Last month, Pine Gate Renewable’s Grissom Solar project went commercial. Grissom is a 6.9-MW solar + 10-MWh battery storage site. Pine Gate requested support from Solar Operations Solutions (Solar-Ops) to overcome the challenging requirements that surfaced during the utility’s interconnection study.
The Grissom project has a single 5-MW interconnection that must be maintained when solar and battery storage are working under the supervision of a third-party SCADA system. Both the solar inverters and the battery storage system are independently AC-coupled to the interconnection through two myPV ClearSky units from Solar-Ops.
Each ClearSky provides revenue-grade metering and recloser protection while eliminating much of the overhead medium-voltage equipment, reducing construction time and long-term operational costs.
“AC coupling battery storage to new or existing solar facilities is increasingly common as developers and owner operators look to maximize value from their existing interconnection agreements and PPAs,” said Brad Micallef, Solar-Ops’ president. “The ClearSky product line is ideal for these applications due to its small size and built-in ability to satisfy protection and reporting requirements from the utility and ITC.”
Utilities have concerns regarding power quality issues from increased inrush current. Therefore, distribution interconnected generators like Grissom can face approval challenges. When AC-coupled battery storage is added to a solar facility, the additional transformers increase the chances of inrush current being a problem.
A distribution grid will experience a rapid reduction in voltage because of the sudden demand for current when too many transformers are energized at the same time. This sudden rapid voltage change can lead to equipment damage for power customers and requires mitigation for the utility to operate within IEEE standards.
Normally requiring a dedicated piece of equipment, the Grissom facility was able to mitigate its inrush current by sequencing the two myPV ClearSky units’ internal medium voltage reclosers. Programming one ClearSky to energize upon grid restoration and the other to delay energization by a few seconds, the inrush event was reduced to an acceptable level.
News item from Solar Operations Solutions
Solarman says
“Each ClearSky provides revenue-grade metering and recloser protection while eliminating much of the overhead medium-voltage equipment, reducing construction time and long-term operational costs.”
Yes, smaller micro-grid systems built close to the population that will use the power. Less transformer step losses due to stepping up transmission to use area, step down at the switching station then perhaps another two to three steps down to feed residential circuit breaker panels. A good 10% to 15% efficiency gain by proper placement of micro-grid assets.
“Utilities have concerns regarding power quality issues from increased inrush current. Therefore, distribution interconnected generators like Grissom can face approval challenges. When AC-coupled battery storage is added to a solar facility, the additional transformers increase the chances of inrush current being a problem.”
It depends on whose products you use for your system. GE has had its PV LV5 utility inverter available for a few years now and has been proven to be “grid reforming” like a large rotating mass generator and able to react in milliseconds to seconds to grid demands. It has also been used as a “black start” generator when needed.