It is an exercise by someone seeking a predetermined outcome who was using a host of unsupported data and self-serving assumptions to reach that outcome.
To put not too fine a point on it, the blogger is either an idiot or a liar.
"As usual, I decided to “do the math” on this issue using government data or, at least, reasonably reputable data for my research. Because I’m no expert on the detailed workings of power generation, and neither are most of my readers, I’m going to make some extremely simplistic assumptions just to try to get at an understanding of the trend and reasonableness of energy generation claims."This is a blank check to insert whatever self-serving numbers she wishes. She has engaged in a series of false representations so extensive it is obvious to anyone doing even a cursory review of the blog that her work has no merit what-so-ever. When criticized for the "simplistic assumptions" she claims they have no bearing on her conclusions anyway. Of course, that leaves you to wonder why they are in the paper in the first place, right?
Let's take a more specific example that is related directly to the conclusion - where does the 18.3Gw offshore resource number come from and how was it derived? Her conclusion is basically that the wind and solar resource is inadequate to do what Blackburn's paper claims, so it is certainly relevant to her conclusion to ask where she got the upper limit of wind that she claims.
Just my personal knowledge base tells me that North Carolina has more than 200 miles of coastline, Delaware has 25. The depth and wind conditions of the two areas are very similar (NC has a tad better wind) and I know that when using the GE 3.6 turbine near shore wind resource in little old bitty Delaware is almost 16Gw.
There is more than enough offshore wind energy ALONE to meet ALL of NC's energy needs. The artificial ceiling the blogger inserted is just that, an artificial ceiling designed to guide the outcome of "the math" to the predetermined conclusion.
This is what an actual analysis looks like; feel free to show anywhere that it is wrong. Be specific, for example, what claim is specifically negated by the information behind the graph you posted?
Matching Utility Loads with Solar and Wind Power in North Carolina
Dealing with Intermittent Electricity Sources
by
John Blackburn, Ph.D.
Professor of Economics Emeritus, Duke University
March 2010
Conclusion
The important conclusion from all of the calculations is that a system with annual
sales of 91 billion kWh can be run with 76% of total generation coming from intermittent
solar and wind sources. The intermittent sources would be assisted by 2,000 megawatts
of biomass generation or cogeneration, 2,500 megawatts of hydroelectric capacity, and
1,500 megawatts of pumped storage. If such a system also has ice storage (in the
summer), load control, and access to vehicle batteries, it can be run with some modest
outside-of-system purchases and 2,700 megawatts of auxiliary gas-fired capacity.
Purchases and auxiliary generation are needed for 6% of electricity loads. There were, in
this simulation, 17 hours out of the 2,952 examined in which generation would fall short.
These results were obtained with only three onshore windpower sites. The periods of
shortfall would be reduced in a system with multiple wind sites distributed over a wide area
(North Carolina has 200 mile long area in which mountain winds are strong, 320 miles of
coastline and vast areas offshore). Also, the auxiliary power needs shown here would be
somewhat smaller if carry-over power in pumped storage facilities were applied to needs in
succeeding days.
The conclusions of this study, of course, are subject to the simplifying assumptions
enunciated early in this report that one must make in order to begin to analyze such
complexity. Of the many further refinements that would be appropriate, only one is likely to
modify the conclusions by more than a few percentage points. As the variation in hourly
utility loads is introduced, there would be some additional hours in which purchased power
or auxiliary would be needed. This would take place primarily in the winter and to a lesser
extent in the summer. It is the weather-related loads that introduce most of the variation
around monthly means for each hour. In the summer, cooling loads, as indicated already,
are partially correlated with solar electricity production. Another study may take up this
task – time did not permit its inclusion here.
The conclusion, to summarize, is that a high-penetration solar and wind utility
system is possible, that it requires supplementation of about 6% of electricity demand,
from sources now used for peaking purposes. A corollary observation is that the concept
of baseload generation is more or less irrelevant to its successful operation of such a
system.
Full report download:
http://www.ieer.org/reports/NC-Wind-Solar.pdfFeel free to explain where it is wrong.
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