Abstract
This paper proposes applications of a modified stochastic fractal search algorithm (MSFS) to solve the economic load dispatch problem (ELD) in which valve-point effects, prohibited operating zones, power losses in all conductors, multi-fuel sources and other constraints of power system are taken into consideration. The proposed method is first developed in the study by performing two modifications on two procedures of new solution generation from conventional stochastic fractal search (SFS). The first modification is used to change the strategy of producing new solutions of the first and the second update procedures while the second one is to newly update the worst solutions in the first update process and the best solutions in the second update process. These modifications have major influence on the solution search performance of the proposed method. All improvements of the proposed method can be illustrated by solving and analyzing results from various test systems with different system scales including 3-unit, 6-unit, 10-unit, and 20-unit systems. Comparison of results obtained by MSFS, SFS, and other existing methods indicates that the proposed MSFS method is more effective and robust than compared methods in terms of solution quality, high-quality solution search stability and convergence process. Consequently, the proposed method should be used as a very favorable optimization method for the ELD problem and it should be tried for other optimization problems in electrical engineering.
Highlights
One of the most conspicuous trends in the 21st century is the economic growth, leading to ever-growing needs of energy consumption in all of the activities including production, services, and daily domestic households
The different cases are due to the different fuel cost function characteristics, different loads and different constraints in which fuel cost functions consider single fuel with and without valve-point effects (VPE) and multi-fuels (MF) with and without valve-point effects while different constraints are power losses (PTLL ), prohibited operating zone (POZ)
Another comparison formula is algorithm and those from other approaches available in the paper. Another comparison concerned to be the number of fitness assessments (NGer ), which is obtained by Equation (34) below: formula is concerned to be the number of fitness assessments (NGer), which is obtained by equation
Summary
One of the most conspicuous trends in the 21st century is the economic growth, leading to ever-growing needs of energy consumption in all of the activities including production, services, and daily domestic households. They necessitate a power system to supply an adequate amount of energy in order to address rising power demands. The objective and constraints of such power system are taken into account in the economic load dispatch problem (ELD) [1]. The simplest cost-power feature of each thermal unit in the ELD problem is approximately represented as a quadratic function since valve-point effects and prohibited operation zones are not Energies 2019, 12, 1796; doi:10.3390/en12091796 www.mdpi.com/journal/energies. The cost function of each unit still has complex characteristics when considering ramp rate limits, prohibited operating zones and non-convex
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