Micro-grid architecture is designed for small scale model in Brawijaya University area in order to change conventional AC-based electricity system previously. Low voltage direct current (LVDC) levels are proposed and charactized to obtain the optimal design of the DC grid system. Some parameters related to the electrical phenomenon of voltage, current and power which occur in distributed-generation, distribution grid, and load sites were also analyzed. Detailed model of photovoltaic (PV) and PMSG was implemented with operational analysis and simulated with study case modes to achieve the power and system efficiency. DC bus is conducted to accommodate the distribution power between PV generations; battery and super capacitor for energy sorage element, distributed-load and other grid utilization. Various condition and operation have been characterized toward stability performance of the voltage and current of 12-36 volts and 0-20 A DC, respectively. This architectural design can be utilized to develop an actual design and small scale implementation of the LVDC smart micro-grid system.
[1]
G. Heydt,et al.
Architecture of a smart microgrid distributed operating system
,
2011,
2011 IEEE/PES Power Systems Conference and Exposition.
[2]
R.E. Brown,et al.
Impact of Smart Grid on distribution system design
,
2008,
2008 IEEE Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century.
[3]
Periklis Chatzimisios,et al.
Chapter 26 – A Survey on Smart Grid Communications: From an Architecture Overview to Standardization Activities
,
2013
.
[4]
Songhuai Du,et al.
Simulation and Analysis of PMSG-based Wind Energy Conversion System using Different Coverter Models
,
2013
.