Identifying safety issues from energy conservation requirements

Madala, Kaushik; Do, Hyunsook; Tenbergen, Bastian

doi:10.1002/smr.2515

Cited by 1 publication

(1 citation statement)

References 69 publications

(145 reference statements)

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“…STPA is a top-down analysis tool developed from systems theoretic accident modelling and process (STAMP) (Sulaman et al, 2019). The unsafe interaction between system components is emphasized by structuring the control loop (Madala, Do, andTenbergen, 2022, Rausand andHaugen, 2020). STAMP shifts the purpose from avoiding failures to enforcing safety control action (Rosewater and Williams, 2015), providing a new perspective to think about battery safety.…”

Section: 4systems-theoretic Process Analysismentioning

confidence: 99%

A Brief Review of Systematic Risk Analysis Techniques of Lithium-Ion Batteries

Yang,

Geng,

Meng

2023

Proceeding of the 33rd European Safety and Reliability Conference

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As the increasing demand and widening range of application, lithium-ion battery (LIB) is becoming indispensable equipment in daily life. However, accidents related to LIB-powered facilities have been reported continually. In this paper, we studied the LIB risk analysis techniques and battery-related emergency response. Fault tree (FT), failure mode and effects analysis (FMEA), Bayesian network (BN) and systems-theoretic process analysis (STPA) are introduced. And the applications of abovementioned techniques are reviewed. Advantages and disadvantages of these techniques are discussed, with suggestions for the method selection. Further, the discussion of battery fireextinguishing procedure emphasizes standardization of emergency response and battery manufacturing. This work aims to inspect LIB risk in a systematic perspective, which can be instructive to battery system safety from design stage to emergency disposal.

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