A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Energy Mutualization for Tertiary Buildings, Residential Buildings and Producers
This chapter examines possible exchanges of electrical energy flows and services between a commercial building, such as a supermarket, and other actors such as energy producers, the public distribution grid manager, third‐party consumers (e.g. residential users), a storage system using electrochemical batteries and a standby generator, operating within a distribution grid and participating in self‐consumption. It presents a case study for energy mutualization between commercial, tertiary and residential buildings. The chapter introduces the notion of an energy services aggregator. An energy management approach based on fuzzy logic is developed and applied to the case in question. The chapter also establishes a specification for each actor, drawing on sociology to assess the conditions of acceptability and involvement in an energy mutualization approach for each actor. It defines an acceptability coefficient for load reduction approaches within the context of the supervision strategy.
Energy Mutualization for Tertiary Buildings, Residential Buildings and Producers
This chapter examines possible exchanges of electrical energy flows and services between a commercial building, such as a supermarket, and other actors such as energy producers, the public distribution grid manager, third‐party consumers (e.g. residential users), a storage system using electrochemical batteries and a standby generator, operating within a distribution grid and participating in self‐consumption. It presents a case study for energy mutualization between commercial, tertiary and residential buildings. The chapter introduces the notion of an energy services aggregator. An energy management approach based on fuzzy logic is developed and applied to the case in question. The chapter also establishes a specification for each actor, drawing on sociology to assess the conditions of acceptability and involvement in an energy mutualization approach for each actor. It defines an acceptability coefficient for load reduction approaches within the context of the supervision strategy.
Energy Mutualization for Tertiary Buildings, Residential Buildings and Producers
Robyns, Benoît (author) / Davigny, Arnaud (author) / Barry, Hervé (author) / Kazmierczak, Sabine (author) / Saudemont, Christophe (author) / Abbes, Dhaker (author) / François, Bruno (author)
2019-07-15
38 pages
Article/Chapter (Book)
Electronic Resource
English
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