Title :
Modeling of start-up and shut-down power trajectories of thermal units
Author :
Arroyo, José M. ; Conejo, Antonio J.
Author_Institution :
Dept. de Ingenieria Electr.a, Univ. de CastillaLa Mancha, Ciudad Real, Spain
Abstract :
This paper presents a detailed formulation to model the power trajectories followed by a thermal unit during the start-up and shut-down processes, as well as the ramping limitations when increasing or decreasing power. This model is formulated using mixed-integer linear constraints, thereby overcoming some drawbacks of those approaches based on heuristics, dynamic programming or Lagrangian relaxation. The formulation presented can be used in different scheduling problems arising in centralized and deregulated frameworks. The self-scheduling problem faced by a thermal generator in a pool-based electric energy market is used to illustrate the proposed model. Finally, a realistic case study is analyzed to show the computational behavior of the proposed model.
Keywords :
dynamic programming; power generation economics; power generation scheduling; power markets; thermal power stations; Lagrangian relaxation; deregulated frameworks; dynamic programming; mixed-integer linear constraints; pool-based electric energy markets; ramping limits; self-scheduling problems; shut-down power trajectories; start-up power trajectories; thermal generators; thermal units; Cost function; Dynamic programming; Hydraulic turbines; Job shop scheduling; Lagrangian functions; Load forecasting; Processor scheduling; Production; Rapid thermal processing; Thermal loading; Ramping limits; start-up and shut-down power trajectories; thermal units;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2004.831654
