An air launched rocket for placing payloads in earth orbit comprising a lifting body having a cross sectional shape of an airfoil extending in a spanwise direction between a first and a second wing tip. The lifting body further comprises at least one rocket engine positioned at the first wing tip oriented for propelling the lifting body in the spanwise direction. The air launched rocket is combined with a carrier aircraft which is removably attached to a suction surface of the airfoil.

An arcjet thruster system for a spacecraft is provided. The arcjet thruster system may include a power supply that includes a radio-frequency start power supply and a continuous direct-current power supply, each selectively coupled to electrodes of an arcjet for initiation and maintenance of an arc between the electrodes. A radio-frequency/direct-current control module may be provided for selectively coupling the radio-frequency start power supply and a continuous direct-current power supply. The radio-frequency start power supply may be used to initiate an arc that is then sustained by the continuous direct-current power supply.

A controller arrangement includes a controller, an actuator, and a measuring element. The measuring element captures a control variable with a predetermined sampling rate in consecutive sampling cycles and transmits it to the controller. The controller compares the control variable with a predetermined reference variable and determines how the control variable differs from the reference variable. The controller, in a first cycle, starts with a predetermined regulating variable and outputs it to the actuator, and subsequently determines how the control variable differs from the reference variable; in a second cycle, the controller varies the regulating variable based on the difference of the control variable from the reference variable in the first cycle, and outputs it to the actuator, and subsequently determines how the control variable differs from the reference variable; in a third cycle, the controller varies the regulating variable and outputs it to the actuator.

Disclosed is a non-legged reusable air-launched carrier rocket mounted on a mid-line pylon of a supersonic fighter or a bomber fuselage and its length is not limited by the front undercarriage of the carrier aircraft. The rocket body has opposite upper and lower elongated openings at the position of the front undercarriage of the carrier aircraft. When running, the upper cover and lower cover of the openings open to the rocket body to form a vertical passage, so that the front undercarriage can be normally placed down. After taking off, the upper cover and lower cover close to form a cavity in the rocket body, and the cavity is then filled with liquid from the liquid tank in the carrier aircraft. The configuration is similar to the Roton carrier rocket.

A spacecraft bus system described herein includes a propulsion assembly, a top plate assembly, and a bottom plate assembly. Each one of the propulsion assembly, the top plate assembly, and the bottom plate assembly is configured to be separately assembled and tested for spaceworthiness. Also described herein is a propulsion assembly for use with a spacecraft. The propulsion assembly includes a propellant tank containing propellant therein, at least one thruster, and a frame configured for supporting the propellant tank and the at least one thruster thereon. The propulsion assembly, as an individual module, is configured to be assembled and subjected to testing related to spaceworthiness. Additionally, the frame may be further configured for attachment to other components of the spacecraft, after being assembled and subjected to testing, without modification to the propulsion assembly or the other components of the spacecraft.

Disclosed is a satellite which includes: at least one optical photography instrument including a main lens having an optical axis and the optical instrument having a field of view; at least one launcher interface system, intended for being removably secured to a satellite interface system of a launcher of the satellite; a linking device between the launcher interface and the optical instrument extending substantially parallel to the optical axis of the main lens between an upper end and a lower end; the launcher interface system is connected to the linking device by the lower end and the optical axis of the optical instrument is directed from the upper end towards the lower end of the linking device, the launcher interface system being outside the field of view of the instrument.

A system for the recovery and management of atmospheric gas is disclosed, such as for use as a vehicle propellant in a vehicle propulsion system. The system can include a compressor configured to compress atmospheric gas and first and second storage tanks configured to store liquefied atmospheric gas from the compressor. The second storage tank can have a heater operable to heat liquefied atmospheric gas therein to convert it to a high pressure gas. The second storage tank includes an outlet duct fluidly coupled to the first storage tank for supplying high pressure gas to the first storage tank.

A reservoir assembly for a rocket engine of a spacecraft includes a first reservoir defining a first inner volume, a second reservoir having walls defining a second inner volume and comprising first walls fixed to the first reservoir, and an elastic membrane delimiting the second inner volume from the first inner volume, wherein the second reservoir comprises an outlet to allow a liquid propellant to flow out toward a propulsion apparatus of the rocket engine, characterized in that it further comprises a connecting means coupled to the first and second reservoirs and adapted to connect the first and second reservoirs.

Liquid storage systems for space vehicles include at least one storage tank including a tank inlet, a tank outlet, and a plurality of liquid storage compartments coupled to each other in series between the tank inlet and the tank outlet. Each liquid storage compartment includes an end plate including a porous outlet at an end of the liquid storage compartment adjacent to another liquid storage compartment. Propulsion systems for space vehicles include at least one such liquid storage tank. Methods of providing a liquid propellant to a thruster of a space vehicle include withdrawing a liquid propellant from a first compartment within a tank and flowing the liquid propellant from a second compartment into the first compartment through a porous element associated with an end plate separating the first compartment from the second compartment.

A semi-ellipsoidal, semi-toroidal, or toroidal shell includes an annular sheet metal wall that is longitudinally segmented so as to include a plurality of annular wall segments. Each of the plurality of annular wall segments is joined to an adjacent wall segment by a respective latitudinal wall weld. Also disclosed is a tank including the shell, a vehicle including the shell, a multi-conic preform used to manufacture the shell, a method for assembling the preform, and a method for manufacturing the shell using the preform.