Buildings are a key source of energy flexibility due to their high energy demand. Harnessing the energy flexibility of buildings, however, demands that buildings be considered collectively. This paper presents preliminary results to discover building's energy flexibility, from two different neighborhoods in the Netherlands. The energy demand profiles of three large buildings in each neighborhood are analyzed to identify possible useful simultaneous heating and cooling loads. Finally, the possibility for energy exchange between these buildings is explored.</p
Energy simulations of buildings complement or replace the static calculations used so far and provid...
ABSTRACT: With the publication of the new Energy Performance of Buildings Directive, a large number ...
In line with the EU's goal to phase out the use of fossil fuel, the Dutch government is determined t...
Buildings are a key source of energy flexibility due to their high energy demand. Harnessing the ene...
Most renewable energy mismatch problems are considered at either the national scale or the building ...
The flexibility of thermal energy systems can support the energy system as a whole in integrating a ...
Demand Response is used to reduce the mismatch between electricity generation by renewable energy so...
The transition from fossil fuel energy sources to renewable energy sources requires flexible use of ...
Energy positive neighborhoods and cities are emerging concepts aimed at addressing the current energ...
Owing to the recent breakthrough in thermochemical storage technology, a novel closed-loop thermal e...
Demand response (DR) at the building level (also named energy flexibility) will play an important ro...
The 16th International Building Performance Simulation Association (IBPSA 2019), Rome, Italy, 2-4 Se...
This thesis aims at analyzing the energy flexibility (EF) potential of building structural thermal e...
Facing the climate change and the energy crisis, the governments are taking steps to reduce the ener...
Energy simulations of buildings complement or replace the static calculations used so far and provid...
ABSTRACT: With the publication of the new Energy Performance of Buildings Directive, a large number ...
In line with the EU's goal to phase out the use of fossil fuel, the Dutch government is determined t...
Buildings are a key source of energy flexibility due to their high energy demand. Harnessing the ene...
Most renewable energy mismatch problems are considered at either the national scale or the building ...
The flexibility of thermal energy systems can support the energy system as a whole in integrating a ...
Demand Response is used to reduce the mismatch between electricity generation by renewable energy so...
The transition from fossil fuel energy sources to renewable energy sources requires flexible use of ...
Energy positive neighborhoods and cities are emerging concepts aimed at addressing the current energ...
Owing to the recent breakthrough in thermochemical storage technology, a novel closed-loop thermal e...
Demand response (DR) at the building level (also named energy flexibility) will play an important ro...
The 16th International Building Performance Simulation Association (IBPSA 2019), Rome, Italy, 2-4 Se...
This thesis aims at analyzing the energy flexibility (EF) potential of building structural thermal e...
Facing the climate change and the energy crisis, the governments are taking steps to reduce the ener...
Energy simulations of buildings complement or replace the static calculations used so far and provid...
ABSTRACT: With the publication of the new Energy Performance of Buildings Directive, a large number ...
In line with the EU's goal to phase out the use of fossil fuel, the Dutch government is determined t...