This paper presents a long-term dynamic multi-objective planning model for distribution network expansion along with distributed energy options. The proposed model optimizes two objectives, namely costs and emissions and determines the optimal schemes of sizing, placement and specially the dynamics (i.e., timing) of investments on distributed generation units and network reinforcements over the planning period. An efficient two-stage heuristic method is proposed to solve the formulated planning problem. The effectiveness of the proposed model is demonstrated by applying it to a distribution network and comparing the simulation results with other methods and models
This article presents a mixed-integer linear stochastic model for the optimal expansion planning of ...
The paper develops a multi-objective planning framework for distribution network expansion with elec...
The energy transition is driving extensive changes to global energy systems, including the electrifi...
This paper presents a dynamic multi-objective model for distribution network expansion, considering ...
The use of Distributed Energy Resources (DER) has been proposed as one of the possible solutions to ...
This paper proposes a multistage (dynamic) distribution network expansion planning for renewable bas...
In this paper, the integration of intermittent distributed generation (wind and solar) is dealt with...
The integration of Distributed Energy Resources (DER) in power systems presents substantial challeng...
The electrical distribution system (EDS) has undergone major changes in the last decade due to the i...
Publisher Copyright: © 2022Currently, distribution systems are continuously evolving towards modern ...
The widespread adoption of small-scale distributed energy resources (DERs) amongst energy users has ...
The seamless integration of renewable distributed generation (DG) units into distribution system has...
The long term optimal planning of distribution systems is a very complex combinatorial problem becau...
This paper presents a long-term dynamic multi-objective model for distributed generation investment....
Recent technological advances, the global understanding of climate change and the role that renewabl...
This article presents a mixed-integer linear stochastic model for the optimal expansion planning of ...
The paper develops a multi-objective planning framework for distribution network expansion with elec...
The energy transition is driving extensive changes to global energy systems, including the electrifi...
This paper presents a dynamic multi-objective model for distribution network expansion, considering ...
The use of Distributed Energy Resources (DER) has been proposed as one of the possible solutions to ...
This paper proposes a multistage (dynamic) distribution network expansion planning for renewable bas...
In this paper, the integration of intermittent distributed generation (wind and solar) is dealt with...
The integration of Distributed Energy Resources (DER) in power systems presents substantial challeng...
The electrical distribution system (EDS) has undergone major changes in the last decade due to the i...
Publisher Copyright: © 2022Currently, distribution systems are continuously evolving towards modern ...
The widespread adoption of small-scale distributed energy resources (DERs) amongst energy users has ...
The seamless integration of renewable distributed generation (DG) units into distribution system has...
The long term optimal planning of distribution systems is a very complex combinatorial problem becau...
This paper presents a long-term dynamic multi-objective model for distributed generation investment....
Recent technological advances, the global understanding of climate change and the role that renewabl...
This article presents a mixed-integer linear stochastic model for the optimal expansion planning of ...
The paper develops a multi-objective planning framework for distribution network expansion with elec...
The energy transition is driving extensive changes to global energy systems, including the electrifi...