NASA-LLIS-3516
Lessons Learned - Lithium-Ion Battery Fire
Year: 2010
Abstract: Abstract:
A lithium-ion battery undergoing characterization testing in a basement laboratory overheated, caught fire, and detonated, funneling toxic fumes into the two upper floors of the office building and forcing its evacuation for several days. Conduct a hazard assessment specific to the battery type, assure that research-type battery testing and storage conforms to safety standards, reassess the potential for exhaust systems to spread fumes throughout a building, and implement test configuration improvements for batteries to be used by flight projects.
A lithium-ion battery undergoing characterization testing in a basement laboratory overheated, caught fire, and detonated, funneling toxic fumes into the two upper floors of the office building and forcing its evacuation for several days. Conduct a hazard assessment specific to the battery type, assure that research-type battery testing and storage conforms to safety standards, reassess the potential for exhaust systems to spread fumes throughout a building, and implement test configuration improvements for batteries to be used by flight projects.
Subject: Additional Categories.Accident Investigation
Show full item record
contributor author | NASA - National Aeronautics and Space Administration (NASA) | |
date accessioned | 2017-09-04T17:43:02Z | |
date available | 2017-09-04T17:43:02Z | |
date copyright | 05/18/2010 | |
date issued | 2010 | |
identifier other | ECMGFDAAAAAAAAAA.pdf | |
identifier uri | http://yse.yabesh.ir/std/handle/yse/166104 | |
description abstract | Abstract: A lithium-ion battery undergoing characterization testing in a basement laboratory overheated, caught fire, and detonated, funneling toxic fumes into the two upper floors of the office building and forcing its evacuation for several days. Conduct a hazard assessment specific to the battery type, assure that research-type battery testing and storage conforms to safety standards, reassess the potential for exhaust systems to spread fumes throughout a building, and implement test configuration improvements for batteries to be used by flight projects. | |
language | English | |
title | NASA-LLIS-3516 | num |
title | Lessons Learned - Lithium-Ion Battery Fire | en |
type | standard | |
page | 2 | |
status | Active | |
tree | NASA - National Aeronautics and Space Administration (NASA):;2010 | |
contenttype | fulltext | |
subject keywords | Additional Categories.Accident Investigation | |
subject keywords | Additional Categories.Energetic Materials - Explosive/Propellant/Pyrotechnic | |
subject keywords | Additional Categories.Facilities | |
subject keywords | Additional Categories.Fire Protection | |
subject keywords | Additional Categories.Ground Equipment | |
subject keywords | Additional Categories.Hardware | |
subject keywords | Additional Categories.Hazardous/Toxic Waste/Materials | |
subject keywords | Additional Categories.Occupational Health | |
subject keywords | Additional Categories.Risk Management/Assessment | |
subject keywords | Additional Categories.Safety & Mission Assurance | |
subject keywords | Additional Categories.Test Article | |
subject keywords | Additional Categories.Test Facility | |
subject keywords | Engineering Design (Phase C/D).Environmental Control and Life Support Systems | |
subject keywords | Engineering Design (Phase C/D).Power | |
subject keywords | Engineering Design (Phase C/D).Spacecraft and Spacecraft Instruments | |
subject keywords | Safety and Mission Assurance.Advanced planning of safety systems | |
subject keywords | Safety and Mission Assurance.Early requirements and standards definition | |
subject keywords | Safety and Mission Assurance.Product Assurance |