Add to ORKGA sufficient production, test and operational database is now available to permit design technology optimization for the next decade. The evolved battery cell design features standardized technology intended to support multiple type missions (e.g., both GEO and LEO). Design analysis and validation test cells demonstrate that improved performance plus attractive specific-energy characteristics will be achieved
When individual pressure vessel (IPV) nickel-hydrogen (Ni/H2) cells were selected as the energy stor...
The needs of multikilowatt storage for low Earth orbit applications are featured. The modular concep...
The dual-cell, common-pressure vessel, nickel-hydrogen configuration has recently emerged as an opti...
A sufficient production, test and operational database is now available to permit design technology ...
A standard Nickel-Hydrogen (NiH2) Individual Pressure Vessel (IPV) battery cell is needed to meet fu...
The evolution of an advanced Ni-Cd space battery cell design continues to prove very promising. High...
The potential of the H2-NiO battery for terrestrial applications was assessed. A multicell design ap...
An update of validation test results confirming the advanced design nickel-hydrogen cell is presente...
National Space Development Agency of Japan (NASDA) has conducted the research and development (R&D) ...
Gates Aerospace Batteries in conjunction with Gates Energy Products (GEP) has been developing NiMH t...
Individual pressure vessel (IPV) nickel-hydrogen technology was advanced at NASA Lewis and under Lew...
Three nickel hydrogen battery designs, individual pressure vessel (IPV), common pressure vessel (CPV...
Design studies have identified bipolar nickel-hydrogen batteries as an attractive storage option for...
An update of validation test results confirming the advanced design nickel-hydrogen cell is presente...
A series of tests was performed to characterize battery performance relating to certain operating pa...
When individual pressure vessel (IPV) nickel-hydrogen (Ni/H2) cells were selected as the energy stor...
The needs of multikilowatt storage for low Earth orbit applications are featured. The modular concep...
The dual-cell, common-pressure vessel, nickel-hydrogen configuration has recently emerged as an opti...
A sufficient production, test and operational database is now available to permit design technology ...
A standard Nickel-Hydrogen (NiH2) Individual Pressure Vessel (IPV) battery cell is needed to meet fu...
The evolution of an advanced Ni-Cd space battery cell design continues to prove very promising. High...
The potential of the H2-NiO battery for terrestrial applications was assessed. A multicell design ap...
An update of validation test results confirming the advanced design nickel-hydrogen cell is presente...
National Space Development Agency of Japan (NASDA) has conducted the research and development (R&D) ...
Gates Aerospace Batteries in conjunction with Gates Energy Products (GEP) has been developing NiMH t...
Individual pressure vessel (IPV) nickel-hydrogen technology was advanced at NASA Lewis and under Lew...
Three nickel hydrogen battery designs, individual pressure vessel (IPV), common pressure vessel (CPV...
Design studies have identified bipolar nickel-hydrogen batteries as an attractive storage option for...
An update of validation test results confirming the advanced design nickel-hydrogen cell is presente...
A series of tests was performed to characterize battery performance relating to certain operating pa...
When individual pressure vessel (IPV) nickel-hydrogen (Ni/H2) cells were selected as the energy stor...
The needs of multikilowatt storage for low Earth orbit applications are featured. The modular concep...
The dual-cell, common-pressure vessel, nickel-hydrogen configuration has recently emerged as an opti...