Abstract
Due to the rapid increase in the consumption of electrical energy and the instability of fossil fuel prices, renewable energy, such as wind power (WP), has become increasingly economically competitive compared to other conventional energy production methods. However, the intermittent nature of wind energy creates certain challenges to the power network operation. The combined economic environmental dispatch (CEED) including WP is one of the most fundamental challenges in power system operation. Within this context, this paper presents a new attempt to solve the probabilistic CEED problem with WP penetration. The optimal WP to be incorporated in the grid is determined in such a way that the system security is within acceptable limits. The system security is described by various fuzzy membership functions in terms of the probability that power balance cannot be met. These membership functions are formulated based on the dispatcher’s attitude. This probabilistic and non-convex CEED problem is solved using a new technique combining chaos theory and artificial bee colony (ABC) technique. In this improved version of ABC (IABC), chaotic maps are used to generate initial solutions, and the random numbers involved in the standard ABC are substituted by chaotic sequences. The effectiveness of IABC is tested on two groups of benchmark functions and practical cases. The impacts of dispatcher’s attitude and risk level are investigated in the simulation section.
Highlights
Experimental results obtained with the improved version of ABC (IABC) are compared with differential evolution (DE), particle swarm optimization (PSO), invasive weed optimization (IWO), firefly algorithm (FA), and artificial bee colony (ABC)
A new optimization technique called improved ABC (IABC) algorithm is developed for the combined economic environmental dispatch (CEED) problem including wind farm
A new formulation for the CEED problem is presented in order to take into account the security level of power grids when wind power (WP) resources are incorporated
Summary
Economic dispatch problem (EDP) is a static optimization problem that aims to find the optimal combination of power outputs of generating units so as to operate the power network in the most economical way [1]. This optimal distribution must obviously respect the power balance constraint and production limits of the power plants. The minimum fuel cost does not necessarily correspond to the minimum emissions and vice-versa [2], which is proved in various research studies [2,3,4,5] To handle this problem, system operators are called to simultaneously consider both fuel cost and emissions in the load dispatch problem.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
