Multi-energy systems (MESs) combining different energy carriers like electricity and heat allow for more efficient and sustainable energy solutions. However, optimizing the design and operation of MESs is challenging due to non-linearities in the mathematical models used, especially the performance curves of technologies like combined heat and power units. Unlike similar work from the literature, this paper proposes an improved piecewise linearization method to efficiently handle the non-linearities, models an MES as a multi-objective mixed-integer linear program (MILP), and solves the optimization problem over a year with hourly resolution to enable detailed operation and faithful system design. The method uses fewer linear pieces to appro...
The complexity of Mixed-Integer Linear Programs (MILPs) increases with the number of nodes in energy...
Multi-energy systems can integrate heat and electrical energy efficiently, using resources such as c...
A detailed optimization model is presented for planning the short-term operation of combined cooling...
International audienceIn the energy transition of energy networks, multi-energy systems (MES) are pr...
International audienceThe optimization of multi-energy systems (MESs) in which multiple energy carri...
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...
Clear strategies that address all energy sectors, not just electricity, are required to achieve a su...
Multi-Energy Systems (MES) represent an increasingly important element in the undergoing energy tran...
New technologies and emerging challenges are drastically changing how the energy needs of our societ...
The scope of the paper is to investigate different strategies for the design of a multi-energy syste...
As the development of the multi-energy system (MES), various ME applications are deployed. ME applic...
The complexity of Mixed-Integer Linear Programs (MILPs) increases with the number of nodes in energy...
Multi-energy systems can integrate heat and electrical energy efficiently, using resources such as c...
A detailed optimization model is presented for planning the short-term operation of combined cooling...
International audienceIn the energy transition of energy networks, multi-energy systems (MES) are pr...
International audienceThe optimization of multi-energy systems (MESs) in which multiple energy carri...
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...
Clear strategies that address all energy sectors, not just electricity, are required to achieve a su...
Multi-Energy Systems (MES) represent an increasingly important element in the undergoing energy tran...
New technologies and emerging challenges are drastically changing how the energy needs of our societ...
The scope of the paper is to investigate different strategies for the design of a multi-energy syste...
As the development of the multi-energy system (MES), various ME applications are deployed. ME applic...
The complexity of Mixed-Integer Linear Programs (MILPs) increases with the number of nodes in energy...
Multi-energy systems can integrate heat and electrical energy efficiently, using resources such as c...
A detailed optimization model is presented for planning the short-term operation of combined cooling...