Fifth-generation district heating and cooling systems: A review of recent advancements and implementation barriers
As global urbanisation levels continue to rise, supplying urban areas with low emissions
energy becomes imperative in the fight against climate change. In areas with high demand …
energy becomes imperative in the fight against climate change. In areas with high demand …
Integrated electricity–heat–gas systems: Techno–economic modeling, optimization, and application to multienergy districts
EAM Cesena, E Loukarakis, N Good… - Proceedings of the …, 2020 - ieeexplore.ieee.org
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 …
combinations of different energy vectors to meet the needs of end-users and potentially …
Model-free real-time autonomous control for a residential multi-energy system using deep reinforcement learning
Multi-energy systems (MES) are attracting increasing attention driven by its potential to offer
significant flexibility in future smart grids. At the residential level, the roll-out of smart meters …
significant flexibility in future smart grids. At the residential level, the roll-out of smart meters …
Scalability and replicability for smart grid innovation projects and the improvement of renewable energy sources exploitation: The FLEXITRANSTORE case
In this paper, detailed scalability and replicability plans have been developed to facilitate the
adoption of innovation technologies in the pan-EU market. Smart grid development must …
adoption of innovation technologies in the pan-EU market. Smart grid development must …
Flexibility from distributed multienergy systems
Multienergy systems (MES), in which multiple energy vectors are integrated and optimally
operated, are key assets in low-carbon energy systems. Multienergy interactions of …
operated, are key assets in low-carbon energy systems. Multienergy interactions of …
Dispatch model for CHP with pipeline and building thermal energy storage considering heat transfer process
Utilizing the flexibility provided by the thermal system components, for example, pipelines in
the district heating network (DHN), building envelopes as well as thermal energy storage …
the district heating network (DHN), building envelopes as well as thermal energy storage …
[HTML][HTML] Upscaling smart local energy systems: A review of technical barriers
C Rae, S Kerr, MM Maroto-Valer - Renewable and Sustainable Energy …, 2020 - Elsevier
As the transition towards a more sustainable, distributed energy model has continued to
gather pace, the number of Smart Local Energy Systems (SLES) projects has increased …
gather pace, the number of Smart Local Energy Systems (SLES) projects has increased …
Optimal coordinated operation of integrated natural gas and electric power systems: A review of modeling and solution methods
The integration of different energy systems is receiving increasing attention as a promising
solution to accommodate the rising share of renewable energy sources (RES). The …
solution to accommodate the rising share of renewable energy sources (RES). The …
Optimal water–power flow-problem: Formulation and distributed optimal solution
This paper formalizes an optimal water–power flow (OWPF) problem to optimize the use of
controllable assets across power and water systems while accounting for the couplings …
controllable assets across power and water systems while accounting for the couplings …
Pandapipes: An open-source piping grid calculation package for multi-energy grid simulations
D Lohmeier, D Cronbach, SR Drauz, M Braun… - Sustainability, 2020 - mdpi.com
The increasing complexity of the design and operation evaluation process of multi-energy
grids (MEGs) requires tools for the coupled simulation of power, gas and district heating …
grids (MEGs) requires tools for the coupled simulation of power, gas and district heating …