Fair P2P energy trading between residential and commercial multi-energy systems enabling integrated demand-side management
Enabling P2P energy trading among prosumers (both producers and consumers) is a
promising paradigm in the decentralized energy era. It is important to design a fair pricing …
promising paradigm in the decentralized energy era. It is important to design a fair pricing …
Combined multi-objective optimization and robustness analysis framework for building integrated energy system under uncertainty
The optimal design of building integrated energy system is sensitive to the variation of
uncertain parameters. For addressing the tradeoff of uncertainty and optimality-robustness …
uncertain parameters. For addressing the tradeoff of uncertainty and optimality-robustness …
Combining agent-based residential demand modeling with design optimization for integrated energy systems planning and operation
When optimizing the design of integrated energy systems, their energy demands are usually
assumed as given input. However, the demand of energy systems may not always be …
assumed as given input. However, the demand of energy systems may not always be …
Dynamic active and reactive power compensation in distribution networks with batteries: A day-ahead economic dispatch approach
OD Montoya, W Gil-González - Computers & Electrical Engineering, 2020 - Elsevier
This paper focuses on the problems of optimal operation of battery energy storage systems
(BESSs) in distributed networks from a nonlinear programming (NLP) point of view. This …
(BESSs) in distributed networks from a nonlinear programming (NLP) point of view. This …
Comparing stochastic programming with posteriori approach for multi-objective optimization of distributed energy systems under uncertainty
Uncertainty complicates the optimization model of distributed energy systems, it is a
challenge to address the fragility of optimal solutions, which calls for an effective but …
challenge to address the fragility of optimal solutions, which calls for an effective but …
Modelling of national and local interactions between heat and electricity networks in low-carbon energy systems
Decarbonisation of the heating and cooling sector is critical for achieving long-term energy
and climate change objectives. Closer integration between heating/cooling and electricity …
and climate change objectives. Closer integration between heating/cooling and electricity …
Optimal scheduling of gas and electricity consumption in a smart home with a hybrid gas boiler and electric heating system
Abstract Space and water heating are two major components of household energy
consumption, and a number of work has been done to combine multiple residential heating …
consumption, and a number of work has been done to combine multiple residential heating …
Spatially-resolved urban energy systems model to study decarbonisation pathways for energy services in cities
This work presents the COMET (Cities Optimisation Model for Energy Technologies) model,
a spatially-resolved urban energy systems model that takes into account energy service …
a spatially-resolved urban energy systems model that takes into account energy service …
Risk assessment of integrated electricity and heat system with independent energy operators based on Stackelberg game
C Wang, C Yan, G Li, S Liu, Z Bie - Energy, 2020 - Elsevier
Abstract The Integrated Electricity and Heat System (IEHS) is recognized as an important
trend to develop a more clean and efficient energy system. As electricity and heat systems of …
trend to develop a more clean and efficient energy system. As electricity and heat systems of …
Optimal design and management of distributed energy network considering both efficiency and fairness
H Ren, Q Wu, Q Li, Y Yang - Energy, 2020 - Elsevier
In this paper, based on the principle of complementation, interaction and mutual benefit of
distributed energy prosumers, an integrated analytical framework considering both overall …
distributed energy prosumers, an integrated analytical framework considering both overall …