The H-2 shuttle concept was a two-stage system with horizontal takeoff and landing. The appearance and layout of the system was similar to the West German Saenger-II. Launch mass would be 330 tonnes. An aerospace plane with accommodation for two to three crew and a payload of 6 tonnes would be mounted atop the first stage. It was felt by the designers that the horizontal launch method would result in lower system weight and provide a more flexible system that could be operated from any airfield.
The hypersonic lifting body first stage would be 85 m long and 12 m in diameter with a 36 m wingspan and three vertical stabilisers. The stage would have a launch mass of 198 tonnes and a landing mass of 79 tonnes. At launch the stage would be powered by six Lox/LH2/Methane engines with a thrust of 40 tonnes each and a specific impulse of 370 seconds. These would be supplemented by eight LH2-powered direct-flow ramjet engines with a specific impulse of 3500 seconds. The rocket engines alone would power the vehicle from the runway to a speed of Mach 0.8, at which point the ramjets would ignite. Up to an altitude of 9 km and a speed of Mach 1.8 to 2.0 the rocket and ramjet engines would operate in parallel to provide a constant acceleration, the rocket engines throttling back as the ramjets increased in thrust. Thereafter the first stage would be powered by ramjet thrust alone until it released the orbiter at an unspecified hypersonic speed. It would then return to its launch base.
With a high-aspect ratio version of the US space shuttle's double delta wing, the orbiter would have a length of 40 m, a wingspan of 12 m, and a fuselage 4 m in diameter. The orbiter would have a launch mass of 132 tonnes, a landing mass of 25.3 tonnes, and would be equipped with four Lox/LH2 engines with a specific impulse of 460 seconds and thrust of 21 tonnes each. These would take the stage to an elliptical orbit of 100 to 300 km altitude. Further engine manoeuvres could take the spacecraft up to a 500 km altitude orbit.
China began preliminary work on manned spaceflight again in July 1985. The decision came against a background of vigorous international space activity. The United States had its Strategic Defence Initiative and Space Station Freedom. The Soviet Union had its Buran shuttle system, Mir and Mir-2 space stations, and its own star wars program. Europe was developing the Hermes manned spaceplane, and Japan the Hope winged spacecraft. Even India and China were taking on ambitious space projects. It seemed China would have to take action to remain a world power.
Ren Xin Min, the leading Chinese rocketry expert of the time, believed that China should make a space station its national goal. This would develop all aspects of space technology, including modern launch vehicle capabilities. In early spring 1986, members of a standing committee of the Chinese Academy of Sciences (Wang Da Hang, Wang Ganchang, Yang Jiachi, Chen Fangyun) proposed a family of seven Project 863 plans to accelerate Chinese technical development. These numbered plans covered biology, astronautics, information technology, military technology, automation, energy, and materials science. Astronautics plan 863-2 included section 863-204 space transportation system, which would service the 863-205 space station. It was estimated that two years would be needed for concept studies.
An expert group was established for the 863-204 shuttle, and issued a tender call to Chinese industry within two months of starting work. Two months later 11 alternate proposals were delivered, of which six were selected for feasibility studies. These were delivered in June 1988. The six proposals, ranked in order of technical sophistication, were:
Seventeen experts met in Harbin during 20-31 July, 1988, to make final assessments and recommend a course of action. It finally concluded that development of a winged reusable space shuttle system was acceptable as a national long-term goal to guide technology development But China did not have aerodynamic or rocket technology to develop a hypersonic aircraft with reusable rocket engines. The two designs that were considered technically achievable ranked very close in the expert's rating system - the Tian Jao 1 with a score of 83.69, and the Department 508 manned space capsule with a score of 84.00.
The final 863-204 Expert Commission report in July 1989 advocated building the manned capsule, with a first flight date of 2000. This would satisfy the leadership's desire for an early Chinese manned space capability, and establish the essential earthly infrastructure and spacecraft subsystems technology for more advanced systems. However in parallel development of technology for a two-stage-two-orbit horizontal takeoff and landing reusable space shuttle would be pursued, with a first flight date of 2015.
The report failed to impress the government. Chinese leader Deng Xiaoping rejected both plans, saying that neither could be flying in his lifetime. The Chinese space establishment went back to the drawing board. However within three years the plan for a manned capsule would be resurrected as Project 921, which would make its first manned flight in 2003 as the Shenzhou spacecraft.
Some work continued on advanced manned spaceplanes. Some photographs have been released of a wind tunnel model. The narrow fuselage and wing tip vertical stabilisers were strongly reminiscent of the United States' X-20 Dynasoar spaceplane of the 1960's. Another picture shows computer simulations of airflow around a different double-delta winged spacecraft. This has an appearance very close to the US space shuttle, but without a tail.
The first model of a planned manned shuttle was exhibited at Hannover Expo 2000. This showed a double-delta winged spaceplane with a single vertical stabiliser, equipped with three high-expansion engines. Based on the size of the presumed two crew side-by-side cockpit, dimensions could be very roughly estimated as a wingspan of 8 m and a length of 12 m, and a total mass of 12 tonnes. This seemed about half the size but the same configuration as the six-engined orbiter designed in the mid-1990's.
Any Chinese shuttle project will probably be realised in a different form than that originally planned some time in the first half of the next century. The Hannover model suggests that a modest spaceplane, launched by expendable boosters, would be flown before proceeding to any full-scale reusable winged launch vehicles. By 2002 Chinese space scientists were speaking of a two-stage to orbit, ballistic recoverable transport as the first recoverable Chinese space vehicle. The decisions by Russia and America in 2004 to abandon winged designs for the next generation of manned spacecraft and stick to manned capsules may mean that China will abandon any plans for a similar design.
LEO Payload: 6,000 kg (13,200 lb) to a 500 km orbit at 52.00 degrees.
Status: Design 1988.
Gross mass: 330,000 kg (720,000 lb).
Payload: 6,000 kg (13,200 lb).
Height: 85.00 m (278.00 ft).
Diameter: 12.00 m (39.00 ft).
Thrust: 2,400.00 kN (539,500 lbf).
Apogee: 500 km (310 mi).