Control and operation of a microgrid can be operated at grid connected or islanded modes. In this paper, the microgrid consists of a Diesel, PV modules with a distributed energy storage system, loads, and inverter. The purpose of power management is to control the stability of the system to cope with changes in load and interconnection with other networks. The stability of the microgrid is also obtained by setting the load connected to the system. Power management is also controls the operation of each plant based on the condition of the energy sources used as a source of generation. In islanded mode, the main goal of power management is to stabilize the system, in terms of frequency and voltage. In grid connected mode, typical objectives are to minimize the price of energy import at the point of common coupling (PCC).

Power Management; PV-Diesel; Distributed Energy Storage; Microgrid

. A. G. Tsikalakis, N. D. Hatziargyriou, “Centralized Control for Optimizing Microgrids Operation”, IEEE Transactions on Energy Conversion, IEEE Journals, Vol. 23, No. 1, pp. 241-248, March 2008.

. A. L. Dimeas, N. D. Hatziargyriou, “A Multigent System for Microgrids”, Power Engineering Society General Meeting, IEEE Conferences, Vol. 1, pp. 55-58, 2004.

. A. Tuladhar, “Power Management of an Off-Grid PV Inverter System with Generators and Battery banks”, Power and Energy Society General Meeting, IEEE Conferences, pp. 1-5, 2011.

. B. Kroposki, T. Basso, R. DeBlasio, “Microgrids Standards and Technologies”, Power and Energy Society General Meeting – Conversion and Delivery of Electrical Energy in the 21st Century, pp. 1-4, IEEE, 2008.

. B. Lasseter, “Microgrids”, Power Engineering Society Winter Meeting, Vol. 1, pp. 146-149, IEEE, 2001.

. C. Marnay, F. J. Rubio, A. S. Siddiqui, “Shape of the Microgrid”, Power Engineering Society Winter Meeting, Vol. 1, pp. 150-153, IEEE, 2001.

. D. Yu, S. Yuvarajan, “Load Sharing in a Hybrid Power System with a PV Panel and a PEM Fuel-Cell”, Applied Power Electronics Conference and Exposition, APEC '06. Twenty-First Annual IEEE, 2006.

. F. Katiraei, R. Iravani, “Power Management Strategies for a Microgrid wirh Multiple Distributed Generation Units”, IEEE Transactions on Power Systems, IEEE Journals, Vol. 21, No.4, pp. 1821-1831, November 2006.

. F. Katiraei, R. Iravani, N. Hatziargyriou, A. Dimeas, “Microgrids Management”, IEEE Power and Energy Management Magazine, Vol. 6, pp. 54-65, May/June 2008.

. J. Lagorse, M. G. Simões, A. Miraoui, “A Multi-Agent Fuzzy Logic Based Energy Management of Hybrid System”, IEEE Transactions on Industry Application, IEEE Journals, Vol. 45, pp. 2123-2129, 2009.

. J. M. Guerrero, N. Berbel, J. Matas, J. L. Sosa, J. Cruz, A. Alentorn, “Decentralized Control for Parallel Operation of Distributed Generation Inverters Using Resistive Output Impedance”, IEEE Transactions on Industrial Electronics, Vol. 54, No. 2, April 2007.

. J. Oyarzabal, J. Jimeno, J. Ruela, A. Engler, C. Hardt, “Agent Base Micro Grid Management System”, IEEE Conferences, 2005.

. J. R. B. Sousa, A. M. N. Lima, “Modeling and Simulation of Systems of Multiple Sources of Energy by Differential Hybrid Petri Nets”, IEEE Conferences, pp. 1861-1866, 2008.

. J. Zeng, H.W. Ngan, J. Liu, J. Wu, X. Yu, “Colored Petri Nets Modeling of Multi-agent System for Energy Management in Distributed Renewable Energy Generation System”, IEEE Conferences, pp. 1-5, 2010.

. L. Wang, Q. Chen, “Power Grid Fault Diagnosis Model Based on Fault Knowledge Representation”, IEEE Conferences, pp. 539-543, 2011.

. M. I. Hamid, M. Anwari, Z. Salam, Taufik, “Load Sharing Characteristic of Single Phase PV Inverter Connected to Grid”, 2nd IEEE International Conference on Power and Energy (PECon 08), December 1 – 3, Johor Bahru, Malaysia, 2008.

. M. Quamruzzaman, K. M. Rahman, “Development of Control Strategy for Load Sharing in Grid-Connected PV Power System”, 5th International Conference on Electrical and Computer Engineering ICECE Dhaka, Bangladesh, 20-22 December 2008.

. N. D. Hatziargyriou, A. L. Dimeas, A. G. Tsikalakis, J. A. P. Lopes, G. N. Kariniotakis, J. Oyarzabal, “Management of Microgrids in Market Environment”, IEEE Conferences, 2005.

. Q. Jiang, M. Xue, G. Geng, "Energy Management of Microgrid in Grid-Connected and Stand-Alone Modes”, IEEE Trans. on Power Systems, Vol. 28, Issue: 3, pp. 3380–3389, 2013.

. R. H. Lasseter, “MicroGrids”, Power Engineering Society Winter Meeting, Vol. 1, pp. 305-308, IEEE, 2002.

. R. Lasseter, A. Akhil, C. Marnay, J. Stephens, J. Dagle, R. Guttromson, A. Sakis Meliopoulous, R. Yinger, and J. Eto, “Integration of Distributed Energy Resources – The CERTS MicroGrid Concept”, CERTS, April 2002.

. R .Lukomski, K. Wilkosz, “Modeling of Multi-agents System for Power System Topology Verification with use of Petri Nets”, IEEE Conferences, pp. 1-6, 2010.

. R. Majumder, B. Chaudhuri, A. Ghosh, R. Majumder, G. Ledwich, F. Zare, “Improvement of Stability and Load Sharing in an Autonomous Microgrid Using Supplementary Droop Control Loop”, IEEE Transactions on Power Systems, IEEE Journals, Vol. 25, No. 2, pp. 796-808, May 2010.

. S. H. Lee, G. T. Son, J.-W. Park, “Power Management and Control for Grid-Connected DGs with Intentional Islanding Operation of Inverter”, IEEE Transactions on Power Systems, IEEE Journals, Vol. 28, pp. 1235-1244, 2013.

. T. Logenthiran, D. Srinivasan, D. Wong, “Multi-Agent Coordination for DER in MicroGrid”, Sustainable Energy Technologies, ICSET 2008, IEEE Conferences, pp. 77-82, 2008.

. T. S. Ustun, C. Ozansoy, A. Zayegh, “Distributed Energy Resource (DER) Object Modeling with IEC 61850-7-420”, Universities Power Engineering Conference (AUPEC), 2011 21st Australasian, IEEE Conferences, pp. 1-6, 2011.

. Y. Sun, W. Qu, B. Liang, “An Advanced Synchronization and Current-sharing Method for Paralleled DC/AC Inverters without Interconnection”, Proceedings of the Eighth International Conference on Electrical Machines and Systems, ICEMS, 2005.