Am I Crazy?

JPM, thats what was given, 13500 kwh/year is what the original thread was asking to produce, so he already sized what he wanted to produce. So I take it you did not find any errors in the basic formula calculations then? correct?

"may not be Cost effective offsetting 100% of load " - I am in agreement there. Is there another thread that discusses that? I've got some calculations for discussion on that.

1.) You are correct. I had brain flatulence about the load. 13,500 kWh/yr. it is.

2.) I'm still confused as to why all the back of the envelope methods being used here. Get the roof slope and azimuth, run PVWatts with a .84 or so derate factor and stick a fork in it. It usually gives better, more accurate and faster long term estimates than using methods that are somewhat irrelevant and #'s of questionable meaning. Read the FAQ's and help screens before you start for limitations and info.

3.) Not to sound condescending, but while there are lots of threads that discuss cost effectiveness, due to my lack of articulation, the subject is a lot broader than I discuss in a thread.

back of envelope formulas

JPM, back of envelope formulas are the best for ones that are able to use them, it empowers one to know what and how things are figured out. The PVWatts may be a better calculator but its all done behind back doors and no one knows how the answer was derived. Granted most will want to use that method seeing how its confusing to figure #of panels = Sys_size/(watts per panel). I certainly gave myself analysis paralysis by going through all this, and feel most get lost in the basic reason that we are all here, to save MONEY, and that formula at first seems basic [SAVINGS = (cost without Solar)-(cost with solar) ] but quickly becomes very involved. with the biggest unknown being what rates will do in the future. The only thing to go on is past rate increases, and that has been very difficult for me to find. The utilities say its on-line but its soo convoluted and diced up into multiple little pieces that its not attainable. I have managed to put together a good rate history for SCE from 2005-2014 but wont post it on this thread as its not the proper place for it.

I appreciate what you are saying about back of envelope. I use that method myself a fair amount. That method however, still requires sound logic and some knowledge of the task at hand if the desired and expected outcome is to empower one to know what and in what ways things are figured out. Respectfully, I think the way you get to a reasonably close # when compared to what a bunch of canned programs call an estimate is more luck than sound analysis. Rather than empowering one to know how things are figured out, your method uses a lot of questionable numbers out of nowhere in ways that do not make a lot of sense, and faulty assumptions that, at least in my experience, often and usually can lead to a false sense of knowledge about what is going on. Ignorance of a subject leads to faulty logic. Faulty logic leads to faulty empowerment.

All of the methods PVWatts and other tools use are not done behind back or closed doors. Believe me, it's all open literature stuff available for the looking. It ain't magic. I wrote stuff long before PVWatts and didn't use anything but openly available literature. FWIW, my stuff is pretty close to PVWatts, SAM, and TRNSYS which commonly give close but somewhat different results, depending on the application. It takes a little more number crunching than you have done, but not too much more, and in the end, it's not that much more involved than you have done. It's just done in different ways. Doing it using analytically derived, academically vetted, peer reviewed and corrected methods, verified by testing are what the canned and spreadsheet stuff are doing. It can be done by hand if you choose. About 8,760 times per iteration. I've found a few times is usually sufficient, but necessary.

Why not take advantage of what a lot of knowledgeable people have already done ? Your way reinvents the wheel and it's coming out square. I'm only the guy telling you it's not as round as you think.

I'm of the opinion that most folks do not want to get terribly involved with as much number crunching as you and I have done. If so, PVWatts seems a logical choice for those folks, perhaps their only choice given their need to avoid confusion.
You, who have a shot at knowing what your doing, or at least a direction, got, as you state "analysis paralysis" and still got the method and logic wrong. Most folks don't know or care much how to get a # - they just want an answer and - as you seem to imply, a path to saving money. For the sake of reading some intro screens and about 20 min. of their time, PVWatts will puke out something they may be able to understand, probably for less time and effort than your faulty, or at least very questionable methods will involve, and perhaps be closer to reality. Or, they can use your scheme, spend time and if frustrated enough, give up, or perhaps worse, get it wrong the next time around. Which is worse: being ignorant and knowing it, or having incomplete and incorrect knowledge and imparting it to others ?

I appreciate your # crunching. Been there - done that. A lot. Honest. I'd urge you to continue. But I gotta tell ya': The # crunching I've seen so far leads me to think your spinning your wheels a bit.

Without trying to sound condescending, if you want to become technically informed, I'd suggest if you look around some in the literature. With some, but not too much rigor, you'll understand where I'm coming from. Start with Duffie & Beckman. It's to Solar Energy what Thomas is to Calculus or Resnick & Halliday is to Physics.

As for being forced to go by past utility rate increases because the future isn't here yet, that's always been the case. But, it's not absolutely necessary, may not be the best thing to do, and may well lead to bad outcomes if it's the sole input. I'd suggest rather than being forced to do that by itself, one can also look around and see which way the wind is blowing with respect to legislation as it affects energy policy and rate structuring , technical advances and, on a personal level, what one wants and what future plans hold. Besides, while POCO rates tend to go up some in the long run, they do, believe it or not, go down once in awhile, as well as very large increases which can skew things for several years, further throwing future predictions based on the past out the window.

At the end of the day, the future is a big crap shoot. Relying on the past is no better, and maybe not as good as using other, or several, methods. It's certainly not the only method of crystal balling it.

The rub with predicting the future of anything is that to do so tends to feel good because it leads to a false sense of safety and comfort. There's a certain comfortable simplicity in extrapolating the future from the past. About the best that can be hoped for is a higher probability of a predicted outcome based on knowledge and understanding of the driving inputs - but no where near a guarantee of anything.

Sort of like the difference between weather and climate - Climate's what you expect, weather (like the future) is what you get.

Rate structures from the past are on the net. I have all the CPUC rate sheets for SDG & E going back to 1997. All of them. I've seen similar for SCE and PG & E but don't need them for my stuff. I do not know if they are all there, but I suspect they are.

Not everyone who tells you what you want to hear is your friend. Not everyone who tells you what may be unpleasant or seems insulting is your enemy.

I will use PVWATTS and give it a try. I don't see what my SAVINGS will be. Need your help. So it spits out a column of numbers (see attached jpg) called ENERGY VALUE for a 12 month period listing Jan-Dec. What are these numbers? the $ I will spend on electricity or the $ I will save on electricity. Then what about 20 years? All I want or anyone else is HOW MUCH WILL I SAVE OVER 20 YEARS? JPM, Please help me understand the results of your critically acclaimed PVWATTS. thanks

I input $2.8/watt as my DIY system I am looking at is a 10 panel 250w/panel system (2.5kw) costing roughly $7000: $7000/2.5kw = $2.8/watt

pvwatts_results_DIY.jpg

Post understood. Fixing my A/C just now. Sort of physician heal thyself time. Need 24 <= 24 hrs.

J.P.M.

Congrads. You just had liftoff.

The answer to your first question is in the PVWatts documentation. A lot of other answers to questions you will likely come up with are there for the reading and learning.

Go to PVWatts and hit the help screen.

Read the input. All of it.

On the economic questions:

How much you will save over a period of time is a problem in life cycle costing, a part of something called process economics. Two common goals of such an analysis are to estimate how much a proposed course of action (in this case, getting solar) will cost, usually in "today's" $$'s vs. how much it will save over X # of years, or to compare different ways to invest money by making estimates about the future with the usual goal of selecting (estimating) the most cost effective option, thus maximizing the return on investment.

With respect to how much you will save over 20 years: As much as we all like one word or one sentence simple plug/chug answers, how much something saves or costs in the long run, or how much one may save by any particular course of action is a function of many inputs and one's general situation - in the case of how much a solar electric system will save or, in an analysis of comparison of alternatives whether after, say, 20 yrs. you would have been better off investing the financial resources in real estate, the stock market, or whatever, is a function of many inputs.

A FEW of those inputs are: How your POCO billing structure works, how much energy you use, whether you buy/lease/ppa, cash/finance, interest rates, terms of any loan, tax considerations, resale value, estimates of future inflation, energy rate inflation, How long the analysis, etc,etc, with as many variables as the user thinks important or as few as necessary or as the patience of the user can tolerate. Same for the alternative investments with different parameters (such as estimates of stock market returns, for example).

The cost or economic analysis part of solar knowledgeability is some of what I was alluding to in my epistle of last nite. Some things just take some work. I can't do a whole lot for you there. You've got to do the heavy lifting.

That many folks choose not to spend a few hours to understand some relatively easy economic facts of life to help make a better choice in the solar go/no go decision, or to optimize a go solar choice and perhaps save thousands while at the same time bitching and crying the blues with every over-dramatized POCO rate increase rather than doing something (anything) that looks like proactive attempts at reducing their profligate energy use is something that, as hard as I try, escapes my attempts to understand it using common sense and logic. I guess that may be where my problem lies.

So, Datacruncher, as I suggested previously, get a copy of Duffie & Beckman. Add to that advice read/study the chapter on solar process economics. That's a good start to finding answers to your questions.

JPM please do not comment anymore to me. THanks.

JPM, please don't reply to any of my comments on this website anymore. Sorry, I find your comments simply generalizations and you provide no help other than criticism or go RTFM. As the highly rated PVWATTS plugger that your are, you could have easily told me what the column of dollars meant. But no, you said "The answer to your first question is in the PVWatts documentation". Thanks for NOTHING! Then earlier you criticized my own crunching of data with out calling out any specifics, only to say I'm reinventing the wheel and mine looks like it came out "square". Again thanks for NOTHING! I would have welcomed any specific input that something is wrong. Really, you can reply to this but PLEASE do not reply to anymore of my comments unless you have specific information that helps, no more RTFM or "use PVWATTS". I do not have time for you long exacerbated comments that do not help 1 BIT.

As you wish. Good luck.

The energy value from pvwatts is a pretty crude estimate that uses a flat cost per kWh from the utility to determine the savings your solar system will produce. It's probably only useful if your utility has a very simple rate structure and a very generous implementation of net metering.

What pvwatts will give you is a decent estimate of monthly production for a location near to you given your solar system physical specs. You mention solar hours per day but that's an average over a year and gives you no info on monthly production. The latter is important because most utility rate structures are set up on a monthly basis and can give rise to situations where 100% offset design can result in significant monthly bills while having a year end true up where a large number of kWhs produced by your solar system are sold back to the utility for a pittance. Unfortunately, if you want to explore this, you need your own detailed monthly usage and the actual rate details from your utility. Then you can use the pvwatts monthly production estimates to work through a simulation of how 12 months of solar will impact your electric bill. Even that will be an estimate subject to weather variability and the suitability of pvwatts data for your location. But it's probably the best you can do in the absence of a neighbor who already has actual data for a number of years.

I have all the details, but I do not see a PVWATTS screen that asks for it, the GUI seemed to only have two very basic windows of information - all it asked for was system size, tilt, and Azimuth:. Now I just went to run it and I found a diff version that looks even more crude. http://rredc.nrel.gov/solar/calculat.../pvwattsv1.cgi Where is the version located? The newer looking one was at http://pvwatts.nrel.gov/pvwatts.php but even that one does not ask for monthly usage and actual rate details.

Pvwatts only asks for a cost per kWh. That's kind of meaningless for a complex tiered or TOU plan. You have to take the monthly production data from pvwatts and work with your own usage data and utility rate structure to estimate your new monthly electric bill after solar. Make sure to use something like a 0.84 derate factor otherwise pvwatts will underestimate production. Maybe someone has done this for your utility but I wouldn't hold my breath. If you have your own usage data for 12 months and the utility's detailed rate structure, you can incorporate the PV watts data on a monthly basis to calculate your new electric bill month by month for a year. I did it for my situation but it resulted in a messy spreadsheet that nonetheless yielded a pretty good estimate. But then I had access to a friend's production data as well.

Two points -

1) Do NOT tell anyone what they can or can not do on the site.

2) Your so called data crunching is blatant BS. You want the answer handed to you on a platter.

pvwatts $/kWh meaningless for a complex tiered

Oh ok, thats the road I was on originally - doing my own spreadsheet 'till I got offtrack by someone plugging pvwatts as the endall. On the derate factor, all the quotes I had used 23-30% loss (.70 -.77), maybe do to possible shading issues.

So the Energy Value $ in pvwatts is the estimated cost displaced by the solar system for the first year assuming no rate chgs and all other inherent assumptions. K, got it. So no canned programs exist that try to factor in rising cost scenarios? all the quotes I had the companies did this calculation using 4.75%/year. Seems rising costs is the key to determining savings in lease scenarios Full purchase and assuming no changes for 20 years seems to most always come out positive.
Furture Costs at 608kwh_per_month.jpgSCE_Rate_History.jpg

Yeah PV watts assumes no shading. If you have shading then that can complicate things significantly. Be very wary of predicting future rate increases. In fact for Cali residents who are high users, their costs could actually decline if flattening of the tiered rates is implemented. IMHO, I'd assume no rate increases as a conservative approach. Even if there are rate increases, there could also be solar specific fees instituted that would offset some solar benefits.

In the final analysis, there is no real predicting the next 20 years.