Ramp‐based scheduling vs. energy‐block scheduling in day‐ahead market (DAM)
Abstract
It has been recently reported that conventional unit commitment approach, which is
based on energy-block, may not be capable of guaranteeing that the resulting energy
schedule is feasible for dispatch [1, 2, 33, 41, 65-67]. Moreover, due to some
underlying accepted assumptions widely used in Unit Commitment (UC) formulations,
inefficient deployment of resources and ramp constraint violations could take place,
with resulting increases in system operational costs; furthermore, security of the entire
power system could even be jeopardized.
Thus, this thesis has applied a newly proposed UC formulation proposed by Germán
in [1, 2], which draws a clear distinction between power and energy, trying to identify
the benefits of using power-based UC scheduling, instead of energy-blocks scheduled
on an hourly basis. Piecewise-linear power trajectories are used for modeling both
demand and generation. Moreover, startup and shutdown power trajectories are also
taken into account, to obtain more efficient scheduling.
A realistic system ― ERCOT is used as a case study to conduct experiments.
Between power-based UC scheduling and traditional UC formulation, lots of
comparisons are made in the thesis. A brief introduction and literature review about
unit commitment and short term planning is given at the beginning of this thesis. The
differences between the two UC formulations are presented afterwards. Finally,
numerical results and tables, along with discussions and comparisons are shown at the
end, giving conclusions as evidential support.
Trabajo Fin de Máster
Ramp‐based scheduling vs. energy‐block scheduling in day‐ahead market (DAM)Titulación / Programa
Master in the Electric Power IndustryMaterias/ UNESCO
33 Ciencias tecnológicas3322 Tecnología energética
332202 Generación de energía
531205 Energía
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