iBet uBet web content aggregator. Adding the entire web to your favor.
iBet uBet web content aggregator. Adding the entire web to your favor.



Link to original content: http://www.russianspaceweb.com/kliper.html
Kliper (Clipper) spacecraft


Kliper reusable space plane

Kliper

insider content
DEVELOPMENT HISTORY
design

Designing the Soyuz replacement: 2000-2005

Since 1970s, Russian engineers pondered over possible configurations of a new spacecraft, which could replace the venerable but relatively small Soyuz. Before the collapse of the USSR, RKK Energia -- the developer of the Soyuz -- attempted to tackle the issue several times, however technical and financial problems kept all these efforts from coming to fruition. However, as soon as the Russian economy started emerging from the post-Soviet transition, developers renewed their search for the Soyuz replacement.

2006

The 2006 configuration of the winged orbiter

By January 2006, when the Russian government launched a tender for the development of the next generation spacecraft to replace Soyuz, RKK Energia conceptualized a new configuration of the Kliper spacecraft. Along with the improved aerodynamic shape, RKK Energia returned to the use of the expendable habitation and propulsion module, since the federal tender required a single spacecraft design, rather than a "system."

alternatives

Competitors: Alternative designs for the Kliper

According to the Russian law, federal funding for the development of the Kliper spacecraft could not be provided before the official tender of for the project had taken place. Although many considered the tender a formality and RKK Energia's design as the favorite, Khrunichev enterprise in Moscow submitted its proposals for the follow-on to the TKS spacecraft and NPO Molnia pushed the modified design of the MAKS mini-shuttle, it proposed in the 1990s. The closed tender was officially held from January 18 to July 19, 2006.

lunar

Into deep space

Early on in the program, RKK Energia advertised the Kliper, as a multifunctional vehicle, potentially capable of supporting missions into deep space. Developers proposed modifications of the spacecraft, which could play role in lunar exploration and even serve as a return vehicle in the expeditions to Mars.

international

International cooperation

Practically on a day the existence of the Kliper project was revealed to the public, Russian officials admitted that despite its pragmatic and cost-conscious design, the new orbiter had little chance getting off the ground without financial backing from abroad. No surprisingly, the Russian Space Agency, Roskosmos, and RKK Energia launched an aggressive marketing effort to sell the Kliper to international partners. However, they had little room to shop around.

TECHNICAL DESCRIPTION
photos

Kliper photo gallery

Image collection showing full-scale development prototypes of the Kliper spacecraft at RKK Energia's test station, KIS, in Korolev near Moscow in 2005.

 
fuselage

Fuselage

The Kliper sported a reusable aerodynamically active fuselage, protected by special tiles, not unlike those on the US Space Shuttle and the Soviet Buran. The original design of the Kliper included so-called "lifting body," a wingless iron-shaped fuselage, which would enable the craft to maneuver in the Earth atmosphere during the reentry. However, by the end of 2004, engineers favored a winged body, which would increase the maneuverability of the vehicle, while reducing g-loads on the crew.

interior

Cabin module

The main habitable volume onboard the Kliper would be contained inside a cone-shaped cabin structure. The lower half of the cabin would be enclosed within the main fuselage, while the top half would be covered with special protective shield. The cabin carried all avionics, flight control, and life-support systems.

propulsion

Propulsion and habitation module

The original design of the Kliper spacecraft included a special detachable habitation and service module mounted behind the reentry glider. In its turn, the module would consist of two structural sections: a habitation module, closely resembling the one on the Soyuz spacecraft and the doughnut-shaped service module. The habitation module would contain docking port, toilet and other life-support systems. In 2005, most functions of the habitation and propulsion module were transferred to a separately launched Parom space tug.

launcher

Launch vehicle

According to original plans, Kliper would be launched on top of a yet-to-be developed Onega booster -- a heavily modified Soyuz rocket. Given virtually nonexistent chances of obtaining funding for the Onega, RKK Energia considered the operational Zenit booster with similar capabilities, as well as yet-to-be built Angara-3 rocket. The Soyuz-3 rocket was also considered as the alternative. However, upon "splitting" the spacecraft into two independent vehicles in 2005, RKK Energia settled on the smaller Soyuz-2-3 launcher. However alternative options still remained on the table as of beginning of 2006.

Parom

Parom orbital tug

During 2005, RKK Energia embarked on another major revision of the Kliper. It would be the third significant re-shaping of the spacecraft configuration, since it was first unveiled to the public in February 2004. The latest design included not one but two vehicles: the Kliper reentry glider itself and the Parom (ferry) orbital tug -- a new element of the system, which would be launched by a separate rocket.

FLIGHT PROFILES
fllight

Nominal flight profile in Earth orbit

In its latest configuration, the Kliper would be launched on top of the three-stage Soyuz-2-3 rocket and upon reaching the orbit would wait for the arrival of the Parom orbital tug, which would boost the vehicle to the space station. The Parom would use its free port on the "tail" side of the vehicle to dock with the space station. After undocking, the Parom would remain in orbit for the next mission, while the Kliper would reenter and land on the runway as a glider.

SAS

Emergency escape profiles

In the original concept, the Kliper would be topped with the emergency escape rocket, which would pull the glider away from the failing booster during the launch, as it was done onboard the Soyuz spacecraft. However in the effort to save weight and simplify aerodynamic flow around the nose of the orbiter, engineers decided to move the escape rockets to the launch vehicle adapter on the tail of the spacecraft, where they could double as the orbital maneuvering system.