Title :
Energy-momentum-wheel for satellite power and attitude control systems
Author :
Patel, Mukund R.
Author_Institution :
US Merchant Marine Acad., Kings Point, NY, USA
Abstract :
In an earlier paper by the author on a 2500 W low Earth orbit satellite, such as NASA Goddard Space Flight Center´s EOS-AM, the mass and volume reductions by replacing the battery with a flywheel were estimated to be 35% and 55% respectively. Further savings are possible by using a dual function flywheel that stores energy for the electrical power system and momentum for the attitude control system of the satellite. This paper analyzes the operation of such a dual function flywheel, termed the energy-momentum-wheel. As the spacecraft cannot discharge energy without discharging momentum, the maximum depth of energy discharge is limited by the minimum momentum storage requirement on a given axis. Such mission level operating constraints are analyzed and presented in the form of circle diagrams
Keywords :
artificial satellites; attitude control; flywheels; power control; space vehicle power plants; 2500 W; circle diagrams; energy discharge; energy-momentum-wheel; flywheel energy storage; mission level operating constraints; momentum discharge; satellite power/attitude control systems; space power; Batteries; Energy management; Energy storage; Flywheels; Low earth orbit satellites; Power system control; Power system management; Power systems; Voltage; Wheels;
Conference_Titel :
Energy Conversion Engineering Conference and Exhibit, 2000. (IECEC) 35th Intersociety
Conference_Location :
Las Vegas, NV
Print_ISBN :
1-56347-375-5
DOI :
10.1109/IECEC.2000.870837
