This master thesis investigates the energy flexibility potential of Danish single-family houses through the calculation of various energy flexibility indicators. like the available heat storage capacity and the efficency of active demand response events. Utilizing simulations on a detailed geometric and energy model of a representative building case study, the research evaluates shifting load and peak shaving capabilities. Electricity price driven active demand response events are used to measure the building's adaptability and provides valuable insights into demand-side management opportunities in residential settings, informing sustainable energy practices and contributing to grid stability.

This master thesis investigates the energy flexibility potential of Danish single-family houses through the calculation of various energy flexibility indicators. like the available heat storage capacity and the efficency of active demand response events. Utilizing simulations on a detailed geometric and energy model of a representative building case study, the research evaluates shifting load and peak shaving capabilities. Electricity price driven active demand response events are used to measure the building's adaptability and provides valuable insights into demand-side management opportunities in residential settings, informing sustainable energy practices and contributing to grid stability.

Energy flexibility quantification of a typical Danish single-family house

CESTONE, ALESSANDRO
2023/2024

Abstract

This master thesis investigates the energy flexibility potential of Danish single-family houses through the calculation of various energy flexibility indicators. like the available heat storage capacity and the efficency of active demand response events. Utilizing simulations on a detailed geometric and energy model of a representative building case study, the research evaluates shifting load and peak shaving capabilities. Electricity price driven active demand response events are used to measure the building's adaptability and provides valuable insights into demand-side management opportunities in residential settings, informing sustainable energy practices and contributing to grid stability.
2023
Energy flexibility quantification of a typical Danish single-family house
This master thesis investigates the energy flexibility potential of Danish single-family houses through the calculation of various energy flexibility indicators. like the available heat storage capacity and the efficency of active demand response events. Utilizing simulations on a detailed geometric and energy model of a representative building case study, the research evaluates shifting load and peak shaving capabilities. Electricity price driven active demand response events are used to measure the building's adaptability and provides valuable insights into demand-side management opportunities in residential settings, informing sustainable energy practices and contributing to grid stability.
energy flexibility
buildings
danish
single-family house
flexibility
VIVIAN, JACOPO
FIORENTINI, MASSIMO
Lauree magistrali
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/64982