| Soyuz TMA-01M \| XM-5 \| Globalstar 73 · Globalstar 74 · Globalstar 75 · Globalstar 76 · Globalstar 77 · Globalstar 79 \| Progress M-08M \| Eutelsat W3B · BSat 3B \| Compass-G4 \| Meridian 3 \| Feng Yun 3B \| COSMO-4 \| SkyTerra-1 \| STPSat-2 · RAX · O/OREOS · FASTSAT (NanoSail-D2) · FalconSat-5 · Sara-Lily · Emma \| USA-223 \| Chinasat-20A \| Intelsat 17 · Hylas 1 \| Glonass-M No.39 · Glonass-M No.40 · Glonass-M No.41 \| Dragon C1 · Mayflower · SMDC-ONE 1 · QbX-1 · QbX-2 · Perseus 000 · Perseus 001 · Perseus 002 · Perseus 003 \| Soyuz TMA-20 \| Compass-IGSO2 \| GSAT-5P \| KA-SAT\| Alsat-2A

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).

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