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Thanks for that. I'm sure there are numerous examples of occasions with high wind output on the grid and that the grid can manage just fine, despite all kind of tales of woe and doom. I haven't seen any updates of last year's record on December 12, where wind contributed 37% of that day's electricity, has since been improved, so I consider that Germany's latest feat. Correct me when wrong.

The article's main hypothesis is this, though:

it is increasingly difficult for the market share of variable renewable energy sources at the system-wide level to exceed the capacity factor of the energy source.

If we take Germany as example, onshore wind has a capacity factor varying between 10 and 20 percent while the onshore market share in 2013 was 8,5 percent (with 50,8 TWh producing a third of Germany's renewable energy). I don't see how Germany's current progress could either prove or disprove the thesis proposed. If anything, onshore wind could at least grow a lot more, and when more offshore wind comes online, the figure can rise substantially further.

And to undo my own example, I don't think taking Germany (or another nation) as an example is ultimately sufficient - the scope is still too local for a systemic analysis.

by Bjinse on Wed Jun 10th, 2015 at 04:00:44 AM EST
[ Parent ]
You're welcome.

The concept to grasp here is that the "main hypothesis" you quote is meaningless. Capacity factor is a measure over time; instantaneous or short-term have zero meaning (except for those monitoring loads of wind turbines operating above nameplate capacity.)

What do the "experts" mean by market share? Do they mean short-term grid incursion? In which case you already cited one disproving stat, of which there are thousands. Or do they mean in some poorly worded financial sense, which is a failure of market design that has nothing to do with their "variable renewable energy" output thesis.

Like climate deniers, they've used complex meaningless gobbledygook to confound and confuse. They CLEARLY don't understand capacity factor, which has been a utility standard since long before renewables entered the picture.

"the scope is still too local for system analysis"

Grid integration actually becomes easier as the grid becomes larger, either geographically or in terms of generation scale. So taking more local grids (like Denmark or Spain) does actually prove the point.

Except there's actually no point to prove or disprove. I used the phrase complex meaningless gobbledygook before. I should have said your "experts" are full of shit.

Did you know we can change the angle of attack on modern turbines in the control algorithm within minutes (including measurement), so full capacity isn't reached if necessary. At our command, for all manner of reasons. Or at the command of the grid operators! Take that, "experts."

The difference between garbage full of shit and dangerous full of shit depends on the source and funding of the shit. But it's still SHIT.

"Life shrinks or expands in proportion to one's courage." - Ana´s Nin

by Crazy Horse on Wed Jun 10th, 2015 at 04:42:03 AM EST
[ Parent ]
PS. Germany's average capacity factor includes really old turbines very poorly sited by greedy fringe capitalists. Modern turbines near 20% in the worst of sites, and well above 30% (topping perhaps 36%) in the coastal north. But even older turbines in the north reach 30% CF.

Offshore ranges from lower 40's to near 55%. In some cases better than gas plants. With no fuel costs, or CO2 damage, or small particles in the lungs, or national security issues.

Fuck the dangerous well-funded "experts" who will be judged as social criminals by future generations, should those future generations survive.

Am i beginning to make myself clear about what's at stake in the original article.

"Life shrinks or expands in proportion to one's courage." - Ana´s Nin

by Crazy Horse on Wed Jun 10th, 2015 at 04:53:34 AM EST
[ Parent ]
Actually, for me the money quote is this one :

Grid Constraints on Renewable Energy | The Energy Collective

Instead, the fundamental economics of supply and demand is likely to put the brakes on VRE penetration.

Because it makes the ideological frame explicit. As Jake noted initially, the "fundamental economics of supply and demand" are subject to all sorts of constraints in the real world, and there is no reason the electricity sector should escape them.

One technical objection they raise concerns system stability with high renewables penetration; but North America is very much behind on these issues. In Germany and Spain, for example, active system management has pushed the frontiers considerably on this.

The main technical argument they make is clear : on a sunny windy day, generation may exceed demand! Too much energy, oh noes!

But as CH points out, over-capacity is not a technical problem -- modern wind turbines can spill excess energy; also, some industries in Germany are reconfiguring in order to increase energy-intensive processes when electricity is cheapest : demand elasticity will be much greater in the future. So the question is not of the "fundamental economics of supply and demand", but of the economics of the various generating technologies, and how to balance them to achieve the overall goals of public good.

This is where the consideration of who the site's backers are becomes pertinent; the merit-order effect has had a severe impact on the profitability of Europe's fossil-fuel generators, and increasing market share of renewables is likely to worsen that.

The solution is going to include subsidies for on-demand producers for keeping their plant available. These subsidies are philosophically no different from the fixed-price regime for renewables, neither good nor bad in themselves, but useful mechanisms.

It is rightly acknowledged that people of faith have no monopoly of virtue - Queen Elizabeth II

by eurogreen on Wed Jun 10th, 2015 at 06:40:33 AM EST
[ Parent ]
The article's main hypothesis is this, though:
it is increasingly difficult for the market share of variable renewable energy sources at the system-wide level to exceed the capacity factor of the energy source.
There are two problems with that "thesis:"

First, there's the fact that they cannot possibly have calculated the theoretical maximum market share of anything.

The theoretical maximum market share of a volatile renewable depends on the extent of the harvestable resource (for offshore wind this is for all practical purposes infinite, but that is not true for all volatile renewables), the degree of correlation between the volatile output of electricity from the modality and the (also volatile) demand for electricity, and (crucially) the capacity and dispatchability of available storage solutions.

Calculating the theoretical maximum market share, even under the assumption that consumption cannot be moved* is a non-trivial exercise in applied statistics. Which they haven't done. What they've done is look at past data, come up with a rule of thumb to describe it which kinda-sorta works (if you're not too picky about the technical details of the industry they're "studying" and the comparability of the data they're comparing), and proclaimed it a law of nature. Which is bullshit.

Second, capacity factor (actual energy delivered divided by how much energy would be delivered if you were running at full nameplate capacity at all times) has nothing to do with market share (actual energy delivered divided by the total energy consumption of the market into which you deliver energy).

The capacity factor of a particular site depends on the average availability of the harvested resource and the capacity deployed to harvest it. You will notice that these two numbers, capacity factor and maximum market penetration, share precisely zero underlying variables. Which means that to get from one to the other, you have to make all sorts of sketchy assumptions about pricing regimes, correlation coefficients, market structures, and so on and so forth. Assumptions which are never clearly spelled out. That's also bullshit, and it's dishonest bullshit too.

- Jake

*This is a very ambitious assumption, since much consumption can in fact be moved. But if you allow consumption to move in response to prices, then you need to model the full equations of motion for the demand and electricity prices under your market structure of choice. Which is for most realistic (or even merely interesting) market structures not possible.

Friends come and go. Enemies accumulate.

by JakeS (JangoSierra 'at' gmail 'dot' com) on Wed Jun 10th, 2015 at 07:01:45 AM EST
[ Parent ]
Thanks all for all your input. Unfortunately I don't have the time now or the days ahead to respond extensively. I have two quick comments, although view them more as reflections please.

  1. How come it wasn't possible to generate this level of insightful commentary the first time around, which would have spared all of us an earlier round of prickly back and forth?

  2. I fully expect the thesis to appear more frequently, including European media. If it is indeed the consensus around here that the idea proposed is nonsense, then your responses form the first draft of a commentary or opinion piece, though obviously in current form none would yet be acceptable for media. Perhaps you each could consider spending one more hour of your blogtime to gather your arguments into one proper post, straighten it out and have it ready at hand.
by Bjinse on Fri Jun 12th, 2015 at 08:23:25 AM EST
[ Parent ]

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