Microgrid @ Wichita State

 has partnered with Wichita State to develop a Renewable Energy Lab. The grant from Eevery provides real-time data from solar PVs and a substation for research and education at Wichita State. The solar PV system includes eight different configurations of solar panels and 1-minute averaged data real from solar panels and the weather station. PMU data from substation along with a twin relay system in the lab will not only provide data but also will provide the necessary tools for hardware in the loop virtual microgrid. A schematic diagram of the solar system at Wichita State with eight configurations are shown in the figure.

Microgrid at JBC

 Gallery 

June 12, 2020 - Solar PV Training from    

 
  • 8 different solar Systems for research purpose
  • Array 1: Standard string array 
Array 2: DC optimized string array with battery
  • Array 3: North facing micro inverters 
Array 4: East facing micro inverters 
Array 5: South facing micro inverters 
Array 6: West facing micro inverters
  • Dual axis solar tracking with micro inverters
  • Dual axis solar tracking system
  • Partially shaded with DC optimized string inverters
  • String inverters, battery, data acquisition, transformer and circuit breaker for solar system
  • DC optimized for array 8
  • DC optimized with battery control for array 2
  • Standard string inverter for array 1
  • 9.8kWh  battery bank
  • Data acquisition, communication and control system
  • Renewable Lab while under construction
  • Display system under construction

Solar PV System Details 

  • Array 1: Standard string-inverter with 3.8kW solar generation capacity. Two strings of panels with separate maximum power point trackers for optional azimuth variation 
  • Array 2: Optimized string inverter with battery. Total installed solar generation capacity is 3.8 kW. Inverter is capable of demand response & load shifting. Installed capacity of the lithium battery is 9.8 kWh. 
  • Array 3: North facing solar array with micro-inverter. Total installed solar generation capacity is 1.9 kW. All eight solar modules are mounted at a nominal 0-degree azimuth angle.
  • Array 4: East facing solar array with micro-inverter. Total installed solar generation capacity is 1.9 kW. All eight solar modules are mounted at a nominal 90-degree azimuth angle.
  • Array 5: South facing solar array with micro-inverter. Total installed solar generation capacity is 1.9 kW. All eight solar modules are mounted at a nominal 180-degree azimuth angle.
  • Array 6: West facing solar array with micro-inverter. Total installed solar generation capacity is 1.9 kW. All eight solar modules are mounted at a nominal 270-degree azimuth angle.
  • Array 7: Dual axis solar trackers with micro-inverters. Total installed solar generation capacity is 1.9 kW. Four tracker each with two modules. 
  • Array 8: Partially shaded optimized string inverter. Total installed solar generation capacity is 3.8 kW. Shadows from building and an exhaust partially shade the solar panels, at different times in a year.