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OK-GLI
BTS-02
Atmospheric Buran testbed currently on display in Technik Museum Speyer
Construction numberOK-0.02
CountrySoviet Union
StatusAt the Technik Museum Speyer, Germany
First flightFlight 1
10 November 1985
Last flightFlight 25
15 April 1988
No. of missions25 test flights

The OK-GLI (Russian: Орбитальный корабль для горизонтальных лётных испытаний, ОК-ГЛИ, romanizedOrbital'nyy korabl' dlya gorizontal'nykh lotnykh ispytaniy, lit.'Orbital ship for horizontal flight tests'), also known as Buran Analog BTS-02 (Russian: БТС-02, Большой транспортный самолёт второй, romanizedbolshoi transportny samolyot vtoroi, lit.'big transport aircraft, the second'), was a Soviet atmospheric test vehicle ("Buran aerodynamic analogue") of the orbital Buran spacecraft. It was constructed for the Buran programme in 1984, and was used for 25 test flights between 1985 and 1988 before being retired.

The aircraft was subsequently put on exhibit in Australia (2000), Bahrain (2002) and since 2008 has been on exhibit at the Technik Museum Speyer in Germany.

Construction

[edit]

The development of the Buran vehicles by the Soviet Union began in the late 1970s as a response to the Space Shuttle program of the United States. The construction of the orbiters began in 1980, and by 1984 the first full-scale Buran was rolled out. The first suborbital test flight of a scale-model took place as early as July 1983. As the project progressed, five additional scale-model flights were performed.

The OK-GLI (Buran Analog BST-02) test vehicle ("Buran aerodynamic analogue") was constructed in 1984. It was fitted with four AL-31 jet engines mounted at the rear (the fuel tank for the engines occupied a quarter of the cargo bay). This Buran could take off under its own power for flight tests, in contrast to the American Enterprise test vehicle, which was entirely unpowered and relied on an air launch.

The jet engines were used to take off from a normal landing strip, and once it reached a designated point, the engines were shut down and the OK-GLI glided back to land. This provided valuable test data about the handling characteristics of the Buran design. The powered-engine approach significantly differed from the carrier plane/air drop method used by the US and the Enterprise test craft.

Test flights

[edit]
Buran flight test Orbiter OK-GLI

Until the end of the Soviet Union in 1991, seven cosmonauts were allocated to the Buran programme. All had experience as test pilots and flew on the OK-GLI test vehicle. They were: Ivan Bachurin, Alexei Borodai, Anatoli Levchenko, Aleksandr Shchukin, Rimantas Stankevičius, Igor Volk and Viktor Zabolotsky.[citation needed]

In total, nine taxi tests and twenty-five test flights of the OK-GLI were performed,[1] after which the vehicle was "worn out". All tests and flights were carried out at the Zhukovsky Air Base, outside Moscow.

Date Description Maximum speed Maximum altitude Time Crew/notes[2]
29 December 1984 Taxi test 1 45 km/h 5 minutes Rimantas Stankevičius, Igor Volk
2 August 1985 Taxi test 2 200 km/h 14 minutes Rimantas Stankevičius, Igor Volk
5 October 1985 Taxi test 3 270 km/h 12 minutes Rimantas Stankevičius, Igor Volk
15 October 1985 Taxi test 4 300 km/h Rimantas Stankevičius, Igor Volk
10 November 1985 Flight 1 480 km/h 1500 m 12 minutes Rimantas Stankevičius, Igor Volk
15 November 1985 Taxi test 5 170 km/h 12 minutes Rimantas Stankevičius, Igor Volk
3 January 1986 Flight 2 520 km/h 3000 m 36 minutes Rimantas Stankevičius, Igor Volk
26 April 1986 Taxi test 6 14 minutes Anatoli Levchenko, Alexandr Shchukin
27 May 1986 Flight 3 540 km/h 4000 m 23 minutes Rimantas Stankevičius, Igor Volk
11 June 1986 Flight 4 530 km/h 4000 m 22 minutes Rimantas Stankevičius, Igor Volk
20 June 1986 Flight 5 600 km/h 4500 m 25 minutes Anatoli Levchenko, Alexandr Shchukin
28 June 1986 Flight 6 650 km/h 5000 m 23 minutes Anatoli Levchenko, Alexandr Shchukin
10 December 1986 Flight 7 700 km/h 4000 m 24 minutes First automatic landing Rimantas Stankevičius, Igor Volk
23 December 1986 Flight 8 750 km/h 6000 m 17 minutes Rimantas Stankevičius, Igor Volk
29 December 1986 Flight 9 17 minutes Anatoli Levchenko, Alexandr Shchukin
16 February 1987 Flight 10 28 minutes Rimantas Stankevičius, Igor Volk
25 February 1987 Flight 11 19 minutes Rimantas Stankevičius, Igor Volk
29 March 1987 Taxi test 7 2 minutes Anatoli Levchenko, Alexandr Shchukin
30 March 1987 Taxi test 8 25 minutes Anatoli Levchenko, Alexandr Shchukin
21 May 1987 Flight 12 20 minutes Anatoli Levchenko, Alexandr Shchukin
25 June 1987 Flight 13 19 minutes Rimantas Stankevičius, Igor Volk
5 October 1987 Flight 14 21 minutes Automatic landing Shchukin, Igor Volk
15 October 1987 Flight 15 19 minutes Ivan Bachurin, Alexei Borodai
16 January 1988 Flight 16 Rimantas Stankevičius, Igor Volk
24 January 1988 Flight 17 Ivan Bachurin, Alexei Borodai
23 February 1988 Flight 18 22 minutes Rimantas Stankevičius, Igor Volk
4 March 1988 Flight 19 32 minutes Rimantas Stankevičius, Igor Volk
12 March 1988 Flight 20 Ivan Bachurin, Alexei Borodai
23 March 1988 Flight 21 Ivan Bachurin, Alexei Borodai
28 March 1988 Flight 22 Ivan Bachurin, Alexei Borodai
2 April 1988 Flight 23 20 minutes Rimantas Stankevičius, Igor Volk
8 April 1988 Flight 24 Rimantas Stankevičius, Igor Volk
15 April 1988 Flight 25 19 minutes Rimantas Stankevičius, Igor Volk
29 December 1989 Taxi test 9 Rimantas Stankevičius, Viktor Zabolotsky

Post-retirement

[edit]

Zhukovsky Air Base

[edit]
OK-GLI at MAKS-1997
OK-GLI in Sydney

After the program was cancelled, the OK-GLI was stored at Gromov Flight Research Institute, near Moscow, where it was displayed during the annual MAKS air show.

Sydney, Australia

[edit]

In 2000, the OK-GLI was sold to an Australian company called the Buran Space Corporation, owned by Australian astronaut Paul Scully-Power. It was disassembled and transported by ship to Sydney, Australia, via Gothenburg, Sweden;[3] arriving on 9 February 2000 and appeared as a static tourist attraction under a large temporary structure in Darling Harbour for a few years.[4][5]

Upon reassembly, the OK-GLI was put on display in a temporary enclosure for the 2000 Summer Olympics in Sydney. Visitors could walk around and inside the vehicle (a walkway was built along the cargo bay), and plans were in place for a tour of various cities in Australia and Asia. The owners went into bankruptcy after the Olympics, and the vehicle was moved into the open air and stored for a year in a fenced-in parking lot and protected by nothing more than a large tarpaulin, where it suffered deterioration and repeated vandalism.[6]

The OK-GLI was then offered for sale, including by a radio auction on the American News 980 KFWB-AM with a starting price of US$6 million,[7] however it did not receive any genuine bids.[8]

Bahrain

[edit]
OK-GLI on the Rhine
OK-GLI at Technik Museum Speyer

In September 2004 a team of German journalists found the OK-GLI in Bahrain, having been abandoned after it was on display as an attraction of the 2002 "Bahrain Summer" festival.[9][10]

It was then bought by the Sinsheim Auto & Technik Museum, to be transported to Germany in 2005.[11] Due to legal issues, it remained in Bahrain for several years, pending settlement of an international court case over fees.[12]

Technik Museum Speyer, Germany

[edit]

On 4 March 2008 the OK-GLI began its journey by sea to the Technik Museum Speyer where it was refurbished and serves as a walk-in exhibit.[13]

The journey got off to an inauspicious start when, during the transfer from the storage barge to the ship, there was a failure of the aft spreader (part of the lifting mechanism) and the tail of the vehicle dropped from just above deck height to the bottom of the hold. No one was hurt and both the ship and vehicle seemed to suffer only minor damage.

See also

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References

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Further reading

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[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

OK-GLI

View on Grokipedia
from Grokipedia
The OK-GLI (also designated BTS-002 or Buran Analog BST-02) was a full-scale Soviet atmospheric test vehicle developed as part of the Buran space shuttle program to simulate the orbiter's unpowered glide and powered horizontal flight characteristics.[1] Constructed in 1984 at the Myasishchev Experimental Plant (EMZ) in Zhukovsky,[1] it measured 36 meters in length, 16 meters in height, and weighed approximately 80 tons, making it nearly identical in aerodynamics, mass distribution, and inertial properties to the operational Buran spacecraft.[2][3] Unlike the spacefaring Buran, the OK-GLI was fitted with four AL-31F turbofan engines mounted in the tail section—two with afterburners—to enable independent takeoffs and up to 30 minutes of flight time, powered by a propellant tank in its cargo bay.[1][3] The vehicle's primary role was to test and refine the Buran program's flight control systems, including a hybrid analog-digital setup, automatic piloting, and landing procedures, as well as to train cosmonauts in manual control during approach and touchdown.[1] Between November 10, 1985, and its final flight on April 15, 1988, the OK-GLI completed 25 atmospheric test flights and nine taxi tests at the Gromov Flight Research Institute airfield near Zhukovsky, Russia, with pilots such as Igor Volk and Rimantas Stankevichus at the controls.[2][3] Of these, 15 flights featured fully automated landings, which successfully validated the software and hardware critical to the Buran's unmanned orbital mission on November 15, 1988—the program's only spaceflight before its termination in 1993 due to the Soviet Union's dissolution and funding cuts.[1] The OK-GLI also incorporated ejection seats for the crew, thermal protection tiles made of foam-based material, and onboard systems for navigation, acceleration measurement, and temperature monitoring, all mirroring the final orbiter design.[1][3] After retirement, the OK-GLI faced a peripatetic post-program life, including storage in Russia, a temporary exhibition at the 2000 Sydney Olympics, and legal disputes during transport through Bahrain, before being sold in 2004 to the Deutsches Technikmuseum in Sinsheim, Germany.[1][3] It arrived at the adjacent Technik Museum Speyer in early 2008, where it remains a centerpiece of Europe's largest spaceflight exhibition, accessible to the public as a preserved artifact of Cold War-era aerospace engineering.[2]

Development and Design

Role in Buran Programme

The Buran programme was initiated by the Soviet Union in 1974 as a direct response to the United States' Space Shuttle program, amid Cold War tensions where Soviet leaders feared the American shuttle could be repurposed for military actions such as capturing satellites or launching nuclear strikes.[4][5] Geopolitical motivations drove the effort to develop a comparable reusable spacecraft, aiming to maintain parity in space capabilities and counter perceived threats from U.S. technological advancements.[6] Within this initiative, the OK-GLI served as the Buran Analog BST-02 (construction number OK-0.02), a full-scale test vehicle specifically engineered for unpowered gliding and powered atmospheric flights to validate key aspects of the Buran design.[1] It functioned as an aerodynamic prototype, replicating the orbital vehicle's external shape, center of gravity, and inertial characteristics to simulate real-world flight behaviors without entering space.[3] Unlike the orbital Buran vehicles intended for space missions atop the Energia rocket, the OK-GLI was never designed for spaceflight and focused exclusively on suborbital simulations of the re-entry and landing phases to ensure safe atmospheric return profiles.[7] This approach allowed for repeated testing of approach, landing, and taxi maneuvers in a controlled environment, distinct from full orbital operations.[8] The project was led by NPO Molniya as the primary design organization under Chief Designer Gleb Lozino-Lozinskiy, with construction handled at the Tushino Machine-Building Plant near Moscow.[9][10] Similar to NASA's Space Shuttle Enterprise, the OK-GLI provided essential non-orbital validation but uniquely incorporated jet engines for independent takeoffs, enabling more comprehensive powered flight evaluations.[11]

Technical Specifications

The OK-GLI, as a full-scale atmospheric test analogue of the Buran orbiter, measured 36.37 meters in length, with a wingspan of 23.92 meters and a height of 16.35 meters on its landing gear.[12] Its empty mass was approximately 80 tonnes, reflecting the structural similarities to the production Buran while incorporating modifications for repeated ground and flight testing.[13] The airframe was constructed primarily from aluminum alloys, augmented with heat-resistant tiles akin to those on the orbital Buran to simulate thermal and aerodynamic stresses during atmospheric reentry approaches.[1] Internal reinforcements, including titanium struts, maintained the center of gravity and inertial properties of the full Buran design, while the landing gear was enhanced with improved kinematics and a protective shield to mitigate impact loads across multiple cycles, enabling over 25 test flights.[1] Propulsion for the OK-GLI consisted of four externally mounted AL-31 turbofan engines at the rear, derived from the AL-31F used in Soviet fighters, each delivering up to 122.6 kN of thrust with afterburner to facilitate powered takeoffs to altitudes of around 1,000 meters before gliding.[1][14] Two of these engines featured afterburners for enhanced initial climb performance, distinguishing the test vehicle from the unpowered orbital Buran and aligning with programme goals for reusable spacecraft handling.[1] Avionics included an integrated digital fly-by-wire flight control system with analog backups, supporting both manual and automated operations for evaluating landing precision.[1] The cockpit accommodated two crew members in ejection seats, simulating pilot and flight engineer roles, with telemetry monitoring over 2,300 flight control parameters and 2,200 sensor channels to validate the Buran's automatic landing capabilities.[1][15] The fuel system utilized approximately 25% of the cargo bay for jet fuel tanks, providing sufficient capacity for short powered flights without any orbital propulsion elements such as main engines or orbital maneuvering systems.[1] This configuration, with tanks integrated into the 18.55-meter-long payload bay, supported the OK-GLI's role in subsonic and approach testing while preserving the structural envelope of the production orbiter.[15]

Construction and Preparation

Assembly Process

The assembly of the OK-GLI, an atmospheric test vehicle for the Buran programme, began in 1984 at the Tushino Machine-Building Plant (TMZ) in Moscow, under the auspices of NPO Molniya, and was completed later that year.[16][10] This timeline aligned with the Buran programme's emphasis on reusable spacecraft design, ensuring the OK-GLI replicated key structural elements for realistic testing.[16] Key phases of construction included airframe welding and structural assembly, utilizing automated welding techniques for titanium alloys and aluminum-magnesium alloys such as D16 and 1201 at TMZ's specialized facilities in Buildings 110 and 111.[16][10] Installation of the thermal protection system (TPS) tiles followed, incorporating approximately 38,800 foam-based heat-resistant tiles to simulate re-entry stresses despite the vehicle's non-orbital role.[16] Initial systems checkout involved preliminary verifications of structural integrity and basic avionics at the plant. Following completion, the OK-GLI was transported in 1984 to Zhukovsky Air Base via a combination of ground and water convoy, including barge transit along the Moscow River and Himkinsky reservoir, to facilitate final integration and ground testing.[16][10] Throughout the process, quality control adhered to rigorous Soviet aerospace standards, incorporating non-destructive testing methods such as electric, radioisotope, and acoustic evaluations for the TPS, as well as static load tests at TMZ's Building 112a and later at Baikonur's Dynamic Test Stand to simulate landing stresses and ensure airframe durability.[16][10] These measures, developed in collaboration with institutes like GAP and NIAT, emphasized interchangeability, airtightness, and compliance with ISO 13303/13584 standards for STEP technology.[10]

Engine and Systems Integration

The OK-GLI atmospheric test vehicle underwent significant modifications in 1984 to integrate propulsion systems suitable for powered horizontal flights, distinguishing it from the unpowered orbital Buran orbiters. Four AL-31 turbofan engines, derived from the Sukhoi Su-27 fighter aircraft program, were installed in the tail section to enable independent takeoffs and powered approaches. These engines, with two featuring afterburners for enhanced thrust during initial climb, were mounted at a 4-degree upward angle from the horizontal axis to align with the vehicle's aerodynamic profile while minimizing interference with the planned orbital configuration.[1][3] Fuel infrastructure was adapted by installing internal tanks within the cargo bay, occupying a substantial portion of the available volume, along with dedicated plumbing and refueling mechanisms to support multiple test sorties. This setup provided the necessary jet fuel supply for the engines, enabling the vehicle to conduct up to 25 atmospheric flights between 1985 and 1988 without requiring external drop tanks. The design ensured reliable fuel delivery under varying flight conditions, contributing to the validation of Buran aerodynamics during powered phases.[1] Additional onboard systems were incorporated to enhance safety and operational capability for crewed testing. These included a hydraulic system for controlling wing aerodynamic surfaces, environmental provisions such as foam-based thermal protection and life support for the two-pilot crew, and comprehensive telemetry subsystems linking to ground control at the Zhukovsky Air Development Center. The telemetry captured flight control parameters and sensor data for post-flight analysis. Backup analog flight controls complemented the digital systems, and ejection seats were fitted for pilot safety.[1] Integrating these components presented challenges, particularly in managing the added mass from the engines and fuel tanks, which altered the vehicle's weight balance. Engineers adjusted the configuration to preserve the center of gravity akin to the orbital Buran, ensuring the OK-GLI retained gliding stability for unpowered emergency scenarios or approach-and-landing tests. Ground simulations confirmed that the engines' aerodynamic influence remained negligible, allowing the vehicle to accurately replicate reentry dynamics.[1]

Testing Operations

Ground and Taxi Tests

The OK-GLI conducted nine ground and taxi tests at the Gromov Flight Research Institute (Zhukovsky Air Base) from late 1984 through 1989, with the initial series occurring between December 1984 and November 1985 and reaching speeds of up to 300 km/h on the runway during high-speed rolls.[16] These evaluations served as pre-flight validations to confirm the vehicle's mobility, structural integrity, and subsystem functionality prior to atmospheric flights.[1] The primary objectives encompassed testing steering mechanisms, braking systems, nose wheel steering responsiveness, and the operational performance of the four AL-31 turbojet engines under dynamic ground conditions, including acceleration, deceleration, and simulated taxi maneuvers.[16] Early tests were performed in dual-crew configurations, with Igor Volk participating alongside co-pilots such as Rimantas Stankevicius to evaluate basic handling and control inputs, while subsequent runs incorporated additional crew setups with flight engineers to assess coordinated operations and emergency procedures.[16][17] Test outcomes revealed generally stable performance, though isolated issues, such as tire blowouts under high-speed stress, were addressed through targeted reinforcements.[16] Overall, these ground evaluations provided essential data that informed refinements to the Buran orbiter's design and directly supported the transition to airborne testing.[1]

Atmospheric Flight Tests

The atmospheric flight tests of the OK-GLI commenced on 10 November 1985 with its inaugural powered flight, commanded by cosmonaut Igor Volk and piloted by Rimantas Stankevicius, marking the start of a series designed to validate the Buran orbiter's handling, approach, and landing capabilities under manual and automated control.[18] These tests simulated key phases of shuttle operations, including powered climbouts followed by unpowered glides, and were exclusively conducted at the Zhukovsky Air Base (LII airfield) near Moscow, utilizing its approximately 3 km runway for takeoffs and landings.[1] Over the program, which spanned until 15 April 1988, the OK-GLI completed 25 flights, all involving powered takeoffs to altitudes of 500–1,000 m before transitioning to gliding descents and runway touchdowns to assess low-speed aerodynamics and control surfaces.[18] Later flights progressively emphasized automated systems, including full automatic approaches and landings; a key milestone occurred on the 10th flight on 16 February 1987, when Volk and Stankevicius achieved the first fully automated descent and touchdown from the key point at 4 km altitude.[1] By the 14th flight on 5 October 1987, commanded by Aleksandr Shchukin with Volk as pilot, the automated landing system was certified for operational use, confirming the Buran's ability to execute precise, hands-off recoveries.[18] Six cosmonauts rotated through the two-seat cockpit across the flights, accumulating approximately 50 hours of total airtime while gathering data on thermal tile performance and structural integrity post-landing.[1] Rimantas Stankevicius logged the most time, participating in 14 flights, including the initial and final missions alongside Volk, while Anatoli Levchenko, Aleksandr Shchukin, Ivan Bachurin, and Aleksei Borodai handled subsequent rotations to build crew proficiency in steep descents and emergency scenarios.[18] The final flight on 15 April 1988 reiterated automatic landing validation under varied wind conditions, culminating the test series and paving the way for the Buran's orbital debut.[18]

Post-Retirement History

Storage at Zhukovsky Air Base

Following the completion of its 25th and final atmospheric test flight on April 15, 1988, the OK-GLI was retired amid escalating funding cuts to the Buran programme, driven by the Soviet Union's deepening economic difficulties in the late 1980s.[18][12] The vehicle, which had transitioned from active testing operations at the Gromov Flight Research Institute, was placed in open-air storage at the Zhukovsky Air Base near Moscow, where it remained largely inactive from 1988 until early 2000.[7] During this period, the OK-GLI received minimal maintenance from personnel at the Gromov Flight Research Institute, the base's managing entity and predecessor to modern Russian space agencies, including occasional roll-outs for static displays at air shows such as the MAKS exhibitions in the 1990s.[7] No major overhauls were undertaken, though basic protective measures like tarpaulin coverings were sporadically applied to shield the airframe from environmental damage when not on exhibit.[1] Exposure to the elements at Zhukovsky led to gradual deterioration of the OK-GLI's condition, with weathering causing faded paint on the fuselage and wings, as well as minor surface corrosion on exposed metal components during the 1990s.[7] Periodic structural assessments were conducted by institute engineers to monitor integrity, revealing no critical failures but highlighting the impacts of prolonged outdoor storage.[1] The OK-GLI's placement in storage alongside other Buran programme hardware, including incomplete orbiter mockups and test articles, underscored the project's terminal decline, culminating in the official cancellation of the Energia-Buran effort in 1993 amid the post-Soviet economic collapse.[12] This inert lineup at Zhukovsky symbolized the abrupt end of Soviet ambitions for a reusable space shuttle fleet.[7]

International Exhibitions and Relocations

Following its storage at the Zhukovsky Air Base near Moscow, the OK-GLI was relocated internationally starting in 2000 to serve as a public exhibit highlighting Soviet space achievements.[7] In February 2000, the OK-GLI was transported by barge from a Moscow airbase, via stops in New Brunswick, Canada, and the Panama Canal, to Sydney, Australia, where it arrived on February 9 for display at Darling Harbour as part of a space-themed exhibition tied to the Summer Olympics.[19] The vehicle, owned by NPO Molniya and leased to the Buran Space Corporation, was disassembled for the journey and reassembled on-site in a temporary structure to attract tourists, emphasizing the Buran programme's technological legacy.[7] However, low attendance led to the company's bankruptcy in 2001, after which the OK-GLI was stored in an outdoor parking lot until 2002, suffering vandalism and exposure to the elements during this period.[7] In 2002, amid ongoing ownership transitions, the OK-GLI was sold to Space Shuttle World Tour and moved to Bahrain via a combination of sea and air transport, where it was briefly displayed at Manama Port during the Summer Festival before being disassembled and stored at the Sitra yard near Bahrain International Airport.[7] The exhibit aimed to showcase Cold War-era space rivalry but faced delays and eventual cancellation due to logistical issues, with the vehicle remaining in open storage until 2004 amid escalating disputes over unpaid fees totaling $320,000 between NPO Molniya and the Bahraini buyer.[7] These legal battles, adjudicated in the London Court of International Arbitration, prolonged the OK-GLI's limbo, exposing it to environmental wear in the region's arid but dusty conditions.[7] After resolution of the ownership conflicts with Russian authorities in early 2008, the OK-GLI was acquired by the Technik Museum Speyer in Germany and transported by sea from Bahrain, arriving in Rotterdam in mid-April before being moved inland by barge and heavy-lift trucks.[20] Disassembled for the voyage to accommodate its 36-meter length and approximately 80-tonne mass, it was reassembled on-site in a purpose-built hangar, opening to the public on October 3, 2008, as a centerpiece of the museum's spaceflight collection.[7] The relocation underscored the vehicle's cultural role in educating global audiences on the Buran programme's innovations in reusable spacecraft design.[20] As of 2025, the OK-GLI remains a permanent indoor exhibit at the Technik Museum Speyer, where it has undergone restoration to preserve its structural integrity and historical features, drawing significant crowds as part of Europe's largest manned spaceflight display.[2] The museum's annual visitor numbers exceed 500,000, with the OK-GLI serving as a key attraction that highlights international collaboration in space heritage preservation; it continues to be preserved indoors with periodic maintenance to protect its historical features.[21] Throughout its relocations, the OK-GLI faced substantial challenges, including transport logistics that required specialized disassembly and heavy-lift equipment. Preservation issues were prominent, such as vandalism during outdoor storage in Sydney and general deterioration from exposure in Bahrain's open yards, complicating efforts to maintain the artifact's condition amid protracted international disputes.[7]
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