Equations describing the conservation of mass, momentum, and energy, and multicomponent transport and chemical reaction in a liquid propellant rocket (LPR) engine are given, along with appropriate boundary conditions. The formulation includes a detailed description of the two-phase (gas/liquid) flow in terms of a moving boundary problem, with droplets and vapor occupying time-dependent subdomains of the LPR chamber. Several sensor and actuator types are considered in detail, and their mathematical descriptions are incorporated into the differential equations and boundary conditions.
Sensing and actuation in a liquid propellant rocket engine
1991 American Control Conference ; 1991 ; Boston, MA, United States
01.01.1991
Aufsatz (Konferenz)
Keine Angabe
Englisch
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