Arbejdspakke 3
Smart Energy Buildings: The objective is to provide a new understanding of low-energy buildings with their occupants and users as active energy-flexible elements in a smart energy system, and to develop and showcase associated novel control solutions for smarter operation and monitoring of energy in modern buildings.
The aim is to provide a new understanding of the possibilities that arise from using low energy buildings of Nordhavn - including occupants and users - as active components in the future smart energy system. The consumer side will be investigated to see if lower or more flexible energy consumption is feasible without loss of comfort due to actively controlled living and working space.
Objectives include development and verification of smart energy building models and simulations, design of predictive controllers based on the models and simulations and the implementation and operation of the controls developed. The work package will provide at least two smart buildings as an integrated part of a smart energy infrastructure experiment by WP5, WP6, WP7 and WP8. Furthermore appropriate simulation models for analysing smart energy buildings in the energy system will be developed.
Tasks include:
The aim is to provide a new understanding of the possibilities that arise from using low energy buildings of Nordhavn - including occupants and users - as active components in the future smart energy system. The consumer side will be investigated to see if lower or more flexible energy consumption is feasible without loss of comfort due to actively controlled living and working space.
Objectives include development and verification of smart energy building models and simulations, design of predictive controllers based on the models and simulations and the implementation and operation of the controls developed. The work package will provide at least two smart buildings as an integrated part of a smart energy infrastructure experiment by WP5, WP6, WP7 and WP8. Furthermore appropriate simulation models for analysing smart energy buildings in the energy system will be developed.
Tasks include:
- Recruiting of at least two different smart flexible buildings
- Active prosumers and user benefits
- Smart energy building thermal design and user behaviour
- Smart building modelling for energy system integration studies
- Optimal control of smart energy building microgrid
- Software and hardware development for smart energy-flexible building management system
- Installation and operation of smart energy-flexible building management system
- Smart energy building real-time flexibility performance indicator
Work Package Leader
Palle Holdt, Project Director, [email protected]
Palle Holdt, Project Director, [email protected]