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Solutions for a variety of spacecraft applications, such as attitude control systems (ACS), orbit insertion, and descent systems, are offered via propulsion control valves.
Rocket engines, chemical, electric, green, and cold gas propulsion systems can all use flight-tested, incredibly reliable Moog valves. Capacity to develop, produce, and deliver entire, tank-to-thruster propulsion systems is based on valves.
Orbital satellites and spacecraft are typical uses for our propulsion system. probes and interplanetary spacecraft. control over automobiles that re-enter. automated supply runs for the International Space Station Control and stabilisation of ascent roll for light to heavy launch vehicles.
The Global space propulsion electrical valve market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
NASA’s Small Spacecraft Electric Propulsion programme (SSEP) In order to enable smaller spacecraft, Glenn has been developing high-performance sub-kilowatt (1-kW) Hall-effect thrusters and power processing technology.
A development over the majority of low-power electric propulsion systems now in use that were made for low-Earth orbit activities.
SSEP propulsion systems make use of a centre-mounted cathode and an improved magnetic field architecture, both of which were created for advanced medium and high-power applications.
These kinds of innovations are essential to achieve the planetary missions’ performance, extremely long life, and fuel efficiency.
