2020
DOI: 10.1016/j.dib.2019.104895
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Life Cycle Inventory datasets for nano-grid configurations

Abstract: Datasets concerning some user-scale Smart Grids, named Nano-grids, are reported in this paper. First several Solar Home Systems composed of a photovoltaic plant, a backup generator and different types of lithium-ion batteries are provided. Then, the inventory analysis of hybrid Nano-grids integrating batteries and hydrogen storage is outlined according to different scenarios. These data inventory could be useful for any academic or stakeholder interested in reproducing this analysis and/or developing environme… Show more

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Cited by 6 publications
(24 citation statements)
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“…Nevertheless in this case the system expansion would lead to unrealistic results because the size of the PV system would be out of the range of residential applications and the SHS would lead to a very big negative environmental impact. For such reason allocation has been preferred by Rossi et al [19,20] to describe this multi-output process: using this approach, part of the impacts are allocated on the RF, and part of them on the by-product. Physical allocation is one of the most widely used allocation methods and consists on multiplying the impacts for an allocation factor, calculated as RF {pRF`EEq.…”
Section: Environmental Optimal Designmentioning
confidence: 99%
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“…Nevertheless in this case the system expansion would lead to unrealistic results because the size of the PV system would be out of the range of residential applications and the SHS would lead to a very big negative environmental impact. For such reason allocation has been preferred by Rossi et al [19,20] to describe this multi-output process: using this approach, part of the impacts are allocated on the RF, and part of them on the by-product. Physical allocation is one of the most widely used allocation methods and consists on multiplying the impacts for an allocation factor, calculated as RF {pRF`EEq.…”
Section: Environmental Optimal Designmentioning
confidence: 99%
“…The ageing parameters are defined by Cardoso et al [16] for generic LIBs considering both the cyclic and calendar degradation of the devices. Nevertheless several materials can be used for the electrodes production and relevant differences can be noted concerning the cyclic battery ageing, whereas the natural degradation is approximately the same for every LIB [19,20]. Rossi et al [19,20] provide information about the number of cycles which can be performed in standard operative conditions by the main types of LIBs on the market (temperature of 298 K, M iSoc= 20% and P Cr=1 h´1).…”
Section: System Description and Constraintsmentioning
confidence: 99%
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