With the increasing penetration of intermittent renewable energy generation, there is a growing demand to use the inherent flexibility within buildings to absorb renewable related disruptions. Heat pumps play a particularly important role, as they account for a high share of electricity consumption in residential units. The most common way of quantifying the flexibility is by considering the response of the building or the household appliances to external penalty signals. However, this approach neither accounts for the use cases of flexibility trading nor considers its impact on the prosumer comfort, when the heat pump should cover the stochastic domestic hot water (DHW) consumption. Therefore, in this paper, a new approach to quantifying t...
Due to fundamental changes in the power sector, interest in the flexibility available at (future) re...
To date, the assessment of the energy flexibility to be delivered by existing buildings and by their...
To date, the energy flexibility assessment of multicomponent electrical and thermal systems in resid...
Today's energy production is changing from scheduled to intermittent generation due to the increasin...
The Swedish energy power system is in the middle of a paradigm shift where the increased share of in...
Activation of heat pump flexibilities is a viable solution to support balancing the grid via Demand ...
In a future power system featuring significant renewable generation, the ability to manipulate domes...
The transition from fossil fuel energy sources to renewable energy sources requires flexible use of ...
Recent technological advancements have facilitated the evolution of traditional distribution grids t...
This paper presents and demonstrates a methodology to explore the flexibility of a heat pump pool. T...
In the future due to continued integration of renewable energy sources, demand-side flexibility woul...
The energy transition requires flexible resources in which heat pumps are considered as a key techno...
With increasing proliferation levels of variable energy sources, flexible energy loads will become i...
Due to fundamental changes in the power sector, interest in the flexibility available at (future) re...
To date, the assessment of the energy flexibility to be delivered by existing buildings and by their...
To date, the energy flexibility assessment of multicomponent electrical and thermal systems in resid...
Today's energy production is changing from scheduled to intermittent generation due to the increasin...
The Swedish energy power system is in the middle of a paradigm shift where the increased share of in...
Activation of heat pump flexibilities is a viable solution to support balancing the grid via Demand ...
In a future power system featuring significant renewable generation, the ability to manipulate domes...
The transition from fossil fuel energy sources to renewable energy sources requires flexible use of ...
Recent technological advancements have facilitated the evolution of traditional distribution grids t...
This paper presents and demonstrates a methodology to explore the flexibility of a heat pump pool. T...
In the future due to continued integration of renewable energy sources, demand-side flexibility woul...
The energy transition requires flexible resources in which heat pumps are considered as a key techno...
With increasing proliferation levels of variable energy sources, flexible energy loads will become i...
Due to fundamental changes in the power sector, interest in the flexibility available at (future) re...
To date, the assessment of the energy flexibility to be delivered by existing buildings and by their...
To date, the energy flexibility assessment of multicomponent electrical and thermal systems in resid...