Add to ORKGThe changes in the capacity, voltage and pressure profile of flight configuration Ni/H2 cells when they are stored for extended periods is examined. The Ni/H2 cells exhibit capacity fade phenomenon regardless of their design when they are stored at room temperature. Capacity loss also occurs if old cells (5 years old) are stored in a very low rate trickle charge (C/200 rate) condition. A periodic recharge technique leads to pressure rise in the cells. Conventional trickle charge (C/100 rate) helps in minimizing or eliminating the second plateau which is one of the characteristics of the capacity fade phenomenon
Two lots of NASA standard 50 A.H. Ni-Cd battery cells, manufactured by Gates Aerospace Batteries and...
The topics covered are presented in viewgraph form: NASA Battery Review Board Charter; membership, b...
The Control of Flexible Structures II (CPFS) program is a complex and ambitious undertaking which ad...
An overview of the NiH2 cell development is given. The NiH2 SAFT system is an electrochemical (singl...
It is concluded that secondary lithium batteries are suitable for planetary missions requiring high ...
Information is given in viewgraph form on the heat generation during overcharge of nickel hydrogen c...
Presented in viewgraph format are results and accomplishments on the development of lithium/thionyl ...
The topics covered are presented in viewgraph form and include the following: development schedule; ...
Battery development and testing efforts at Phillips Laboratory fall into three main categories: nick...
A discussion of the development of a fundamental cell model is presented in vugraph format. The nick...
The use of Electric Auxiliary Power Unit (EAPU) in commercial, and military aviation, and in commerc...
It was concluded that rapid development in the technology of sodium metal chloride batteries has bee...
To better understand the Space Shuttle Main Engine (SSME) startup/shutdown tansients, an airflow tes...
It was concluded that carbon cathodes with chlorine work well. Lithium alloy chlorine at 450 C, 1 at...
The SAFT prismatic VOS Ni-Cd cells have been flown in geosynchronous orbit since 1977 and in low ear...
Two lots of NASA standard 50 A.H. Ni-Cd battery cells, manufactured by Gates Aerospace Batteries and...
The topics covered are presented in viewgraph form: NASA Battery Review Board Charter; membership, b...
The Control of Flexible Structures II (CPFS) program is a complex and ambitious undertaking which ad...
An overview of the NiH2 cell development is given. The NiH2 SAFT system is an electrochemical (singl...
It is concluded that secondary lithium batteries are suitable for planetary missions requiring high ...
Information is given in viewgraph form on the heat generation during overcharge of nickel hydrogen c...
Presented in viewgraph format are results and accomplishments on the development of lithium/thionyl ...
The topics covered are presented in viewgraph form and include the following: development schedule; ...
Battery development and testing efforts at Phillips Laboratory fall into three main categories: nick...
A discussion of the development of a fundamental cell model is presented in vugraph format. The nick...
The use of Electric Auxiliary Power Unit (EAPU) in commercial, and military aviation, and in commerc...
It was concluded that rapid development in the technology of sodium metal chloride batteries has bee...
To better understand the Space Shuttle Main Engine (SSME) startup/shutdown tansients, an airflow tes...
It was concluded that carbon cathodes with chlorine work well. Lithium alloy chlorine at 450 C, 1 at...
The SAFT prismatic VOS Ni-Cd cells have been flown in geosynchronous orbit since 1977 and in low ear...
Two lots of NASA standard 50 A.H. Ni-Cd battery cells, manufactured by Gates Aerospace Batteries and...
The topics covered are presented in viewgraph form: NASA Battery Review Board Charter; membership, b...
The Control of Flexible Structures II (CPFS) program is a complex and ambitious undertaking which ad...