This paper introduces a linear battery aging and degradation model to a multi-energy microgrid sizing model using mixed integer linear programming. The battery aging model and its integration into a larger microgrid sizing formulation are described. A case study is provided to explore the impact of considering battery aging on key results: optimal photovoltaic and storage capacities, optimal distributed energy resources operations strategies, and annual cost and generation metrics. The case study results suggest that considering battery degradation in optimal microgrid sizing problems significantly impacts the perceived value of storage. Depending on capacity loss and lifetime targets, considering battery degradation is shown to decrease op...
Existing models of microgeneration systems with integrated lead-acid battery storage are combined wi...
The incessantly growing demand for electricity in today’s world claims an efficient and reliable sys...
Storage technologies and storage integration are currently key topics of research in energy systems,...
This paper introduces a linear battery aging and degradation model to a multi-energy microgrid sizin...
International audienceLi-ion batteries are being increasingly used in stationary applications, allow...
Microgrids expansion problems with battery energy storage (BES) have gained great attention in recen...
This work proposes a mixed-integer linear programming model for the operational cost function of lit...
Over the last decades, electricity demand and supply have become more decentralized, and the opportu...
Properly sizing a microgrid is of paramount importance to reach an optimal operation during its enti...
Residential battery storage to perform load shifting and demand side management has become of utmost...
International audienceWe present an algorithm to handle the optimization over a long horizon of an e...
National audienceThe first objective of this paper is to present a simple method to do the optimal s...
The integration of energy storage system (ESS) provides various benefits to microgrids such as mitig...
Power systems with high penetration of variable renewable generation are vulnerable to periods with ...
Existing models of microgeneration systems with integrated lead-acid battery storage are combined wi...
The incessantly growing demand for electricity in today’s world claims an efficient and reliable sys...
Storage technologies and storage integration are currently key topics of research in energy systems,...
This paper introduces a linear battery aging and degradation model to a multi-energy microgrid sizin...
International audienceLi-ion batteries are being increasingly used in stationary applications, allow...
Microgrids expansion problems with battery energy storage (BES) have gained great attention in recen...
This work proposes a mixed-integer linear programming model for the operational cost function of lit...
Over the last decades, electricity demand and supply have become more decentralized, and the opportu...
Properly sizing a microgrid is of paramount importance to reach an optimal operation during its enti...
Residential battery storage to perform load shifting and demand side management has become of utmost...
International audienceWe present an algorithm to handle the optimization over a long horizon of an e...
National audienceThe first objective of this paper is to present a simple method to do the optimal s...
The integration of energy storage system (ESS) provides various benefits to microgrids such as mitig...
Power systems with high penetration of variable renewable generation are vulnerable to periods with ...
Existing models of microgeneration systems with integrated lead-acid battery storage are combined wi...
The incessantly growing demand for electricity in today’s world claims an efficient and reliable sys...
Storage technologies and storage integration are currently key topics of research in energy systems,...