원문정보
보안공학연구지원센터(IJGDC)
International Journal of Grid and Distributed Computing
Vol.9 No.8
2016.08
pp.345-356
피인용수 : 0건 (자료제공 : 네이버학술정보)
초록
영어
This paper presents a novel approach for dynamic economic dispatch in a MicroGrid by using the improved ant colony optimization (ACO). In order to satisfy the power balance and load demand, the mathematical model of economic dispatch is given to support the MicroGrid in both grid-connected and islanded mode. By means of ACO, the dynamic economic dispatch solution is proposed in combination with sequential quadratic programming (SQP), and the essential procedure is introduced. Simulation results demonstrate the feasibility and benefits of the proposed scheme.
목차
Abstract
1. Introduction
2. MicroGrid Structure
3. Mathematical Model of Economic Dispatch in MicroGrid
3.1. Proposed Objective Function
3.2. Equality Constraints
3.3. Inequality Constraints
4. Dynamic Economic Dispatch Solution for a MicroGrid
4.1. ACO Algorithm
4.2. Combining ACO with SQP
4.3. Key steps of the improved Approach
5. Simulation Results and Discussion
5.1. Parameter Setting
5.2. Case 1: Optimization for Grid-connected Mode
5.3. Case 2: Optimization for Islanded Mode
6. Conclusions and Future Work
Acknowledgements
References
1. Introduction
2. MicroGrid Structure
3. Mathematical Model of Economic Dispatch in MicroGrid
3.1. Proposed Objective Function
3.2. Equality Constraints
3.3. Inequality Constraints
4. Dynamic Economic Dispatch Solution for a MicroGrid
4.1. ACO Algorithm
4.2. Combining ACO with SQP
4.3. Key steps of the improved Approach
5. Simulation Results and Discussion
5.1. Parameter Setting
5.2. Case 1: Optimization for Grid-connected Mode
5.3. Case 2: Optimization for Islanded Mode
6. Conclusions and Future Work
Acknowledgements
References
저자정보
참고문헌
자료제공 : 네이버학술정보