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Soyuz TM-34

Soyuz TM-34 was a crewed to the (ISS), launched on April 25, 2002, at 06:26 UTC from the in aboard a rocket. It carried commander Yuri Gidzenko of , flight engineer Roberto Vittori representing the (ESA), and spaceflight participant Mark Shuttleworth from , marking the fourth flight to the ISS and the third dedicated "taxi" to ferry a short-term visiting crew. The primary objectives included swapping the docked Soyuz TM-33 rescue vehicle with TM-34 to provide a fresh lifeboat for the resident Expedition 4 crew, conducting biomedical and experiments, and supporting station operations during an eight-day visit. The mission highlighted international collaboration, with Vittori's involvement under ESA's Marco Polo program focusing on microgravity research such as plasma physics and cardiovascular studies, while Shuttleworth, the second private space tourist after Dennis Tito, performed experiments on topics like ocean biology and human physiology. After launching into a 242 by 269 kilometer orbit at 51.6 degrees inclination, Soyuz TM-34 docked automatically to the nadir port of the Zarya module on April 27, 2002, at 07:56 UTC, allowing the crew to enter the station and join Expedition 4 commander Yury Onufrienko, NASA flight engineers Carl Walz and Daniel Bursch. The visiting crew undocked in Soyuz TM-33 on May 5, 2002, at 00:31 UTC and landed safely 31 kilometers southeast of Arkalyk, Kazakhstan, after a 9-day, 21-hour flight comprising 156 orbits. Soyuz TM-34 remained attached to the ISS as the Expedition 4 lifeboat until November 9, 2002, when it undocked carrying Onufrienko, Walz, and Bursch, landing on November 10, 2002, at 00:04 UTC in the Kazakh steppes after a mission duration of 198 days for the spacecraft. This flight was the final mission of the Soyuz-TM vehicle design, which had served since 1986, paving the way for the upgraded Soyuz-TMA series with enhanced automation and safety features starting in 2002. The mission's success underscored the reliability of Soyuz as a crew transport vehicle during the ISS assembly phase, contributing to ongoing multinational efforts in space exploration.

Background

Context in ISS program

Following the permanent occupancy of the (ISS) beginning in November 2000, Soyuz missions became integral to station operations by facilitating crew transport and ensuring continuous emergency evacuation capabilities. Each Soyuz vehicle, certified for a maximum of six months docked to the ISS, functioned as a lifeboat for the resident crew, with replacements occurring at least every six months via dedicated "taxi" flights to deliver a fresh while the visiting crew returned on the outgoing vehicle. This rotation policy, initiated post-2000, maintained operational reliability for the three-person expeditions amid the station's early assembly phase. Soyuz TM-34 launched on April 25, 2002, during Expedition 4 (December 2001–May 2002), to replace Soyuz TM-33, which had docked to the ISS in November 2001 and was nearing the expiration of its six-month certification. By providing a new lifeboat, the mission preserved the Expedition 4 crew's ability to conduct research and maintenance without compromising safety. This flight occurred in the midst of ISS assembly efforts, shortly after the Space Shuttle mission (April 8–19, 2002), which installed the S0 truss segment to form the initial backbone of the station's structural framework. The period emphasized Soyuz's role in crew rotation and emergency return provisions, supporting the incremental buildup of the orbital laboratory while U.S. shuttles handled major hardware deliveries. Soyuz TM-34 docked to the port of the Zarya module, continuing the evolution of operations from the Mir space station program, where vehicles had docked to various ports using the probe-and-drogue system and Kurs automation originally developed for in the and . This adaptation enabled seamless integration into the , with Zarya's port designated for and vehicles to support ongoing logistics and crew access.

Objectives and payload

The primary objectives of the Soyuz TM-34 mission were to deliver a replacement Soyuz spacecraft to the International Space Station (ISS) to serve as the resident crew's lifeboat, replacing the expiring Soyuz TM-33, and to enable short-term visiting crew operations lasting approximately eight days, including the execution of biomedical and Earth observation experiments. These goals supported the ongoing ISS program by ensuring continuous emergency evacuation capability while advancing scientific research in microgravity. The payload encompassed a range of biological and biomedical experiments, notably those conducted by space tourist , which included studies on a live for physiological effects in microgravity and sheep cells to investigate tissue development and cellular responses to space conditions. Additional experiments by ESA astronaut Roberto Vittori focused on human physiology, such as the ALTEINO study measuring electrical activity and via electroencephalograms, the CHIRO handgrip test for muscle function, the VEST evaluation of clothing materials, and the BMI device for blood pressure monitoring. Earth observation tasks involved photographic documentation of regions over , with images downlinked for analysis. Supplementary cargo delivered to support Expedition 4 included essentials like food, provisions, and maintenance equipment, totaling around 50 kg of return for experiment samples and waste. The Soyuz-TM spacecraft for this mission, designated as vehicle number 208, featured a standard three-module configuration designed for three crew members: a forward orbital module providing interface and extra volume for experiments and , a central descent module serving as the pressurized crew compartment for launch, orbit, and re-entry, and an aft service module housing propulsion, power, and systems. The total launch mass was approximately 7,070 kg, enabling reliable transport to . The launch vehicle was a , a reliable three-stage system with four strap-on liquid-fueled boosters (first stage), a central core stage, and a third-stage upper stage, all using and propellants for a total liftoff mass of about 313 tons. The mission lifted off from Cosmodrome's 1/5 launch pad in , a standard site for crewed flights.

Crew

Launching crew

The launching crew of Soyuz TM-34 consisted of three members: Commander Yuri Gidzenko from , representing the Russian Federal Space Agency (now ); Flight Engineer Roberto Vittori from , representing the (ESA); and Spaceflight Participant Mark Shuttleworth from , as a private individual. Yuri Gidzenko, born on March 26, 1962, in Elanets, , Ukrainian SSR, was a colonel in the and a veteran cosmonaut with prior experience on two long-duration missions. His first flight was as of the Soyuz TM-22/Mir-20 mission in 1995–1996, where he spent 179 days aboard the space station conducting scientific experiments and station maintenance. His second flight was as of Soyuz TM-31/ in 2000–2001, marking the inaugural long-duration crew to the (ISS), during which he logged 141 days in space while overseeing initial assembly and operations. Selected for Soyuz TM-34 as an experienced to lead the taxi mission, Gidzenko's role emphasized his expertise in manual spacecraft control during ascent, ready to intervene if automated systems required adjustment. Roberto Vittori, born on October 15, 1964, in , , was a and in the , having accumulated over 1,800 flight hours in more than 40 aircraft types, including the F-104, , F-18, and AMX. A 1989 graduate of Italy's Accademia Aeronautica, Vittori joined the ESA astronaut corps in 1998 after completing military test pilot training and serving in operational roles. Soyuz TM-34 marked his first spaceflight, selected through ESA's collaboration with to foster international partnerships and conduct European experiments on the ISS; his training focused on Soyuz systems as . During pre-launch preparations, Vittori was responsible for monitoring propulsion, environmental control, and systems to ensure nominal performance throughout ascent. Mark Shuttleworth, born on September 18, 1973, in Welkom, South Africa, was an entrepreneur and software developer who founded the Ubuntu Linux distribution through his company Canonical Ltd. As the second spaceflight participant after Dennis Tito, Shuttleworth became the first African in space through a paid seat arrangement with Roscosmos, reportedly costing $20 million, to promote South African involvement in space activities and conduct personal biotechnology experiments. Lacking formal astronaut training, his selection emphasized financial contribution to the Russian space program while adhering to basic safety and operational requirements; he underwent six months of preparation at the Yuri Gagarin Cosmonaut Training Center. In pre-launch duties, Shuttleworth assisted with stowing and preparing his designated experiments, such as microbial growth studies, under guidance from the professional crew. The mission duration for Vittori and Shuttleworth was approximately 10 days, from launch on , 2002, to undocking and landing on May 5, 2002, completing 156 orbits of . Gidzenko shared the same mission leg duration for Soyuz TM-34, contributing to his cumulative time of approximately 331 days across three missions at that point.

Landing crew

The landing of Soyuz TM-34 consisted of Sergei Zalyotin from Russia, representing the Russian Federal Space Agency (), Flight Engineer from Belgium, representing the (ESA), and Flight Engineer Yuri Lonchakov from Russia, also with . This trio had launched aboard Soyuz TMA-1 on October 30, 2002, as the fourth European Participating Mission (EP-4) visiting to the (ISS), marking the inaugural flight of the upgraded vehicle. During their approximately 11-day stay aboard the ISS, the crew overlapped with Expedition 5, conducting joint operations and science activities before undocking in Soyuz TM-34 on November 9, 2002, to serve as the return vehicle following the standard Soyuz lifeboat exchange procedure. Zalyotin, a veteran selected as a cosmonaut in 1990 and on his second after commanding Soyuz TM-24 to in 1997, oversaw the deorbit burn from the commander's seat in the descent module. De Winne, a Belgian selected by ESA in 1998 for his first , and Lonchakov, an colonel and selected in 1997 for his debut orbital mission after serving as for Soyuz TM-33, monitored reentry systems, propulsion parameters, and environmental controls while performing final tasks during descent. The spacecraft touched down safely on the Kazakh steppe at 00:04 UTC on November 10, 2002, after a nominal ballistic reentry. Zalyotin's command experience from his prior Mir residency contributed to the mission's focus on validating TMA-series handling during the short-duration visit, while Lonchakov's engineering background in and supported spacecraft systems checks throughout the return phase. De Winne's primary contributions centered on the Odissea , where he executed 23 experiments in microgravity , including studies in the Microgravity Science Glovebox (MSG), fluid physics investigations with the Fluid Science Laboratory, and biomedical research on neurovestibular function and cardiovascular adaptations, all funded by the Belgian Federal Policy Office. These efforts advanced contributions to ISS utilization, yielding data on for pharmaceuticals, zeolite formation for industrial applications, and human physiology in space.

Launch and ascent

Launch sequence

The final countdown for Soyuz TM-34 commenced approximately two hours before liftoff, with the crew—Yuri Gidzenko, Roberto Vittori, and —entering the spacecraft around T-2 hours 30 minutes following suit-up and transport to the . Systems checks, tank filling with propellants, and activation of guidance systems proceeded without issues, culminating in flight authorization at T-2 hours 45 minutes. The hatch was sealed at T-1 hour 55 minutes, and final verifications confirmed all onboard systems nominal. Liftoff occurred on April 25, 2002, at 06:26:35 UTC from Cosmodrome's Site 1/5 (), powered by a launch vehicle under favorable weather conditions. Engine ignition began at T-29 seconds, propelling the stack clear of the pad at T+0 with the four strap-on boosters and central core stage firing and . The first stage boosters separated cleanly at T+118 seconds, followed by second stage separation at approximately T+286 seconds, transitioning to the third stage burn for orbital insertion. Throughout the ascent, the demonstrated nominal performance, with no anomalies detected and post-liftoff verifying intact structural integrity and propulsion efficiency. During the powered ascent, Gidzenko verbally reported key milestones to mission control, such as stage separations and system statuses, while the monitored , , and environmental controls. They experienced peak G-forces of approximately 4g, primarily during the core burn, pressing them into their seats but within trained tolerances. All physiological and operational parameters remained stable, confirming a successful initial ascent phase.

Orbital insertion

Following the successful burnout of the Soyuz-U launch vehicle's third stage at T+8:52, Soyuz TM-34 achieved its initial with parameters of 193 km perigee by 247 km apogee at a 51.6° inclination. The completed its first orbital revolution in approximately 88.6 minutes, establishing a stable trajectory shortly after separation from the . During the subsequent two-day solo flight, the crew performed a series of phasing maneuvers to align with the International Space Station's at approximately 400 km altitude. The first burn, executed about two hours after launch, raised the apogee to initiate the transfer trajectory, followed by additional impulses in later revolutions to fine-tune the phasing plane and for . These operations utilized the spacecraft's orbital maneuvering engine, with the total solo phase lasting roughly 46 hours until the approach to the ISS began. Post-insertion systems checks confirmed nominal performance across critical subsystems. Solar panels deployed automatically approximately 10 minutes after orbital insertion, providing essential power in barbecue mode during initial revolutions. The Kurs automated system was activated and tested around two hours post-launch, verifying functionality for range and angle measurements. systems, including atmosphere control with oxygen between 140 and 310 mm Hg and CO₂ levels below 10 mm Hg, were validated operational, allowing the crew to doff their pressure suits by the second revolution.

Rendezvous and docking

Automated approach

The automated phase of Soyuz TM-34 began approximately 30 hours prior to , following the spacecraft's orbital insertion into an initial of about 242 by 269 kilometers at 51.6 degrees inclination. The spacecraft utilized the Kurs radio-based automated guidance system to navigate toward the International Space Station's Zarya module port, enabling independent maneuvering without requiring corresponding adjustments from the station. Key proximity operations involved multiple engine firings of the Soyuz's KTDU-80 propulsion system to progressively adjust the and close the distance during the final approach phase, including station-keeping holds at distances such as 150-200 meters to verify alignment and relative motion before proceeding. The approach remained below 0.3 meters per second during terminal phases, ensuring safe proximity without reported anomalies. As a contingency measure, the —featuring optical and —was fully primed and ready for cosmonaut intervention if the automated Kurs encountered any issues, though none arose during the sequence. Meanwhile, the Expedition 4 crew aboard the ISS, consisting of commander Yury Onufrienko and flight engineers Carl Walz and Daniel Bursch, conducted pre-docking preparations by confirming the Zarya port was clear and retracting any obstructing antennas or mechanisms.

Docking and crew transfer

Soyuz TM-34 achieved soft capture with the port of the Zarya module at 07:56 UTC on April 27, 2002, initiating the sequence with the (ISS). Following the initial contact, the docking hooks engaged to secure the , transitioning to hard mate within minutes. The tunnel between Soyuz TM-34 and the ISS was then pressurized over approximately 30 minutes as part of standard procedure, allowing for leak checks and system verification before hatch operations. About two hours after , at 09:25 UTC, the hatches were opened, enabling the crew transfer from Soyuz TM-34 to the ISS. Yuri Gidzenko, Roberto Vittori, and participant Mark were greeted by the Expedition 4 crew—Yury Onufrienko, Daniel Bursch, and Carl Walz—marking the successful handover of the visiting crew. Initial safety checks, including atmospheric pressure equalization and emergency procedure briefings led by Onufrienko, were conducted immediately upon entry to ensure the station's habitability and crew safety. Cargo transfer operations commenced shortly after hatch opening, with Gidzenko and Vittori unloading supplies and experiment hardware from the Soyuz descent module using the Integrated Support (IMS) inventory system for tracking. The transfer proceeded without major issues, delivering essential items such as scientific payloads for Vittori's experiments and general provisions for the station crew. Soyuz TM-34 remained docked to the ISS for approximately 196 days, serving as the station's lifeboat until its undocking on November 9, 2002, at 20:44 UTC.

In-orbit phase

Joint operations with Expedition 4

Following the successful docking of Soyuz TM-34 to the International Space Station on April 27, 2002, the visiting crew—Yuri Gidzenko, Roberto Vittori, and Mark Shuttleworth—joined the resident Expedition 4 crew of Yuri Onufrienko, Daniel Bursch, and Carl Walz for approximately eight days of joint operations, spanning April 28 to May 5, 2002. This period focused on preparing for crew rotation and ensuring a smooth transition between the Soyuz vehicles serving as the station's lifeboat. The combined efforts emphasized operational handover and collaborative tasks without any reported emergencies. A key aspect of the joint operations was the handover of Soyuz TM-34 as the new lifeboat for Expedition 4, replacing the aging Soyuz TM-33. The Expedition 4 crew received briefings from Gidzenko on the TM-34's controls and systems during the initial days post-docking, familiarizing themselves with its configuration for potential emergency use. In preparation for their return, the visiting crew activated Soyuz TM-33 on May 4, 2002, at 4:15 p.m. EDT, ingressed the descent module, and switched it to independent power by 4:30 p.m. EDT, with hatch closure completed at 5:15 p.m. EDT; this process was overseen collaboratively to verify readiness for undocking. These activities ensured the station's continuous emergency evacuation capability while briefing the resident crew on updated Soyuz procedures. Joint activities included preparations for crew rotations, such as systems checks and logistical planning for the impending departure. Vittori conducted ESA technology demonstrations, including imaging sessions where he photographed from the station's 400 km altitude to support applications. Shuttleworth engaged in public outreach efforts, participating in video conferences and TV interviews downlinked to ground control, including sessions with South African media and a broadcast on April 28, 2002, to promote awareness. These interactions highlighted international collaboration and educational outreach during the docked phase. With six crew members aboard the ISS, dynamics centered on maintaining high morale through coordinated schedules, including a rest day for Expedition 4 on April 28 to recover from prior operations like the Soyuz TM-33 redocking. Minor maintenance tasks, such as air sampling and equipment inspections by Onufrienko and Bursch, were shared to support station habitability, fostering a cooperative environment focused on efficiency and team cohesion.

Experiments conducted

During the Soyuz TM-34 mission, known as , ESA astronaut Roberto Vittori conducted four biomedical experiments to assess microgravity's physiological impacts on humans. The (Blood Microcirculation Investigation) experiment, led by Vittori, examined variations and microcirculatory blood flow in the to understand cardiovascular adaptations. The CHI RO experiment measured hand and finger grip strength during object manipulation in , evaluating neuromuscular responses. ALTEINO investigated the penetration of cosmic particles through the and crew members' bodies, providing data on risks. Additionally, the VEST experiment tested specialized garments designed for space use, analyzing their performance under microgravity conditions. Mark Shuttleworth, the South African spaceflight participant, oversaw a biotechnology experiment focused on crystallizing HIV proteins in microgravity to improve structural analysis for potential antiviral drug development. This effort aimed to produce higher-quality crystals than possible on Earth, aiding research into HIV-related infections. The mission's biology payload included a live rat to monitor microgravity's effects on mammalian physiology, with observations on general health and potential reproductive impacts in a weightless environment. Sheep stem cells were also cultured aboard to study their proliferation and differentiation in zero gravity, supporting advancements in regenerative medicine by revealing how microgravity influences cellular repair mechanisms. Vittori dedicated time to Earth observation tasks, capturing photographs to support disaster monitoring and environmental analysis from orbit. All experiments proceeded without technical failures, with preliminary results downlinked in real-time to ground teams for analysis, fostering enhanced collaboration between ESA and on microgravity research.

Return to Earth

Undocking preparation

On November 9, 2002, approximately four hours before undocking, the returning crew—Soyuz Commander Sergei Zalyotin, Flight Engineer of the , and Flight Engineer Yuri Lonchakov—boarded Soyuz TM-34 from the during Expedition 5 operations. This crew had arrived at the ISS on , 2002, aboard Soyuz TMA-1 as part of the 10-day Odissea visiting mission. The crew initiated reactivation of the spacecraft's systems, which had remained largely dormant for nearly seven months since docking to the Zarya module's port on April 27, 2002. This process, conducted from 11:20 a.m. to 12:20 p.m. , involved verifying functionality, readiness, and communication configurations to prepare for independent flight. The previous day, Zalyotin and Lonchakov had performed a pre-undocking test of the system (MCS, or "Chaika-3"), confirming the Kurs and docking system's autonomy for separation maneuvers. Cargo transfer focused on returning scientific results and equipment, with the crew stowing items such as the SYMPATHO cardiovascular monitoring , immunology samples, LSO lighting effects data, and hardware from the GCF-B and experiments, totaling around 20 kg of materials. Zalyotin handled the SYMPATHO transfer, while Lonchakov powered down and disassembled the LSO setup, and De Winne moved GCF-B and components to the orbital module. From 12:05 to 12:20 p.m. , the departing crew conducted a farewell ceremony with Expedition 5 members Valery Korzun, , and Sergei Treschev, documented via TV downlink from the ISS. Hatches between Soyuz TM-34 and the ISS were then sealed from 12:20 to 12:40 p.m. , isolating the descent module while preparing the orbital module for later jettison during reentry. With Soyuz TMA-1 docked since October 30 and verified operational as the new emergency lifeboat, the departing crew's undocking would leave the ISS fully equipped for crew safety.

Reentry and landing

Soyuz TM-34 undocked from the nadir port of the Zarya module at 20:44 UTC on November 9, 2002, with springs providing the initial separation impulse to distance the spacecraft from the International Space Station. The maneuver proceeded nominally, allowing the vehicle to begin its independent trajectory for return to Earth. Approximately 2 hours and 25 minutes after undocking, the deorbit burn commenced at an orbital altitude of around 400 , delivering a delta-V of approximately 100 m/s over a of and 39 seconds, which lowered the perigee to about 10 and committed the spacecraft to atmospheric reentry. The reentry was crossed at roughly 100 altitude, about 3 hours and 15 minutes post-undocking, initiating the descent phase. During descent, the vehicle experienced peak heating of approximately 1,600°C and deceleration loads up to 4 at around 40 altitude, with the main deploying at 10.7 to ensure a controlled . The descent module touched down at 00:04 UTC on November 10, 2002, approximately 100 km northeast of Arkalyk in , under night conditions with strong winds contributing to a harder-than-nominal landing. Recovery teams from swiftly extracted the crew— Sergei Zalyotin, Yuri Lonchakov, and Frank —who underwent post-landing medical evaluations that confirmed nominal health status despite the challenging touchdown.

Legacy

Notable firsts

Soyuz TM-34 marked several milestones, particularly in international participation and . It carried , the first South African citizen to reach , who also became the second private tourist following Tito's 2001 flight. Shuttleworth self-funded his approximately $20 million mission through , highlighting the emerging commercial viability of short-duration ISS visits. The mission advanced (ESA) involvement in ISS operations. Roberto Vittori, an Italian , flew as flight engineer on his debut , becoming the first Italian to launch aboard a Russian vehicle and conducting experiments that laid groundwork for future ESA contributions to the station. Additionally, Soyuz TM-34 served as the return vehicle for Belgian during his inaugural space mission (Odissea), making him the first Belgian to visit the ISS via and underscoring Belgium's entry into sustained European crew rotations. As the third dedicated ISS taxi flight (EP-3), Soyuz TM-34 demonstrated the reliability of for crew exchanges, with its crew docking on April 27, 2002, after a two-day automated approach and conducting joint operations before undocking on May 5. This visiting mission format ensured continuous lifeboat availability for resident crews, solidifying 's role in ISS logistics. Shuttleworth's participation amplified public engagement with . His in-orbit , including school contacts and a video link with South African President during Freedom Day celebrations, inspired interest in space among African youth and fostered continental pride in scientific achievement. broadcasts of the mission reached millions worldwide, broadening awareness of the ISS's international collaboration.

Technical transition

Soyuz TM-34 represented the culmination of the Soyuz-TM spacecraft series, which operated from 1986 to 2002 over 34 missions, providing reliable crew transport and lifeboat capabilities for space stations Mir and the ISS. This flight marked the transition to the upgraded Soyuz-TMA variant, introduced to address evolving requirements for crews, including enhancements to features such as improved "soft landing" engines that fired just before touchdown to cushion impact and reduce deceleration forces on the crew. The also signified the end of crewed launches atop the rocket, a workhorse since the that was thereafter phased out for , with its final uncrewed flights occurring in 2017. During its attachment to the ISS from April 27 to November 9, 2002, Soyuz TM-34 remained docked for approximately 196 days and 12 hours, demonstrating the viability of long-term storage as a station lifeboat without significant degradation of critical systems. Key insights from the extended docking period validated Soyuz's role in scenarios and informed refinements in the TMA series, such as adjustable crew couches for better accommodating diverse body sizes and optimized layouts to mitigate G-forces during launch, reentry, and . The operational data gathered, including performance under prolonged orbital exposure, contributed to bolstering the reliability of subsequent missions supporting continuous ISS habitation.