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Here's the situation:
The house has existing 100A service, into an ancient panel. That's due for replacement, but hopefully it can wait until next year.
There's a new (empty) conduit feeding a new barn, where the inverter will be installed. The current plan is to install a breaker in the house panel and run wiring (250 feet) to the barn. There will be a sub-panel at the barn where the inverter will feed in.
Inverter is rated at 32A continuous output, with a 40A max breaker size. There will be a disconnect and REC meter can between the inverter and the panel.
I would like to be able to add an additional 10kW of PV once the barn is complete (42A continuous, 50A breaker/fuse).
I have a 100A load center (Square D QO120M100RB) to mount on the barn (that's a main breaker panel, but the breaker could be removed and replaced with lugs, if necessary - also, I've heard that there may be lugs which can be installed in the input side of the breaker to allow solar to feed there, without actually flowing through the main?). I also have a HOM48L125GRB sitting around that can be used if there's some benefit. I have two 60A disconnects - one fusible and one not.
My thought was to install a 100A breaker into the sub-panel, connected to the REC meter. I could then install the fusible disconnect with 40A fuses and connect the inverter to that. In the future, I could install a second fusible disconnect and also feed into the supply side of the meter.
However, I don't know if that will be compatible with the 120% / 125% rules (we're using NEC2014, here, according to the inspector) for either the sub-panel or for the main panel. Both currently, and also when the second inverter is installed.
I'd prefer to use the stuff I already have, but since I haven't actually installed it or pulled the wires through the conduit yet, I can still change things if it's necessary.
Any input would be appreciated...
The house has existing 100A service, into an ancient panel. That's due for replacement, but hopefully it can wait until next year.
There's a new (empty) conduit feeding a new barn, where the inverter will be installed. The current plan is to install a breaker in the house panel and run wiring (250 feet) to the barn. There will be a sub-panel at the barn where the inverter will feed in.
Inverter is rated at 32A continuous output, with a 40A max breaker size. There will be a disconnect and REC meter can between the inverter and the panel.
I would like to be able to add an additional 10kW of PV once the barn is complete (42A continuous, 50A breaker/fuse).
I have a 100A load center (Square D QO120M100RB) to mount on the barn (that's a main breaker panel, but the breaker could be removed and replaced with lugs, if necessary - also, I've heard that there may be lugs which can be installed in the input side of the breaker to allow solar to feed there, without actually flowing through the main?). I also have a HOM48L125GRB sitting around that can be used if there's some benefit. I have two 60A disconnects - one fusible and one not.
My thought was to install a 100A breaker into the sub-panel, connected to the REC meter. I could then install the fusible disconnect with 40A fuses and connect the inverter to that. In the future, I could install a second fusible disconnect and also feed into the supply side of the meter.
However, I don't know if that will be compatible with the 120% / 125% rules (we're using NEC2014, here, according to the inspector) for either the sub-panel or for the main panel. Both currently, and also when the second inverter is installed.
I'd prefer to use the stuff I already have, but since I haven't actually installed it or pulled the wires through the conduit yet, I can still change things if it's necessary.
Any input would be appreciated...
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