Rafail Murtazin scite author profile

The largest man-made object to reenter Earth's atmosphere is Russia's Space Station Mir, which was deorbited on 23 March 2001. The major requirements and constraints of the mission, propulsion options, and attitude systems are described. The mission pro le includes two phases. The rst phase is a low-thrust transfer to a prereentry orbit after the Mir orbit has decreased to a very low altitude, and the second phase is a nal transfer with a maximum possible thrust-to-weight ratio from the prereentry orbit to a reentry trajectory. The problems of the mission pro le for a targeted splashdown in a speci ed region of the Paci c Ocean east of Australia are considered. Two possible mission pro les were evaluated. The results of actual deorbit burn sequence and Mir reentry trajectory are discussed as well as brief description of contingency situations. Nomenclature H= orbit altitude over oblate Earth, km P = thrust force, N T = kinetic energy, kg-m 2 /s 2 1V = velocity increment, m/s Subscripts max = maximum magnitude min = minimum magnitude 6 = summarized magnitude

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Fast rendezvous profile evolution: From ISS to lunar station

Murtazin

Sevastiyanov

Chudinov

2020

Acta Astronautica

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Rendezvous missions: From ISS to lunar space station

Murtazin

2014

Acta Astronautica

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Rafail Murtazin

Short rendezvous missions for advanced Russian human spacecraft

Short profile for the human spacecraft Soyuz-TMA rendezvous mission to the ISS

Mission Profile of Targeted Splashdown for Space Station Mir

Fast rendezvous profile evolution: From ISS to lunar station

Rendezvous missions: From ISS to lunar space station

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