Continuous Piecewise Linear Approximation of Plant-Based Hydro Production Function for Generation Scheduling Problems

Abreu, David Lucas dos Santos; Finardi, Erlon Cristian

doi:10.3390/en15051699

Cited by 5 publications

(2 citation statements)

References 27 publications

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“…Hence this ϑ-constraint method considers ramp constraints in thermal constraints to obtain a feasible working region in the thermal unit without uncertainty. The essential thermal constraints in HTS with the consideration of ramp constraints are given in equations (3)(4)(5)(6)(7)(8)(9)(10).…”

Section: B 𝝑-Constraint Methodsmentioning

confidence: 99%

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A Novel Hybrid Approach for Hydrothermal Scheduling Using Mathematical and Metaheuristic Search Methods

Mundotiya,

Tiwari,

Alotaibi

et al. 2024

IEEE Access

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Hydrothermal scheduling is a significant concern in the field of power system economics that seeks to reduce the overall cost of generation by optimizing the hourly output of generators. However, this scheduling process suffers from a non-linear and complex problem due to set of uncertainty constraints from hydro and thermal units. Hence ϑ-constraint method has been proposed in which ramp constraints are considered that supply a feasible power region of the thermal units and minimize the uncertainty constraints. In addition, the existing solution techniques of hydro and thermal unit, commitment problems have not considered thermal constraints and their losses. This results in the frequent swapping of hydro units which decreases the energy conversion efficiency by a percentage at each repetition and increases the cost of the system. Therefore, a novel Chaotic geometric programming and chaotic approximation approach has been proposed that balance water discharge level without frequency swapping based on Armijo's rule and Hazen Williams's rule. Further, dynamic indexing is performed to increase the energy conversion efficiency. These balanced values are given to multiple-wave neural networks, to solve the hydro and thermal unit commitment problems. Furthermore, the cost of the system is minimized using Enhanced Ebola Optimization Search (EEOS) Algorithm in which the Srate parameter has been modified, thereby normalizing the hydrothermal scheduling problem for matured convergence. The proposed mathematical model has been implemented in the MATLAB simulator and the results obtained show better performance than the previous approaches in terms of mean, median and standard deviation.

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Section: B 𝝑-Constraint Methodsmentioning

confidence: 99%

“…The constraint for a capacity limit of generating units in the thermal power plant is the amount of electricity a generator can produce when it's running at full blast. This maximum amount of power P is typically measured in megawatts which are given in equation (5,6) as;…”

Section: mentioning

confidence: 99%