Electrification of the built environment is foreseen as a main driver for energy transition for more effective, electric renewable capacity firming. Direct and on-time use of electricity is the best way to integrate them, but the current energy demand of residential building stock is often mainly fuel-based. Switching from fuel to electric-driven heating systems could play a key role. Yet, it implies modifications in the building stock due to the change in the temperature of the supplied heat by new heat pumps compared to existing boilers and in power demand to the electricity meter. Conventional energy retrofitting scenarios are usually evaluated in terms of cost-effective energy saving, while the effects on the electrification and flexib...
The article describes detailed measurements of indoor environmental parameters in a multiapartment h...
The planned energy-efficient retrofitting of a residential building in Bologna, North-Center Italy i...
The flexibility of thermal energy systems can support the energy system as a whole in integrating a ...
Electrification of the built environment is foreseen as a main driver for energy transition for more...
Decarbonizing heating in buildings is a key part of climate change mitigation policies, but deep ret...
The 16th International Building Performance Simulation Association (IBPSA 2019), Rome, Italy, 2-4 Se...
This paper compares various flexibility options to support renewable energy integration across the e...
With the electrification of the heating sector in Europe, there is increased pressure to reduce stre...
The increased integration of variable renewable generation into the power systems, along with the ph...
This work shows the results of a research activity aimed at characterizing the energy habits of Ital...
Energy efficiency in housing is more than a technical problem, since the quality of dwellings deeply...
Demand response (DR) at the building level (also named energy flexibility) will play an important ro...
The 2020 Building Performance Analysis Conference & SimBuild Co-organized by ASHRAE and IBPSA-USA, C...
AbstractIn order to decarbonise the energy system, alternative transition pathways were assessed in ...
The article describes detailed measurements of indoor environmental parameters in a multiapartment h...
The planned energy-efficient retrofitting of a residential building in Bologna, North-Center Italy i...
The flexibility of thermal energy systems can support the energy system as a whole in integrating a ...
Electrification of the built environment is foreseen as a main driver for energy transition for more...
Decarbonizing heating in buildings is a key part of climate change mitigation policies, but deep ret...
The 16th International Building Performance Simulation Association (IBPSA 2019), Rome, Italy, 2-4 Se...
This paper compares various flexibility options to support renewable energy integration across the e...
With the electrification of the heating sector in Europe, there is increased pressure to reduce stre...
The increased integration of variable renewable generation into the power systems, along with the ph...
This work shows the results of a research activity aimed at characterizing the energy habits of Ital...
Energy efficiency in housing is more than a technical problem, since the quality of dwellings deeply...
Demand response (DR) at the building level (also named energy flexibility) will play an important ro...
The 2020 Building Performance Analysis Conference & SimBuild Co-organized by ASHRAE and IBPSA-USA, C...
AbstractIn order to decarbonise the energy system, alternative transition pathways were assessed in ...
The article describes detailed measurements of indoor environmental parameters in a multiapartment h...
The planned energy-efficient retrofitting of a residential building in Bologna, North-Center Italy i...
The flexibility of thermal energy systems can support the energy system as a whole in integrating a ...