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Wednesday, July 18, 2007

Energy Task Force

Someone evidently has leaked one of the big mysteries of the last 3 years. The full energy task force list with commentary still doesn't answer what exactly happened and the ramifications of said events.

Somebody at DKos said:
I'll bet that what the oil and energy industry folks were telling Cheney what experts have been predicting for decades and what the International Energy Agency admitted to last monday, that:

Oil and gas shortages likely within 5 years (cbc.ca)

Sunday, July 15, 2007

Swindler Inaction

Contrarian GW swindler Durkin gets his brain fried here. I like the way he starts to wipe the sweat off his lip and then tells the camera (in a way talking to himself) that he shouldn't attempt to do that. Because he knows more than anybody that appearances matter more than truth.

This PDF by James Hanson provides some excellent insight into the effects of feedback (via Big Gav).

Saturday, July 07, 2007

Rectified

All-electric car in sight says the builder of the world's first electric car. Why did he do it originally all those years ago?:
"I felt that the company required some recognition, because it was totally unknown, No one knew what International Rectifier was. In the early days, I mentioned to one lady that I was a rectifier engineer, and she asked me if that was legal."
94 years old and still with the quips.

Wednesday, July 04, 2007

Production as Discovery?

In the comments section to the dispersive oil discovery model post, Khebab applied the equation to USA data. As the model should scale from global down to distinct regions, these kinds of analyses provide a good test to the validity of the model.

In particular, Khebab concentrated on the data near the peak position to ostensibly try to figure out the potential effects of reserve growth on reported discoveries. He generated a very interesting preliminary result which deserves careful consideration (if Khebab does not pursue this further, I definitely will). In any case, it definitely got me going to investigate data from some fresh perspectives.

After grinding away for awhile on the available USA production and discovery data, I noticed that over the larger range of USA discoveries, i.e. inferring from production back to 1859, the general profile for yearly discoveries would not affect the production profile that much on a semi-log plot. The shock model extraction model to first order shifts the discovery curve and broadens/scales the peak shape a bit -- something fairly well understood if you consider that the shock model acts like a phase-shifting IIR filter. So on a whim, and figuring that we may have a good empirical result, I tried fitting the USA production data to the dispersive discovery model, bypassing the shock model response.

I used the USA production data from EIA which extends back to 1859 and to the first recorded production out of Titusville, PA of 2000 barrels (see for timeline). I plotted this on a semi-log plot to cover the substantial dynamic range in the data.



This curve used the n=6 equation, an initial t_0 of 1838, a value for k of 0.0000215 (in units of 1000 barrels to match EIA), and a Dd of 260 GB.
D(t) = kt6*(1-exp(-Dd/kt6))
dD(t)/dt = 6kt5*(1-exp(-Dd/kt6)*(1+Dd/kt6))
The peak appears right around 1971. I essentially set P(t) = dD(t)/dt as the model curve.

I find this result very intriguing because, with just a few parameters, we can effectively fit the range of oil production over 3 orders of magnitude, hit the peak position, produce an arguable t_0 (thanks Khebab for this insight), and actually generate a predictive down-slope for the out-years. Even the only point that doesn't fit on the curve, the initial year's data from Drake's well, figures somewhere in the ballpark considering this strike arose from a purely discrete and deterministic draw from the larger context of a stochastic model.

(I nicked this figure off of an honors thesis, look at the date of the reference!)


Stuart Staniford of TOD originally tried to fit the curve on a semi-log plot, and had some arguable success with a Gaussian fit. Over the dynamic range, it fit much better than a logistic, but unfortunately did not nail the peak position and didn't appear to predict future production. The gaussian also did not make much sense apart from some hand-wavy central limit theorem considerations.

Even before Staniford, King Hubbert gave the semi-log fit a try and perhaps mistakenly saw an exponential increase in production from a portion of the curve -- something that I would consider a coincidental flat part in the power-law growth curve.



At the moment, I would not of course toss the shock model, as it accurately reflects the shift from peak discovery to peak production in addition to modelling subtle production variations, but this discovery/production heuristic looks promising. Can you imagine what this does to the HL fitting approach? Stay tuned.

Monday, July 02, 2007

Calvinists

I don't recall if I ever posted this before ...