Demand for flexibility in electricity systems and the transition to the Smart Grid is increasing
opportunities for demand response (DR). However, there are many barriers which prevent …

Multienergy systems (MES) can optimally deploy their internal operational flexibility to use
combinations of different energy vectors to meet the needs of end-users and potentially …

The integrated exploitation of different energy infrastructures in the form of multi-energy
systems (MESs) and the transformation of traditional prosumers into smart prosumers are …

This paper describes the extension of CREST's existing electrical domestic demand model
into an integrated thermal–electrical demand model. The principle novelty of the model is its …

Smart districts can provide flexibility from emerging distributed multi-energy technologies,
thus bringing benefits to the district and the wider energy system. However, due to …

There is increasing interest in multi-energy communities, which could become important
sources of demand response flexibility, especially when equipped with storage. Their …

Multienergy systems are flexible energy systems that can benefit from energy resources to
supply different energy demands. Due to the capabilities of multienergy systems in …

Designing decentralized energy systems in an optimal way can substantially reduce costs
and environmental burdens. However, most models for the optimal design of multi-energy …

Abstract Distributed Multi-Energy Systems (D-MES) can sustainably transform the energy
supply of buildings, districts, and communities by integrating multiple energy efficient …

With the advent of multi-carrier energy systems in the context of local energy markets, eg,
thermal market, virtual energy hub plants have become more prominent in many countries to …