Browsing by Autor "Fredy A. Acero"

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    Planning a HVDC South American Pacific Electric Interconnection Based on MTDC
    (Institute of Electrical and Electronics Engineers, 2021) Fredy A. Acero; Mario A. Ríos
    The continuous development of DC technology and its increasing implementation in projects, mainly in Europe, North America, and Asia, have created the need for methodologies to plan the DC interconnections between countries. However, the planning process should not be developed in a local context but rather, in the long run, thus enabling the inclusion of regional electrical systems. This paper presents two main methodologies. The first one aims to design local Multi-Terminal DC grids (MTDC) at the national level, using the graph theory. The second methodology presented is the integration of local MTDC grids that can later be extended to regional, continental, or subcontinental grids. The methodology is applied in the planning of regional electrical integration of the Pacific basin countries.
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    Planning multi-terminal direct current grids based graphs theory
    (Institute of Advanced Engineering and Science (IAES), 2020) Mario A. Ríos; Fredy A. Acero
    Transmission expansion planning in AC power systems is well known and employs a variety of optimization techniques and methodologies that have been used in recent years. By contrast, the planning of HVDC systems is a new matter for the interconnection of large power systems, and the interconnection of renewable sources in power systems. Although the HVDC systems has evolved, the first implementations were made considering only the needs of transmission of large quantities of power to be connected to the bulk AC power system. However, for the future development of HVDC systems, meshed or not, each AC system must be flexible to allow the expansion of these for future conditions. Hence, a first step for planning HVDC grids is the planning and development of multi-terminal direct current (MTDC) systems which will be later transformed in a meshed system. This paper presented a methodology that use graph theory for planning MTDC grids and for the selection of connection buses of the MTDC to an existing HVAC transmission system. The proposed methodology was applied to the Colombian case, where the obtained results permit to migrate the system from a single HVDC line to a MTDC grid.