New technologies and emerging challenges are drastically changing how the energy needs of our society have to be met. By consequence, energy models have to adapt by taking into account such new aspects while aiding in decision making processes of the design of energy systems. In this work the problem of the design and operation of a multi-energy system is tackled by means of a mixed integer linear programming (MILP) formulation. Given the large size of the problem to be solved, a matheuristic approach based on constraint relaxations and variable fixing is proposed in order to not restrict the applicability to small cases. Two variable fixing policies are presented and performance analysis comparison on them has been done. Tests have been pe...
Multi-Energy Systems (MES) represent an increasingly important element in the undergoing energy tran...
Clear strategies that address all energy sectors, not just electricity, are required to achieve a su...
As decentralized energy supply units, microgrids can make a decisive contribution to achieving clima...
New technologies and emerging challenges are drastically changing how the energy needs of our societ...
Modern energy system are evolving due to the opportunities and challenges that new technologies pose...
International audienceIn the energy transition of energy networks, multi-energy systems (MES) are pr...
Optimal design and operation of multi-energy systems involving seasonal energy storage are often hin...
The complexity of Mixed-Integer Linear Programs (MILPs) increases with the number of nodes in energy...
The development of Multi-Energy Systems (MES) or District Energy Systems (DES) requires suitable des...
The development of Multi-Energy Systems (MES) or District Energy Systems (DES) requires suitable des...
Multi-energy systems (MESs) combining different energy carriers like electricity and heat allow for ...
Multi-Energy Systems (MES) represent an increasingly important element in the undergoing energy tran...
Clear strategies that address all energy sectors, not just electricity, are required to achieve a su...
As decentralized energy supply units, microgrids can make a decisive contribution to achieving clima...
New technologies and emerging challenges are drastically changing how the energy needs of our societ...
Modern energy system are evolving due to the opportunities and challenges that new technologies pose...
International audienceIn the energy transition of energy networks, multi-energy systems (MES) are pr...
Optimal design and operation of multi-energy systems involving seasonal energy storage are often hin...
The complexity of Mixed-Integer Linear Programs (MILPs) increases with the number of nodes in energy...
The development of Multi-Energy Systems (MES) or District Energy Systems (DES) requires suitable des...
The development of Multi-Energy Systems (MES) or District Energy Systems (DES) requires suitable des...
Multi-energy systems (MESs) combining different energy carriers like electricity and heat allow for ...
Multi-Energy Systems (MES) represent an increasingly important element in the undergoing energy tran...
Clear strategies that address all energy sectors, not just electricity, are required to achieve a su...
As decentralized energy supply units, microgrids can make a decisive contribution to achieving clima...