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Analysis on Design Failure Mode of Residential Energy Storage System

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DOI: 10.23977/ieim.2024.070124 | Downloads: 13 | Views: 237

Author(s)

Lin Li 1, Rui Li 2, Wu Longhui 1, Zixiang Zhu 3, Rui Miao 3

Affiliation(s)

1 Shanghai Chelion Green Energy Co., Ltd., Shanghai, 201103, China
2 School of Electronic Information and Electrical Engineering, Shanghai Jiaotong University, Shanghai, 20024, China
3 School of Ocean & Civil Engineering, Shanghai Jiaotong University, Shanghai, 20024, China

Corresponding Author

Rui Miao

ABSTRACT

Residential energy storage system seizes more market share in Europe than other regions on account of terminated feed-in-tariff subsidy policy and boost in solar PV installation. This paper analyses failure mode effects of residential energy storage systems to improve product design quality. Firstly,  market profile and residential energy storage system category is summarized, engineering and working principle is illustrated; then, DFMEA succession and evolution are interpretated to better understand the significance referring to engineering quality; Finally, the practical case related to DFMEA on residential energy storage system is described progressively by hierarchical tree which individually describe the structure analysis, function analysis, failure analysis, risk evaluation, optimization measurements. The research results can provide process guidance for design failure mode analysis and precautions during the research and development process of residential energy storage system.

KEYWORDS

Design failure mode effect analysis, residential energy storage system, hierarchical tree, design reliability

CITE THIS PAPER

Lin Li, Rui Li, Wu Longhui, Zixiang Zhu, Rui Miao, Analysis on Design Failure Mode of Residential Energy Storage System. Industrial Engineering and Innovation Management (2024) Vol. 7: 182-191. DOI: http://dx.doi.org/10.23977/ieim.2024.070124.

REFERENCES

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[3] Laura Wood, "Residential energy storage market global forecast to 2027", Research and Markets, Report code: EP 7069, pp.2, 2022. 
[4] X Li, QS Wang, Y Chen, "Safety analysis of energy storage station based on DFMEA." E3S Web of Conferences 236, 01006 (2021).
[5] Qi Huang, Gongyu Wu, Zhaojun Li, "Design for Reliability Through Text Mining and Optimal Product Verification and Validation Planning," IEEE Transactions on Reliability, vol. 70, no. 1, March 2021. 
[6] Sarath Jayatilleka, "Systems Engineering Modelling Diagrams as Prerequisites to Failure Mode and Effect Analysis", 978-1-7281-3690-5/20/$31.00©2020 IEEE 
[7] Jonathan Gorremans, Christophe Lits, Raffaele Rossi & Michael Schmela, "European Market Outlook For Residential Battery Storage 2022-2026", Solar Power Europe, pp.18, 2022. 
[8] Scott Gray, "Failure Mode and Effect analysis FMEA Handbook", AIGA/VDA, pp.16, 2019. 

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