The Energy hub developed at the University of Victoria consists of various models and tools for multi-stream energy balancing, sizing of converters and storages, optimization, minimizing investment costs and operational costs and carbon emissions (multiple objectives), mixed-integer linear programming (MILP), user-defined, typically single building to small district,network optimization. For building and electric vehicles: electricity, heat, demands, demand profiles, renewable profiles, possible converter and storage options, optimal operation, optimal capacities and network, comparing microgrids with district heating, concept-stage options analysis for building and district energy systems (through BESOS).
Energy Hub
Modèle
Description
Références
https://doi.org/10.1016/j.apenergy.2017.01.058
Applications
Concept-stage options analysis for building and district energy systems,e.g. comparing microgrids with district heating
Intrants clés
demand profiles, renewable profiles, possible converter and storage options
Extrants clés
optimal operation, optimal capacities and network