Add to ORKGNew design features and test methods are in development at NASA to take advantage of the newest high power and energy dense commercial Li-ion cell designs and to achieve passively thermal runaway (TR) propagation resistant (PPR) designs for manned missions requiring high power/voltage. The goal is to minimize the parasitic mass and volume of the battery components; thus reaching a balance between high battery specific power (W/kg) and energy (Wh/kg) as well as power (W/L) and energy density (Wh/L). Current 18650 cell designs achieve greater than 275 Wh/kg, greater than 725 Wh/L, but present high risks of side wall breaching during TR which can defeat many other safety features resulting in nearly immediate TR propagation. This work seeks to...
Advanced energy storage and power management systems designed through rigorous materials selection, ...
Presentation covers: (1) Safety Certification Process at NASA (2) Safety Testing for Lithium-ion Bat...
Protect, Prevent and Enclose (PPE) technologies are employed to stop cell failure propagation, limit...
Final Document is attached. New design features and test methods are in development at NASA to take ...
The higher energy content (265 Wh/kg, 725 Wh/L) of the newer cell designs from LG, Panasonic, and Sa...
The JSC/NESC team has successfully demonstrated Thermal Runaway (TR) risk reduction in a lithium ion...
NASA seeks to demonstrate a path for achieving safe, high power, and high performing Li-ion battery ...
Intentionally inducing worst-case thermal runaway scenarios in Li-ion cells on-demand is a definitiv...
The NASA Orion Crew Module Reference Design was produced to address large scale thermal runaway (TR)...
Preventing cell-cell thermal runaway propagation and flames/sparks from exiting battery enclosure is...
NREL and NASA developed a thermal-electrical model that resolves PTC and cell behavior under externa...
This task was developed in the wake of the Boeing 787 Dreamliner lithium-ion battery TR incidents of...
Li-ion cells provide an energy dense solution for systems that require rechargeable electrical power...
Fractional thermal runaway calorimetry (FTRC) techniques were introduced to examine thermal runaway ...
Thermal management systems designed to handle the impacts of thermal runaway (TR) are key to safe op...
Advanced energy storage and power management systems designed through rigorous materials selection, ...
Presentation covers: (1) Safety Certification Process at NASA (2) Safety Testing for Lithium-ion Bat...
Protect, Prevent and Enclose (PPE) technologies are employed to stop cell failure propagation, limit...
Final Document is attached. New design features and test methods are in development at NASA to take ...
The higher energy content (265 Wh/kg, 725 Wh/L) of the newer cell designs from LG, Panasonic, and Sa...
The JSC/NESC team has successfully demonstrated Thermal Runaway (TR) risk reduction in a lithium ion...
NASA seeks to demonstrate a path for achieving safe, high power, and high performing Li-ion battery ...
Intentionally inducing worst-case thermal runaway scenarios in Li-ion cells on-demand is a definitiv...
The NASA Orion Crew Module Reference Design was produced to address large scale thermal runaway (TR)...
Preventing cell-cell thermal runaway propagation and flames/sparks from exiting battery enclosure is...
NREL and NASA developed a thermal-electrical model that resolves PTC and cell behavior under externa...
This task was developed in the wake of the Boeing 787 Dreamliner lithium-ion battery TR incidents of...
Li-ion cells provide an energy dense solution for systems that require rechargeable electrical power...
Fractional thermal runaway calorimetry (FTRC) techniques were introduced to examine thermal runaway ...
Thermal management systems designed to handle the impacts of thermal runaway (TR) are key to safe op...
Advanced energy storage and power management systems designed through rigorous materials selection, ...
Presentation covers: (1) Safety Certification Process at NASA (2) Safety Testing for Lithium-ion Bat...
Protect, Prevent and Enclose (PPE) technologies are employed to stop cell failure propagation, limit...