Solar panel choice

Re: Solar panel choice

Henry wrote: »

Sharp 240
Inverter- Sunnyboy 8000us
8.64k
10,236kwhs
5.75

Sunpower 230
Inverter ?
8.28 kw
10,331 kwhs
price per watt $6.60

Looks like bang for the buck it is your first choice, $0.85 a watt difference in price?
Is there any reason to choose one installer over the other?

Re: Solar panel choice

Henry wrote: »

Prelim shading check showed 94%. They said we could tweek that by moving the array a little.

Move the array. Shaded cells kill the power in that string. Or insist on 2 smaller inverters, and have the shaded portion feed it's own inverter, so you don't loose power on the whole system.

Also - look into management/monitoring, so you can see before a nasty electric bill arrives, if you have a problem in a string or inverter.

Re: Solar panel choice

In NW Ontario, the going rate for a 10kW grid-Tie microFIT system using poly-silicon panels is about $6.00 to $9.00 per watt. Panels do not have to be domestically sourced for projects completed before Dec 31 under the Ontario microFIT rules. The domestic content requirements for this year can be fulfilled with Ontario-made racking and inverters that have prices very comparable to US prices.

There is a rather healthy profit margin being made by installers in Ontario on microFIT systems at current prices. That's not necessarily a bad thing for the industry, but something that joe homeowner should know before signing any contract.

Re: Solar panel choice

hmansour wrote: »

If facing the sun it would exceed its rated power guaranteed.

How old was the panel? All a-si panels produce about 20% more than rated power for the first 3 months and then stabilise to their rated Watts.

Re: Solar panel choice

My question is: How are they going to install a 8kW inverter? Most homes are 200amp service, and the most you can backfeed into them is 20% or 40amps to meet NEC code. 125% of max current output from a 8kW inverter is 41.6 Amps. Code won't allow it unless you downsize the main breaker (usually have to go way down to 150A), replace the service entry with larger ($$$) or do a line side tap which is impossible on most residential services. Make sure you have this resolved with your installer ahead of time. Probably should back off to a 7kW system.
Prices here are running about $5.00/watt using Trina or Canadian modules.

Re: Solar panel choice

solarix wrote: »

Prices here are running about $5.00/watt using Trina or Canadian modules.

I know a guy in Tuscon who just added 6 Schott 225 panels/Enphase micro-inverters to an existing system for just over $5/watt. Prices are very good in Arizona!

solar_dave wrote: »

This depends on how much stuff is in the 200 amp panel, If the loads are under 150amp and you add a 60 amp breaker this still meets code. The problem comes when your 200 amp panel is mostly consumed already with loads. This was my exact problem and I had to up my service to a dual 200 amp service, and a 400 amp transformer feed.

Well - kind of. Depending on your load calculations you may not be able to downsize your main breaker and feed in more PV - but the total feed into your residential main load center can't be more than 120% of the panel's busbar rating. You could have no loads on the panel and you'd still have to downsize the main breaker if you want to feed in 60A of PV. An electrician will be able to tell you if this is the case or not. Shouldn't take much longer than 30 minutes to run the calcs. I can't imagine that you wouldn't be able to downsize unless you have a large house (3000 sq/ft+), all electric appliances and a lot of AC or heat-pumps.

Re: Solar panel choice

Henry wrote: »

Ready to install residential solar power in NJ. Two companies have made proposals very close in price. My choice, Sunpower 230 or Sharp 240. Which one do I pick?

The generic answer is: what is more important,
maximum capacity or lowest cost?

I recently did a runoff between Sunpower and
Sharp. I started out wanting Sunpower, and I
ultimately selected Sharp.

Sunpower makes higher efficiency PV modules,
and this gets manifested in the product as a smaller
footprint. The nominal output of the panel is the
same (235ish watts), and the Sunpower collects a
premium for the smaller footprint.

Ultimately, another reason forced me off Sunpower
(they don't support Enphase), but even if they had
I would have gone with the Sharps. That's because
my roof could not take full advantage of the slightly
smaller form factor - I could add only one more panel
to my original 13. That 8% gain was not worth the
extra cost and the loss of the Enphase inverters for me.

Note that if my roof were laid out differently, say, with
one large and consistent target area, I definitely would
be open to Sunpower.

John

Re: Solar panel choice

BB. wrote: »

Dave, out of curiosity--is this a sub-panel or a main panel?

For example, say you had a 200 amp main panel and this 175 amp was a sub-panel... I would expect that the 60 amp breaker/circuit/gt inverter would be too large if the main panel was 200 amp rated with a 200 amp; breaker?

-Bill

It is actually a second 200 amp main from a 400 amp transformer/meter feed, the utility came out and pulled new larger gauge wire to the transformer. It looks like a sub but my main has 2 separate slots for 200 amp main breakers, one for the internal breaker buss and one for an external breaker buss. In the attached pics the old load center shows the builder original 200 amp service entrance, the Breaker panels shows the arrangement of the current setup with the second 200 amp load center hung off the side with a 2 inch conduit and the main breaker shows the 2 main breakers (now a 200 & 175 amp) and the house load breaker set up as ported off the old panel. You can see the PV disconnect and the required second meter which is owned by me for the PV output. At year end the Utility requires me to fill out a 3X5card and mail it to them with the overall PV output to hold my generation rates. I suspect they use those number to qualify how much local PV generation as business to meet their mandated by law green generation. The main meter is a digital meter that has 8 different data items for TOU rates, etc. in it and has the LCD arrows to show direction of the electron flow.

The bright green sticker is the very difficult code department approval, added after 3 trips by the inspector. (on the last trip the electrician was there and made all the needed changes) :D:D It actually took the electrician 4 trips as the utility had a change for him too. (the electrician met the utility representative as well) Probably to my benefit as they had the grounding a mess.

Edit: BTW this whole mess was a $4300 cost over run, this is why I warn larger PV grid tie folks to evaluate the current load center and consider this as a possibility. At least it was added to the overall cost by the contractor so it qualified as part of the 30% tax credit. Really I was going to have to upgrade it anyway as I am adding a 750 sq. ft building this summer to the property so better that I get Obama to pay his share!