Energy-related Impact of Redefining Self-consumption for Distributed Edge Datacenters - Ecole normale supérieure de Rennes - Département Mécatronique
Communication Dans Un Congrès Année : 2024

Energy-related Impact of Redefining Self-consumption for Distributed Edge Datacenters

Résumé

Self-consumption is developing worldwide to increase renewable electricity consumption and reduce electricity bills. It can be carried out individually or collectively (grouping several entities), but is generally restricted geographically. In datacenters, one may use load shifting to benefit from the self-consumption tariffs, at the cost of increasing energy consumption. An alternative would be to extend the self-consumption rules to wider perimeters. This paper proposes a comparative study on several aspects influencing the collective self-consumption (CSC) of an Edge infrastructure, including spatial load shifting, temporal load shifting and extending the current rules to encompass wider geographical boundaries. Spatial shifting under the current CSC scheme is found more cost-effective (3.9% of cost reduction) with a negligible increase in energy consumption (0.19%), compared to the revised definition of collective selfconsumption which leads to 3.7% cost reduction and no increase in energy consumption. Moreover, allowing up to 10% of the user tasks to be shifted in time can further increase the self-consumption rate by 1.3%.
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Dates et versions

hal-04770489 , version 1 (06-11-2024)

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  • HAL Id : hal-04770489 , version 1

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Wedan Emmanuel Gnibga, Anne Blavette, Anne-Cécile Orgerie. Energy-related Impact of Redefining Self-consumption for Distributed Edge Datacenters. IGSC 2024 - 15th International Green and Sustainable Computing Conference, Nov 2024, Austin, United States. pp.1-7. ⟨hal-04770489⟩
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