Knowledge Agora

Title	Techno-economic Evaluation of a Second-life Battery Energy Storage System Enabling Peak Shaving and PV Integration in a Ceramic Manufacturing Plant
ID_Doc	7645
Authors	Silvestri, L; De Santis, M; Bella, G
Title	Techno-economic Evaluation of a Second-life Battery Energy Storage System Enabling Peak Shaving and PV Integration in a Ceramic Manufacturing Plant
Year	2021
Published
Abstract	The possibility to use second-life spent batteries represents a global challenge for protecting the environment and promoting economic development. The present study aims to present an overview of available options for reusing EV batteries as storage system in a factory environment and to evaluate the techno-economic feasibility of a second-life battery energy storage system (BESS) enabling the electricity peak shaving strategy and/or the storage for standalone photovoltaic system in a modern ceramic manufacturing plant. Results show that spent batteries, derived from electric vehicles, can be used to store enough energy as BESS for a small-scale industrial application; furthermore, due to their low cost, spent batteries represent a favorable option in economic terms.
PDF

Similar Articles

ID	Score	Article
23033		Silvestri, L; De Santis, M; Bella, G A Preliminary Techno-Economic and Environmental Performance Analysis of Using Second-Life EV Batteries in an Industrial Application(2022)
29578		Eleftheriadis, P; Leva, S; Gangi, M; Rey, AV; Borgo, A; Coslop, G; Groppo, E; Grande, L; Sedzik, M Second Life Batteries: Current Regulatory Framework, Evaluation Methods, and Economic Assessment(2024)Ieee Industry Applications Magazine, 30.0, 1
67206		Faessler, B Stationary, Second Use Battery Energy Storage Systems and Their Applications: A Research Review(2021)Energies, 14, 8
16982		Obrecht, M; Singh, R; Zorman, T Conceptualizing a new circular economy feature - storing renewable electricity in batteries beyond EV end-of-life: the case of Slovenia(2022)International Journal Of Productivity And Performance Management, 71, 3
7243		Wralsen, B; Faessler, B Multiple Scenario Analysis of Battery Energy Storage System Investment: Measuring Economic and Circular Viability(2022)Batteries-Basel, 8, 2
27419		Etxandi-Santolaya, M; Casals, LC; Garcia, BA; Corchero, C Circular Economy-Based Alternatives beyond Second-Life Applications: Maximizing the Electric Vehicle Battery First Life(2023)World Electric Vehicle Journal, 14.0, 3
68987		Li, JW; He, SC; Yang, QQ; Wei, ZB; Li, Y; He, HW A Comprehensive Review of Second Life Batteries Toward Sustainable Mechanisms: Potential, Challenges, and Future Prospects(2023)Ieee Transactions On Transportation Electrification, 9, 4
8811		McCrossan, C; Shankaravelu, K A Review of the Second Life Electric Vehicle Battery Landscape from a Business and Technology Perspective(2021)
75059		Rufino, CA; Sanseverino, ER; Gallo, P; Koch, D; Kotak, Y; Schweiger, HG; Zanin, H Towards a business model for second-life batteries-barriers, opportunities, uncertainties, and technologies(2023)
78140		Jiao, N; Evans, S Business models for sustainability: the case of second-life electric vehicle batteries(2016)