Hybrid optimization algorithm for modeling and management of micro grid connected system
Received date: 30 Dec 2013
Accepted date: 16 Mar 2014
Published date: 09 Sep 2014
Copyright
In this paper, a hybrid optimization algorithm is proposed for modeling and managing the micro grid (MG) system. The management of distributed energy sources with MG is a multi-objective problem which consists of wind turbine (WT), photovoltaic (PV) array, fuel cell (FC), micro turbine (MT) and diesel generator (DG). Because, perfect economic model of energy source of the MG units are needed to describe the operating cost of the output power generated, the objective of the hybrid model is to minimize the fuel cost of the MG sources such as FC, MT and DG. The problem formulation takes into consideration the optimal configuration of the MG at a minimum fuel cost, operation and maintenance costs as well as emissions reduction. Here, the hybrid algorithm is obtained as artificial bee colony (ABC) algorithm, which is used in two stages. The first stage of the ABC gets the optimal MG configuration at a minimum fuel cost for the required load demand. From the minimized fuel cost functions, the operation and maintenance cost as well as the emission is reduced using the second stage of the ABC. The proposed method is implemented in the Matlab/Simulink platform and its effectiveness is analyzed by comparing with existing techniques. The comparison demonstrates the superiority of the proposed approach and confirms its potential to solve the problem.
Kallol ROY , Kamal Krishna MANDAL . Hybrid optimization algorithm for modeling and management of micro grid connected system[J]. Frontiers in Energy, 2014 , 8(3) : 305 -314 . DOI: 10.1007/s11708-014-0308-8
| 1 |
Baba J, Numata S, Suzuki S, Kusagawa S, Yonezu T, Denda A, Nitta T, Masada E. Fundamental measurements of a small scale micro grid model system. In: Proceedings of International Conference on Electrical Engineering. Kunming, China, 2005, 1-6
|
| 2 |
Mohamed F A, Koivo H N. System modelling and online optimal management of microgrid using mesh adaptive direct search. International Journal of Electrical Power & Energy Systems, 2010, 32(5): 398-407
|
| 3 |
Katiraei F, Iravani M R. Transients of a micro-grid system with multiple distributed energy resources. In: Proceedings of International Conference on Power Systems Transients. Montreal, Canada, 2005, Paper No. IPST05-080
|
| 4 |
Kriett P O, Salani M. Optimal control of a residential microgrid. Energy, 2012, 42(1): 321-330
|
| 5 |
Gerry S. Optimal rural microgrid energy management using HOMER. International Journal of Innovations in Engineering & Technology, 2013, 2(1): 113-118
|
| 6 |
Mohamed F A, Koivo H N. Environmental/Economic power dispatch of microgrid using multiobjective genetic algorithms. In: Proceedings of International Conference on Renewable Energy Congress. Sousse, Tunisia: CMERP, 2010, 495-500
|
| 7 |
Kremers E, Viejo P, Barambones O, de Durana J M G. A complex systems modelling approach for decentralized simulation of electrical microgrids. In: Proceedings of 15th IEEE International Conference on Engineering of Complex Computer Systems. Oxford, UK, 2010, 302-311
|
| 8 |
Zhang Y, Gatsis N, Giannakis G B. Robust energy management for microgrids with high-penetration renewables. IEEE Transactions on Sustainable Energy, 2013, 4(4): 944-953
|
| 9 |
Mashhour E, Moghaddas-Tafreshi S M. Mathematical modeling of electrochemical storage for incorporation in methods to optimize the operational planning of an interconnected micro grid. Journal of Zhejiang University Science, 2010, 11(9): 737-750
|
| 10 |
Lasseter R H, Piagi P. Extended microgrid using (DER) distributed energy resources. In: Proceedings of IEEE Power Engineering Society General Meeting. Tampa, USA, 2007, 1-5
|
| 11 |
Nichols D K, Stevens J, Lasseter R H, Eto J H, Vollkommer H T. Validation of the CERTS microgrid concept the CEC/CERTS microgrid testbed. In: Proceedings of IEEE Power Engineering Society General Meeting. Montreal, QC, Canada, 2006, 1-3
|
| 12 |
Lasseter R H, Piagi P. Extended microgrid using (DER) distributed energy resources. In: Proceedings of IEEE Power Engineering Society and General Meeting. Tampa, USA, 2007, 1-5
|
| 13 |
Kroposki B, Pink C, Lynch J, John V, Meor Daniel S, Benedict E, Vihinen I. Development of a high-speed static switch for distributed energy and microgrid applications. In: Proceedings of IEEE Power Conversion Conference. Nagoya, Japan, 2007, 1418-1423
|
| 14 |
Gerry S. Optimal rural microgrid energy management using HOMER. International Journal of Innovations in Engineering and Technology, 2013, 2(1): 56
|
| 15 |
Mohamed F A, Koivo H N. System modelling and online optimal management of microgrid using multiobjective optimization. In: Proceedings of IEEE International Conference on Clean Electrical Power (ICCEP). Capri, Italy, 2007, 148 -153
|
| 16 |
Alikhani E, Ahmadian M, Salemnia A. Optimal short-term planning of a stand-alone microgrid with wind/PV/fuel cell/diesel/microturbine. Canadian Journal on Electrical and Electronics Engineering, 2012, 3(3): 135-141
|
| 17 |
Olivares D E, Cañizares C A, Kazerani M. A centralized optimal energy management system for microgrids. In: Proceedings of IEEE Conference on Power Engineering Society General Meeting, 2011, 1-6
|
| 18 |
Kariniotakis G N, Soultanis N L, Tsouchnikas A I, Papathanasiou S A, Hatziargyriou N D. Dynamic modeling of microgrids. In: Proceedings of International Conference on Future Power Systems. Amsterdam, Netherlands, 2005, 1-8
|
| 19 |
Khamis A, Mohamed A, Shareef H, Ayob A. Modeling and simulation of small scale microgrid system. Australian Journal of Basic and Applied Sciences, 2012, 6(9): 412-421
|
| 20 |
Jaganathan S, Palaniswami S, Adithya R, Kumaar M N. Synchronous generator modelling and analysis for a microgrid in autonomous and grid connected mode. International Journal of Computers and Applications, 2011, 13(5): 3-7
|
| 21 |
Chen C, Duan S, Cai T, Liu B, Hu G. Smart energy management system for optimal microgrid economic operation. International Journal of Renewable Power Generation, 2011, 5(3): 258-267
|
| 22 |
Conti S, Nicolosi R, Rizzo S A, Zeineldin H H. Optimal dispatching of distributed generators and storage systems for MV islanded microgrids. IEEE Transactions on Power Delivery, 2012, 27(3): 1243-1251
|
| 23 |
Tan K T, Peng X Y, So P L, Chu Y C, Chen M Z Q. Centralized control for parallel operation of distributed generation inverters in microgrids. IEEE Transactions on Smart Grid, 2012, 3(4): 1977-1987
|
| 24 |
Chen S X, Gooi H B, Wang M Q. Sizing of energy storage for microgrids. IEEE Transactions on Smart Grid, 2012, 3(1): 142-151
|
| 25 |
Dasgupta S, Mohan S N, Sahoo S K, Panda S K. Lyapunov function-based current controller to control active and reactive power flow from a renewable energy source to a generalized three-phase microgrid system. IEEE Transactions on Industrial Electronics, 2013, 60(2): 799-813
|
| 26 |
Zhang D, Shah N, Papageorgioua L G. Efficient energy consumption and operation management in a smart building with microgrid. Energy Conversion and Management, 2013, 74: 209-222
|
| 27 |
Mohammadi M, Hosseinian S H, Gharehpetian G B. GA-based optimal sizing of microgrid and DG units under pool and hybrid electricity markets. International Journal of Electrical Power & Energy Systems, 2012, 35(1): 83-92
|
| 28 |
Mohamed F A, Koivo H N. System modeling and online optimal management of microgrid with battery storage. In: International Conference on Renewable Energies and Power Quality. Sevilla, Spain, 2007, 1-5
|
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