If you live in a place that does net metering, it truly just is as simple as generated kWh * utility rate. That's what net metering means. Each kWh you provide via solar offsets the cost of a kWh from the grid.
Additionally, if you live in a place where power is $0.20-$0.30/kWh, then $233/mo is not a particularly large amount of electricity, especially for a single-family house. At $0.30/kWh, that's only ~775kWh of electricity.
There are a few different forms and a few different rules surrounding it. I can probably assume what he means, but a more direct comparison would obviate any of these factors.
Right.. but that's not his total cost, that's his total savings. So, with those factors; which make sense for New England, he's got a 7kW system getting light for about 3 hours a day on average to net that 775kWh to earn the $233 savings in a month. Would that be right?
If the system was totally efficient, then yes, but the 7kW nameplate number is peak efficiency... so most likely it's some averaged number (say, 4-5kW?) that is across a longer period of time.
Additionally, if you live in a place where power is $0.20-$0.30/kWh, then $233/mo is not a particularly large amount of electricity, especially for a single-family house. At $0.30/kWh, that's only ~775kWh of electricity.