Lifetime estimation and failure risk analysis in a power stage used in wind-fuel cell hybrid energy systems

Sima Rastayesh; Sajjad Bahrebar; Amir Sajjad Bahman; John Dalsgaard Sørensen; Frede Blaabjerg

doi:10.3390/electronics8121412

Lifetime estimation and failure risk analysis in a power stage used in wind-fuel cell hybrid energy systems

Sima Rastayesh^*, Sajjad Bahrebar, Amir Sajjad Bahman, John Dalsgaard Sørensen, Frede Blaabjerg

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

18 Citationer (Scopus)

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Abstract

This paper presents a methodology based on the failure mode and effect analysis (FMEA) to analyze the failures in the power stage of wind-fuel cell hybrid energy systems. Besides, fault tree analysis (FTA) is applied to describe the probabilistic failures in the vital subcomponents. Finally, the reliability assessment of the system is carried out for a five-year operation that is guaranteed by the manufacturer. So, as the result, the reliability analysis proves that the metal oxide semiconductor field effect transistor (MOSFET) and electrolytic capacitor are the most critical components that introduce damages in the power circuit. Moreover, a comparative study on the reliability assessment by the exponential distribution and the Weibull distribution show that the B1 lifetime obtained by the Weibull distribution is closer to reality.

Originalsprog	Engelsk
Artikelnummer	1412
Tidsskrift	Electronics (Switzerland)
Vol/bind	8
Udgave nummer	12
ISSN	2079-9292
DOI	https://doi.org/10.3390/electronics8121412
Status	Udgivet - nov. 2019

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10.3390/electronics8121412

electronics-08-01412-v2Forlagets udgivne version, 5,38 MBLicens: CC BY 4.0

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Citationsformater

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title = "Lifetime estimation and failure risk analysis in a power stage used in wind-fuel cell hybrid energy systems",

abstract = "This paper presents a methodology based on the failure mode and effect analysis (FMEA) to analyze the failures in the power stage of wind-fuel cell hybrid energy systems. Besides, fault tree analysis (FTA) is applied to describe the probabilistic failures in the vital subcomponents. Finally, the reliability assessment of the system is carried out for a five-year operation that is guaranteed by the manufacturer. So, as the result, the reliability analysis proves that the metal oxide semiconductor field effect transistor (MOSFET) and electrolytic capacitor are the most critical components that introduce damages in the power circuit. Moreover, a comparative study on the reliability assessment by the exponential distribution and the Weibull distribution show that the B1 lifetime obtained by the Weibull distribution is closer to reality.",

keywords = "Failure mechanism, Failure mode and effect analysis, Power stage, Reliability, Wind-fuel cell hybrid energy systems",

author = "Sima Rastayesh and Sajjad Bahrebar and Bahman, {Amir Sajjad} and S{\o}rensen, {John Dalsgaard} and Frede Blaabjerg",

year = "2019",

month = nov,

doi = "10.3390/electronics8121412",

language = "English",

volume = "8",

journal = "Electronics (Switzerland)",

issn = "2079-9292",

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T1 - Lifetime estimation and failure risk analysis in a power stage used in wind-fuel cell hybrid energy systems

AU - Rastayesh, Sima

AU - Bahrebar, Sajjad

AU - Bahman, Amir Sajjad

AU - Sørensen, John Dalsgaard

AU - Blaabjerg, Frede

PY - 2019/11

Y1 - 2019/11

N2 - This paper presents a methodology based on the failure mode and effect analysis (FMEA) to analyze the failures in the power stage of wind-fuel cell hybrid energy systems. Besides, fault tree analysis (FTA) is applied to describe the probabilistic failures in the vital subcomponents. Finally, the reliability assessment of the system is carried out for a five-year operation that is guaranteed by the manufacturer. So, as the result, the reliability analysis proves that the metal oxide semiconductor field effect transistor (MOSFET) and electrolytic capacitor are the most critical components that introduce damages in the power circuit. Moreover, a comparative study on the reliability assessment by the exponential distribution and the Weibull distribution show that the B1 lifetime obtained by the Weibull distribution is closer to reality.

AB - This paper presents a methodology based on the failure mode and effect analysis (FMEA) to analyze the failures in the power stage of wind-fuel cell hybrid energy systems. Besides, fault tree analysis (FTA) is applied to describe the probabilistic failures in the vital subcomponents. Finally, the reliability assessment of the system is carried out for a five-year operation that is guaranteed by the manufacturer. So, as the result, the reliability analysis proves that the metal oxide semiconductor field effect transistor (MOSFET) and electrolytic capacitor are the most critical components that introduce damages in the power circuit. Moreover, a comparative study on the reliability assessment by the exponential distribution and the Weibull distribution show that the B1 lifetime obtained by the Weibull distribution is closer to reality.

KW - Failure mechanism

KW - Failure mode and effect analysis

KW - Power stage

KW - Reliability

KW - Wind-fuel cell hybrid energy systems

UR - http://www.scopus.com/inward/record.url?scp=85075600948&partnerID=8YFLogxK

U2 - 10.3390/electronics8121412

DO - 10.3390/electronics8121412

M3 - Journal article

AN - SCOPUS:85075600948

SN - 2079-9292

VL - 8

JO - Electronics (Switzerland)

JF - Electronics (Switzerland)

IS - 12

M1 - 1412

ER -

Lifetime estimation and failure risk analysis in a power stage used in wind-fuel cell hybrid energy systems

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