Buildings’ achievable energy flexibility refers to the real load reduction amount in an incentive-based demand response (DR) event, which presents dynamic, subjective, and uncertain characteristics. It is different from the buildings’ theoretical energy flexibility, which refers to its physical load reduction potential during a certain time period and is static and certain. The former serves as a foundation in a DR aggregator’s market transaction strategy formulation process and thereby calls on the necessity of its accurate forecasting. However, most of the existing literature focuses on the latter one, which is not necessarily equal to the real achievable flexibility. Therefore, to help DR aggregators bid accurately i...
Demand Response (DR) gains widespread support in the EU, as reflected in regulatory initiatives that...
The identification, quantification, and control of demand flexibility is the major challenge for fut...
Buildings are increasingly being seen as a potential source of energy flexibility to the smart grid ...
The increasing share of renewable energy sources in the power industry poses challenges for grid man...
Renewable and distributed energy sources, with photovoltaic in the first place, are leading the ener...
The 2020 Building Performance Analysis Conference & SimBuild Co-organized by ASHRAE and IBPSA-USA, C...
The penetration rates of intermittent renewable energies such as wind and solar energy have been inc...
International audienceRecent developments in energy metering technologies have allowed electric load...
Building energy flexibility is being considered an emerging strategy allowing the demand side active...
In the future due to continued integration of renewable energy sources, demand-side flexibility woul...
Conventional key performance indicators (KPI) assessed in building simulation lack specific measures...
The European Horizon 2020 project Flexible Heat and Power (H2020 FHP) investigates how to exploit th...
Purpose The purpose of this paper is to present a standardised four-step flexibility assessment me...
A focal point of ongoing research is matching the energy demand in the built environment to the ener...
The identification, quantification, and control of demand flexibility is the major challenge for fut...
Demand Response (DR) gains widespread support in the EU, as reflected in regulatory initiatives that...
The identification, quantification, and control of demand flexibility is the major challenge for fut...
Buildings are increasingly being seen as a potential source of energy flexibility to the smart grid ...
The increasing share of renewable energy sources in the power industry poses challenges for grid man...
Renewable and distributed energy sources, with photovoltaic in the first place, are leading the ener...
The 2020 Building Performance Analysis Conference & SimBuild Co-organized by ASHRAE and IBPSA-USA, C...
The penetration rates of intermittent renewable energies such as wind and solar energy have been inc...
International audienceRecent developments in energy metering technologies have allowed electric load...
Building energy flexibility is being considered an emerging strategy allowing the demand side active...
In the future due to continued integration of renewable energy sources, demand-side flexibility woul...
Conventional key performance indicators (KPI) assessed in building simulation lack specific measures...
The European Horizon 2020 project Flexible Heat and Power (H2020 FHP) investigates how to exploit th...
Purpose The purpose of this paper is to present a standardised four-step flexibility assessment me...
A focal point of ongoing research is matching the energy demand in the built environment to the ener...
The identification, quantification, and control of demand flexibility is the major challenge for fut...
Demand Response (DR) gains widespread support in the EU, as reflected in regulatory initiatives that...
The identification, quantification, and control of demand flexibility is the major challenge for fut...
Buildings are increasingly being seen as a potential source of energy flexibility to the smart grid ...