Deterministic Approach for Generation and Transmission Expansion Planning
Deterministic Approach for Generation and Transmission Expansion Planning
In this paper, the Generation and Transmission Expansion Planning (G&TEP) problem, considering two case studies, is analyzed. In the first case, the GEP and TEP problems are considered separately, while in the second GEP and TEP problems are solved together, thus G&TEP problem appears. The objective function of the mixed-integer linear programming (MILP) problem is minimizing the expected generation costs, load-shedding costs and investment costs. The planner can modify the presented mathematical model in order to satisfy any other system requirements considering G&TEP problem. The approach presented in this paper is a deterministic static one. The investment decision is considered to be made at the beginning of the planning horizon.
- University of Bergamo Italy
- University of Bucharest Romania
- Polytechnic University of Bucharest Romania
- Constanta Maritime University Romania
Optimization, Control and Optimization, Sustainability and the Environment, Energy Engineering and Power Technology, Renewable energy sources, Generation expansion planning; Optimization; Renewable energy sources; Transmission expansion planning; Energy Engineering and Power Technology; Fuel Technology; Electrical and Electronic Engineering; Control and Optimization; Renewable Energy; Sustainability and the Environment;, Fuel Technology, Settore ING-IND/33 - Sistemi Elettrici per L'Energia, Transmission expansion planning, Generation expansion planning, Renewable Energy, Electrical and Electronic Engineering
Optimization, Control and Optimization, Sustainability and the Environment, Energy Engineering and Power Technology, Renewable energy sources, Generation expansion planning; Optimization; Renewable energy sources; Transmission expansion planning; Energy Engineering and Power Technology; Fuel Technology; Electrical and Electronic Engineering; Control and Optimization; Renewable Energy; Sustainability and the Environment;, Fuel Technology, Settore ING-IND/33 - Sistemi Elettrici per L'Energia, Transmission expansion planning, Generation expansion planning, Renewable Energy, Electrical and Electronic Engineering
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