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Arthropod-borne disease challenges from planetary warming, urbanization, and migration. [PDF]
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Climate-driven invasion of <i>Pomacea canaliculata</i> and <i>Angiostrongylus cantonensis</i> transmission risk: Ecological niche modeling forecasts and public-health governance recommendations. [PDF]
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IEEE Transactions on Power Systems, 2023
In this paper, a Line-Wise (LW) formulation of the AC Transmission Network Expansion Planning (AC-TNEP) problem for meshed transmission networks is proposed. The proposed formulation is then relaxed using a novel Quadratic Convex (QC) relaxation that can
Abdel Rahman Aldik, B. Venkatesh
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In this paper, a Line-Wise (LW) formulation of the AC Transmission Network Expansion Planning (AC-TNEP) problem for meshed transmission networks is proposed. The proposed formulation is then relaxed using a novel Quadratic Convex (QC) relaxation that can
Abdel Rahman Aldik, B. Venkatesh
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Static Transmission Network Expansion Planning Considering Voltage Limits
2023 IEEE AFRICON, 2023Due to ever-increasing electricity demand, the need to expand transmission network system arises. Transmission Network Expansion Planning (TNEP) is an issue caused by addition of large scale power generation into an existing power system.
Faith Eseri Inyanga +2 more
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Transmission Network Expansion Planning
2021This chapter analyzes transmission network expansion planning (TNEP), aimed at determining the optimal approach for adequate selection of transmission lines to be constructed to meet the growing energy demand, as well as facilitating power transfer from far-away locations to consumers.
Nnamdi Nwulu, Saheed Lekan Gbadamosi
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AC Multi-Stage Transmission Network Expansion Planning considering a Multi-Voltage Approach
IEEE PES Innovative Smart Grid Technologies Conference Europe, 2022Long-term transmission network expansion planning aims to determine where, when and which types of equipment should be installed over a period of time, in order to meet the electric market needs with certain specifications of quality in services at the ...
Patricio Cajas +5 more
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PSO based transmission network expansion planning
MELECON 2014 - 2014 17th IEEE Mediterranean Electrotechnical Conference, 2014The transmission network expansion planning (TNEP) problem is tackled within this paper. The TNEP study is approached for a real power system designed based on the Western and South-Western parts of the Romanian Power System. The study is performed considering 3 consumed power evolution scenarios and power transfers. The complete a.c.
Attila Simo +3 more
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Optimal static and dynamic transmission network expansion planning
Evolving Systems, 2020In this paper, a novel approach is proposed to solve the problem of static and dynamic Transmission expansion planning (TEP) in electrical power systems. The proposed method is the execution of an Adaptive salp swarm optimization algorithm (ASSO). The ASSO is a meta-heuristic algorithm, which depends on the swarming behavior and population of salps. In
M. D. Khardenvis, V. Pande
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Multiobjective environmental transmission network expansion planning
2013 IEEE Grenoble Conference, 2013This paper presents a methodology for solving the Transmission Expansion Planning Problem (TEPP) when environmental concerns are included. The traditional problem is solved minimizing the investment cost of adding transmission equipment in order to meet future demand.
Carlos Adrian Correa +3 more
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Complexity of transmission network expansion planning
Energy Systems, 2013Transmission network expansion planning in its original formulation is NP-hard due to the subproblem Steiner trees, the minimum cost connection of an initially unconnected network with mandatory and optional nodes. By using electrical network theory we show why NP-hardness still holds when this subproblem of network design from scratch is omitted by ...
Oertel, David, Ravi, R.
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