Add to ORKGThe Attitude Control and Energy Storage Experiment is currently under development for the International Space Station; two counter-rotating flywheels will be levitated with magnetic bearings and placed in vacuum housings. The primary objective of the experiment is to store and discharge energy, in combination with existing batteries, into the electrical power system. The secondary objective is to use the flywheels to exert torque on the Station; a simple torque profile has been designed so that the Station's Control Moment Gyroscopes will be assisted in maintaining torque equilibrium attitude. Two energy storage contingencies could result in the inadvertent application of torque by the flywheels to the Station: an emergency shutdown of one ...
Minimizing power consumption is a key requirement in the system design of an energy storage flywheel...
On September 14, 2004, NASA Glenn Research Center's Flywheel Development Team experimentally demonst...
AbstractThe control law of the flywheel in an integrated power and attitude control system (IPACS) f...
Abstract. Flywheels can exert torque that alters the Station's attitude motion, either intentio...
This report presents results of simulations performed to study the behavior of the Station's at...
The potential of flywheel systems for space stations using the Space Operations Center (SOC) as a po...
A flywheel energy storage system was spun to 60,000 rpm while levitated on magnetic bearings. This s...
On July 10, 2003, the NASA Glenn Research Center flywheel team experimentally demonstrated a two-fly...
With the advent of high-strength composite materials and microelectronics, flywheels are becoming at...
Energy and power are a basic necessity in our daily lives. However, sources like batteries that we c...
Following successful operation of a developmental flywheel energy storage system in fiscal year 2000...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
The purpose of flywheel energy storage is to provide a means to save energy during times when the sa...
This presentation discussed the flywheel technology development work that is ongoing at NASA GRC wit...
Application of isotensoid flywheels to spacecraft energy and angular momentum storag
Minimizing power consumption is a key requirement in the system design of an energy storage flywheel...
On September 14, 2004, NASA Glenn Research Center's Flywheel Development Team experimentally demonst...
AbstractThe control law of the flywheel in an integrated power and attitude control system (IPACS) f...
Abstract. Flywheels can exert torque that alters the Station's attitude motion, either intentio...
This report presents results of simulations performed to study the behavior of the Station's at...
The potential of flywheel systems for space stations using the Space Operations Center (SOC) as a po...
A flywheel energy storage system was spun to 60,000 rpm while levitated on magnetic bearings. This s...
On July 10, 2003, the NASA Glenn Research Center flywheel team experimentally demonstrated a two-fly...
With the advent of high-strength composite materials and microelectronics, flywheels are becoming at...
Energy and power are a basic necessity in our daily lives. However, sources like batteries that we c...
Following successful operation of a developmental flywheel energy storage system in fiscal year 2000...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
The purpose of flywheel energy storage is to provide a means to save energy during times when the sa...
This presentation discussed the flywheel technology development work that is ongoing at NASA GRC wit...
Application of isotensoid flywheels to spacecraft energy and angular momentum storag
Minimizing power consumption is a key requirement in the system design of an energy storage flywheel...
On September 14, 2004, NASA Glenn Research Center's Flywheel Development Team experimentally demonst...
AbstractThe control law of the flywheel in an integrated power and attitude control system (IPACS) f...