How ever did people survive much less live off grid before PV ?

How ever did people survive much less live off grid before PV ?
Most history books can answer that question,or you can tap cavemen in a research engine.
Independance for some people is very important and less so for others.
I'm a greedy person because I want as much independance as I can and I want as much confort as I can get.
Living in a cave will effectively give me lots of independance,but on the comfort side?
PV has made living in a cave a lot more attractive for many people,myself included.
I built a wooden chalet 5 years ago on a 9'000 m2 piece of woodland that I had bought about 15 years ago.
My intention was to have a place to go to get away from city life for my own personnal reasons.
It took 6 months for me to understand that this way of life is far more beneficiel for my own personnal wellbeing.
I now live here on a permanent basis and have no intentions of returning to the civil world.
During the last four years I have spent approximately 2'300 euros to have my present solar setup.
There are many things that I have learnt,I have made mistakes and some of them have been a waste of money and others a waste of time.
The experience has been very interesting and enlightening.
There are two main reasons that I became a member of this forum,firstly, after many hours of searching the net to find information to improve my installation it was clear that many people are exactly where I was 4 years ago. so by sharing my experience it would be helpfull to avoid others making the same mistakes that I had made.
Secondly, there are people who four years ago were exactly where I am today,therefore they can help me.
I think the most important thing is to respect each others differences and help other people do what they want and not what we think is best for them.

I see living without electric or fossil fuels as basically struggling to stay alive every day. When
you tired out or were incapacitated, you died. Life expectancy was short, but I suppose it
tended to improve the gene pool back then. Bruce Roe

Thanyou Bruce, very informative.my panels are much closer to vertical,i should think that this is due to the different distances from the equator. They are also SE and SW not east and west.My exposure is not optimal because of trees at sun rise and set. From what i gather i should be able to increase considerably the number of panels by turning more to the east and west. I think i'll add another 200 watts and play around with the angles for this winter and see how everything goes during the other seasons before adding any more. I have a lot more money than sense,so maybe next winter i'll add a few more on and leave them set for winter all year round so as to be able to mount them more effectively and not have to worry about them.
What I found suprising is the speed at which the production falls with the angle changes. My worry was having so many panels with direct sunlight on them,even though at different angles,would be way over the max for controller. It isn't the case.
My objective is a minimum of 30 amps into battery pack for 4/5 hours on a clear winter day. I think that it is possible, If all goes well i'll be well over 30 for a couple of hours and a little under for the rest. 2 to 2.5 kwh on a winters day is plenty enough for my needs. If my calculations are correct this would be pretty close to the performance of 500watts on a tracker and as you already know a tracker when the sun isn't shining is as usefull as an ashtray on a motorbike. Once again,thankyou muchly.James

My original post said: I'm now glad my roof is E-W, because I want to maximize generation on my house (not maximize ROI), and E-W gives twice as much surface area (and about 60% more total generation) versus a south-only roof.

My only other way to generate as many kw-hrs as I consume would be by subscribing to a Community Solar Garden. Perhaps in some states, Solar Gardens are as good an investment as rooftop, but not in mine.

I think there could also be other future reasons for people with E-W roofs to consider installing solar. For example, Germany is limiting rooftop solar feed-in to 70% of nameplate production capacity. They see enough value in having a flatter solar generation curve, that they are "curtailing" solar production at the peak. If that value is passed-on to consumers (such as in ToU production rates), then it would encourage consumers with E-W roofs to consider installing solar.

Another example is that solar modules are a declining portion of the total cost of installing solar. The cost to get the crew and materials on-site, and the cost of permitting and interconnection are more constant. It is possible that a 40-module East/West array could cost 60% more than a 20-module South-facing array, but also produce 60% more kw-hrs. In that case, the years-to-breakeven of the two systems would be identical (even before any ToU production bonus).

I think that in the past, many people looked at an East-West rooftop and said "bummer. That's not good for solar." As module prices drop, and as utilities start to value a flatter production curve, maybe people will look at a house with an E-W roof and say "cool, great roof for solar!"

I read what you wrote and believe I understand it.

I read your post from above and believe I understand that as well.

I also believe I understand something of solar process economics. You may or may not understand or see things as I do. So be it and hail the difference. Not my money/life/business.

However, and only FWIW, my limited experience in such things suggests to me that the main reason why folks choose to install residential PV is with the hope it will reduce the long term cost of meeting a residential electric load. There are other reasons, but if the perceived economic benefit is not there, and that's usually a non starter. My limited experience also has given me the opinion that most folks are victims of their own ignorance and because of that ignorance wind up with residential PV systems that wouldn't stand muster if subjected to accepted methods of economic analysis - and that's usually with residential arrays that have pretty good orientations , not less than optimal for whatever reason(s). That is, for many, if not most residential applications, there is usually a higher than acceptable probability of paying more to provide electricity to a residence in the long run with a PV system than if the owners had taken other measures besides PV first and/or skipped the PV altogether. and most are unaware of it.

Put another way, if more folks knew what I think I may know, there would be a lot fewer arrays on residential property and those arrays would be a lot smaller. In your case, because economics seem to have a lower priority, you might still do what did, but you'd perhaps have a more realistic and perhaps more sobering way of looking at the economics of your decisions.

As for the future you write of, the economics will, in all probability, change as they always do. But if the recent past is any indication, the future may not be as rosy as you think. Example: Because POCOs are finding ways around NEM to lessen it's impact, some (many ?) areas such as mine have seen the value of the offset to electric bills decrease. In my area, because of the way(s) T.O.U. tariffs and mandates have changed, existing systems now offset about 20% or so less of a bill than before the rate restructuring.

Take what you want of the above. Scrap the rest.

My east-facing array appears that it will have a break-even of 12 years. That includes the cost of borrowed money (using my Credit Union's home equity rate), and 66% of the cost of the new roof I put-on prior to solar installation. If a similar west-facing array had a payback of 15 years, would these east/west arrays "be a waste" because they pay for themselves slower than a smaller south-facing roof would? Or would they be viable because, regardless, they still do pay for themselves? Would you rather invest $20,000 which grows at 10% or invest $34,000 which grows at 8% ? You only get to pick one. I think "it depends": on whether you have the extra $14k; on whether your motivation is purely financial.

I think you're spot-on that "things will change," and compensation by the utility will go down. Simple net-metering pays as if the time of production didn't matter. At some point, PV generation will be high enough that time _does_ matter. I think we will see efforts to force "curtailment" on residential PV producers "to promote grid stability". Or production caps like Germany. Or widespread Time of Production metering ("ToP"?). That would encourage a shift to east/west arrays.