Demand response optimization for smart grid integrated buildings: Review of technology enablers landscape and innovation challenges
This paper provides a comprehensive overview and analysis of state-of-the-art technological
advancements in building integration in smart grids, with a focus on enabling their …
advancements in building integration in smart grids, with a focus on enabling their …
[HTML][HTML] Evaluating the cost of energy flexibility strategies to design sustainable building clusters: Modelling and multi-domain analysis
The increasing complexity of urban distributed energy systems demands effective strategies
to tackle design and operational challenges. This study presents a framework for evaluating …
to tackle design and operational challenges. This study presents a framework for evaluating …
[HTML][HTML] A methodological review on management of building cluster meso energy hubs in accordance with the agile framework: Exploring flexibility upward the …
The global energy crisis has prompted the European Union (EU) to concentrate on
enhancing energy efficiency in the building sector. One promising approach to achieving …
enhancing energy efficiency in the building sector. One promising approach to achieving …
Interpretable domain-informed and domain-agnostic features for supervised and unsupervised learning on building energy demand data
Energy demand from the built environment is among the most important contributors to
greenhouse gas emissions. One promising way to curtail these emissions is through …
greenhouse gas emissions. One promising way to curtail these emissions is through …
[HTML][HTML] A semantics-driven framework to enable demand flexibility control applications in real buildings
Decarbonising and digitalising the energy sector requires scalable and interoperable
Demand Flexibility (DF) applications. Semantic models are promising technologies for …
Demand Flexibility (DF) applications. Semantic models are promising technologies for …
[HTML][HTML] Experimental implementation of an emission-aware prosumer with online flexibility quantification and provision
Active building energy management can facilitate the development of low-carbon buildings
and support flexible operations of future smart cities, thanks to advancements in …
and support flexible operations of future smart cities, thanks to advancements in …
[HTML][HTML] Impact of activating energy demand flexibility in the building stock: A case study of Norway as a highly electrified country in the European power market
On the transition towards an electrified European energy system, flexible electricity use is
crucial. The building stock, including electric vehicles, can offer flexibility, but it is still unclear …
crucial. The building stock, including electric vehicles, can offer flexibility, but it is still unclear …
Impact of residential heat pumps and photovoltaics on low-voltage grid reinforcements under varying insulation levels
Abstract The European Union's 2050 climate-neutrality goal necessitates extensive
deployment of low-carbon technologies (LCTs) like heat pumps and rooftop photovoltaic …
deployment of low-carbon technologies (LCTs) like heat pumps and rooftop photovoltaic …
Exploring energy flexibility from smart electrical water heaters to improve electrification benefits in residential buildings: findings from real-world operation
The integration of renewable energy sources, which often have limited dispatchability, along
with the rising electrification of energy demand, is increasing the complexity of managing …
with the rising electrification of energy demand, is increasing the complexity of managing …
Adaptive flexibility function in smart energy systems: A linearized price-demand map** approach
The transactive control paradigm enables a flexible electricity-consuming asset to offer its
flexibility upstream by simply adapting its consumption profile in response to pricing signals …
flexibility upstream by simply adapting its consumption profile in response to pricing signals …