CO2 did not drive the rapid warming of the 20th century.
Story submitted by Stan Robertson
The difference between a good idea and a bad idea is often a quantitative matter. For example, many people would think it a good idea to replace internal combustion engines with electric motors. But if the intent is to reduce the burning of fossil fuels then switching to electric motors would not help unless the electricity was generated without burning fossil fuels. Some people think that it has been a good idea to use corn to produce ethanol for a fuel, however, I am not one of them because the energy return on investment is either negative, or minuscule at best. From the standpoint of greenhouse gas emissions, it is a horrendous loser. It may be a biofuel and cleaner burning, might help ameliorate ozone problems and etc, but considering that nearly a gallon of oil is consumed in addition to the gallon of ethanol produced and burned, it is a quantitative loser. (Not that I care at all about the CO2.)
One of the ideas that seems to be widely believed is that human produced greenhouse gases, chiefly CO2, has dominated the warming of the earth in the last century. It is a simple quantitative matter to show that this is completely false.
According to the calculations of the UN IPCC, a doubling of the atmospheric concentration of CO2 (with an accompanying rise of other greenhouse gases) would reduce the outgoing infrared radiation from the earth by a net 2.7 watt/m^2 at the top of the atmosphere. This is known as the “climate forcing” that will occur along with a doubling of the CO2. This is a relatively straightforward, but messy calculation. I have repeated the IPCC calculation for CO2 and obtained a larger number, but after including the IPCC adjustments for other greenhouse gases and the effects of sulfate aerosols accompanying coal burning, we agree. It is important to note that the surface temperature increase that will accompany the CO2 is proportional to the logarithm of the CO2 concentration. Thus while CO2 concentration is increasing exponentially with time, the temperature only increases linearly.
In order to maintain equilibrium with the incoming UV/VIS radiation received by the earth, the surface temperature would need to increase enough to allow it to radiate an additional 2.7 watt/m^2 at the top of the atmosphere after any CO2 doubling. At a nominal surface temperature of 15 C (288 K), the earth surface radiates about 390 watt/m^2 on average, but the radiation that exits the top of the atmosphere is only 240 watt/m^2. Thus the earth would need to produce an additional (390/240)x2.7 watt/m^2 = 4.4 watt/m^2 at the surface in order to offset the direct effect of doubling the atmospheric CO2. At 288 K, the earth radiates an additional 5.4 watt/m^2 per 1C of temperature rise. Thus the direct effect temperature increase of a CO2 doubling would be 4.4/5.4=0.8 C.
At the present 0.5% per year rate of increase of CO2 it will take about 140 years to double its concentration. But as we all know, a 0.8 C temperature increase in 140 years is not the result that the UN IPCC is alarmed about. The IPCC climate models include large positive feedback effects that raise their expected temperature increase into the range 2 – 4.5 C, with their most probable value at about 3 C.
There are four main arguments against this: (1) We have already had half of a 2.7 watt/m^2 climate forcing since pre-industrial times. That has been accompanied by only 0.8 C temperature increase. As shown below, there are reasons for believing this to be due primarily to natural causes. (2) There is no evidence that confirms the existence of any large feedback effects since the end of the last deglaciation. (3) The rate of temperature increase within the past century has been within the bounds of normal climate variability and (4) as shown below, the heating effect of CO2 has been quantitatively inadequate to explain the actual warming that has occurred in the last century.
There have been two periods of rapid warming that account for most of the warming that occurred in the last century, as shown below.
Let’s examine the first of these rapid warming periods first. By 1944, the atmospheric CO2 concentration had increased from the pre-industrial level of about 280 ppm up to 310 ppm. At that time the concentration was increasing at a rate that would require about 600 years to double. The fraction of a doubling climate forcing that would have occurred by 1944 would have been log(310/280)/log(2)=0.15 and this would have contributed at a rate of 0.15×2.7 watt/m^2 per 60 decades, or 0.0068 watt/m^2 per decade. It’s direct warming effect at the surface would thus be only (390/240)x(0.0068 watt/m^2 per decade)= 0.01 watt/m^2 per decade. This would have raised the temperature by (0.01 watt/m^2 per decade) /( 5.4 watt/m^2 /C) = 0.002 C per decade. This is such a pitifully small fraction of the 0.174 C per decade rate of heating that occurred 1917-1944 that it is pretty clear that CO2 had nothing to do with the warming of the first half of the last century. Even the IPCC climate modelers concede this point.
But there is still more to be learned from that period. Apparently some natural phenomenon allowed the earth to absorb energy at a significant rate and produce the temperature increase of the first half of the century. Let’s see how much that might have been. To begin, the earth would have had to take in enough heat to at least produce the additional surface radiation that would accompany a temperature rise of 0.174 C per decade 1917-1944. This would be (5.4 watt/m^2/C)x(0.174C/decade) = 0.94 watt/m^2 per decade. This is already 94X the CO2 heating rate.
But, in addition, as shown by both the ARGO buoy system and heat transfer calculations, at least 700 meters of upper ocean can respond to heating on a time scale of a decade. The additional amount of heat required to raise its temperature by 0.174 C per decade would be c*d*0.174C, where c= 4.3×106 joule/m^3/C is the heat capacity of sea water and d= 700 m, or 5.2×10^8 joule/m^2. Dividing by the number of seconds in 10 years, this would be an average of 1.7 watt/m^2 per decade. But since it would start at zero, it would have to end at 3.4 watt/m^2 per decade in order to attain this average. This should be added to the 0.94 watt/m^2 per decade surface radiation losses by the end of the warming period. So the total heating rate would have to ramp up by 4.3 watt/m^2 per decade to provide the warming that actually occurred in either of the rapid warming periods. This is 430 times the direct CO2 surface heating for 1917-1944.
Since essentially the same rate of temperature increase occurred 1976-2000, we can compare 4.3 watt/m^2 with the heating that might have been caused by CO2 in the last part of the last century. From 1944 to 2000, the CO2 concentration increased from 310 ppm to 370 ppm, with a doubling time of about 140 years. The corresponding climate forcing that would have caused, at the surface, would be (390/240)x(log(370/310)/log(2))x(2.7 watt/m^2)/14 decades = 0.08 watt/m^2 per decade.
Due to the higher rate of growth of CO2 concentration in the second half of the 20th century, this is 8X as large as the direct surface heating effect caused by CO2 in the first half. Nevertheless, it is still some 54 times smaller than the rate of heating that actually occurred.
These straightforward calculations make it painfully obvious that CO2 forcing is not what drove the two periods of rapid heating during the last century. Until there is some understanding of the natural causes of these rapid warming periods and their inclusion in the climate models, there is no reason to believe the models. This is simple first year physics.
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Stan Robertson, Ph.D, P.E, retired in 2004 after teaching physics at Southwestern Oklahoma State University for 14 years. In addition to teaching at three other universities over the years, he has maintained a consulting engineering practice for 30 years.
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Am I missing something here?
What has happened to the established forcing of 3.7 watts/m^2 per CO2 doubling?
Chad Wozniak says:
March 25, 2013 at 11:20 am
Observation #2: One other, and not the largest other by far, source of CO2 emissions is animal respiration.
Right, but irrelevant: alle microbiological, insect and animal breathing simply recycles CO2 into the atmosphere which was captured a few months to a few years before by plants from the same atmosphere. The net contribution of this huge cycle is near zero, but slightly more sink than source.
See: http://www.bowdoin.edu/~mbattle/papers_posters_and_talks/BenderGBC2005.pdf
Fossil fuels were captured millions of years ago in an atmosphere that contained many times the current levels, thus that really contributes to the current atmosphere…
This is an excellent read and I am sure many of you here may have read it before. The section on “Aspergers” and the money available for assistance makes a good parallel to AGW scientists (with apologies to anyone suffering from any sort of similar disease, it is simply meant as an example).
This article discussed when is “Science” science, and when it is NOT science.
AGW —> As some have said here, maybe, just maybe, we don’t know yet.
“Why Science Need Theories”
http://arachnoid.com/theory/index.html
bones says:
March 25, 2013 at 11:40 am
Let me begin by saying that I have been commenting here under the name “bones”, however, my real name is Stan Robertson. I am a retired physics prof,…”
Darn it. I had a twenty on the Scottish folk singer.
I do wish people would stop using HadCrud as any sort of reliable temperature record.
We know it has been massively adjusted downwards pre 1980ish. It is only since the satellite era that it holds any semblence to reality.
Someone needs to remove all the adjustments and get back to the real temperature record. That is what should be being used.
I suspect that it is one of the main reason the climate models are so consistently wrong.
They have all been calibrated to this massively adjusted record (and Giss), and therefore have no chance at all of ever being correct even IF the actually did do the right sort of calculations.
@ferdinand meeus Engelbeen –
Actually, you underscore my point, which is that all CO2 activity has no discernible effect of climate, and, as you say, it is therefore irrelevant whether it’s 3.5 gt or 700 gt or whatever. But that’s the lesson the alarmies can’t understand.
Philip Mulholland says: “You’ve just generated the perfect mechanism to explain the sudden onset of the next glaciation. /Sarc”
When Al Gore finds out we’ll see photos of polar bears hunting tree frogs in Ecuador.
Some mathematical errors there: simply put, a 1.6 W/m2 unbalanced input can change 700 m of water by 0.17 degrees C per decade. CO2 is already well capable of providing that level of forcing, and it is continuous. Doubling CO2 gives more like 3.7 W/m2 (not 2.7).
Stephen Wilde says:
March 25, 2013 at 8:26 am
Ed_B said:
“After 5 years of reading here I guess I still don’t get it. All that I see is that the earth needs to change its vertical and horizontal heat distribution system a bit. That would mean a tiny bit wider belt of thunderhead clouds, with a slight increase in frequency, a slight increase in ocean surface heat towards the poles, with a tiny increase in temperature at the poles”
Agreed. Have been saying as much for years.
—————
That’s what I thought, too!
The official position of the Australian Academy of Science is that they have no idea what caused the warming in the first half of the 20th century. Its in their ‘facts’ about global warming on the website. They say the sun couldn’t have done it, and neither could C02. They then state that if there was some mechanism that amplified the solar effect during this period, then we don’t yet know what it is….which leaves the obvious question, that if there was an unknown amplifying mechanism for solar effects in the first half of the 20th century……what about the second half??? Oh yes, but the second half was all C02….
Completely daft I say.
squid2112 says:
March 25, 2013 at 11:09 am
vukcevic says:
March 25, 2013 at 9:28 am
Trashing the CO2 hypothesis …
What exactly is a “CO2 hypothesis” ??
…………
Not something I have either the time, inclination or desire to find out.
I am interested in the ground level (ground is the operative word here) reality not a fantasy.
Jim D says:
“Some mathematical errors there: simply put, a 1.6 W/m2 unbalanced input can change 700 m of water by 0.17 degrees C per decade. CO2 is already well capable of providing that level of forcing, and it is continuous. Doubling CO2 gives more like 3.7 W/m2 (not 2.7).”
I agree that CO2 doubling gives 3.7 w/m^2, but as I stated, when corrected for the aerosols (plus other GHGs), it yields the net 2.7 w/m^2 of the IPCC.
It is also true that a NET 1.66 W/m^2 could warm sea water by 0.174 C/decade, HOWEVER, that would not describe the situation of either rapid warming period, both of which started from conditions of stable temperature with a ZERO net heating rate. As heating begins, the mixing zones of the upper 50 meters or so of oceans begin to respond in only a few months. Thus the temperature rise starts from a zero heating net rate and ends at the rate at the end of the decade. In order to average the 1.66 W/m^2 plus the surface radiation losses, the heating rate must reach the 4.3 W/m^2 that I calculated.
Citation
——————-
According to the calculations of the UN IPCC, a doubling of the atmospheric concentration of CO2 (with an accompanying rise of other greenhouse gases) would reduce the outgoing infrared radiation from the earth by a net 2.7 watt/m^2 at the top of the atmosphere. This is known as the “climate forcing” that will occur along with a doubling of the CO2. This is a relatively straightforward, but messy calculation. I have repeated the IPCC calculation for CO2 and … we agree. It is important to note that the surface temperature increase that will accompany the CO2 is proportional to the logarithm of the CO2 concentration.
——————
Frankly speaking, I do not quite understand these “messy calculations”.
Because apparently you repeated them, I’d like to ask a few questions.
1. Which spectral properties of CO2 did you assume? The fact is, at the 1 Bar pressure, CO2 has an absorption band in the infrared, Thus, CO2 is a greenhouse gas.
2. When the pressure drops, the CO2 absorption band dissolves into a set of individual absorption lines. CO2 is not a greenhouse gas anymore at low pressures. Did you include this effect into your calculations?
3. Because of (2), the hight where the IR freely leaves the Earth should not depend on the CO2 concentration, but is fixed. It is the pressure level, where the CO2 IR absorption band dissolves.
4. Because of (3), there should be essentially no temperature dependence on the CO2 concentration in the atmosphere at all (at the present level). Not even logarithmic.
Am I wrong?
Thank you Stan!
Have not found yet such a concise and clear description of the CO2 effect and calculation.
Ah, always a pleasure to meet good, solid physics calculations!
“This is simple first year physics.”
This is the point. What were many/most of the climate alarmists doing that year of organized instruction? Marketing, creative writing, or global studies most likely.
Well, I think Professor Robertson’s essay has its own myths that should be dispelled.
I first balked at the internal combustion / electric motor comparison. Depending on application, that swap may be a very good idea. For example, if you are pumping water to irrigate, using a diesel engined pump, a swtch to electric would be a very good idea. Some CA central valley ag farms, do use diesel pumps. And keeping a supply of diesel around is a pain. Electric motors are very efficient, compared to diesels, and the instant on/off feature, makes them a lot more attractive, when you have convenient electricity. Yes the electricity may have been expensive to get from other energy sources, but once you have it, it can be used very efficiently. But for driving your car a nyet on that.
As for myths, there’s that one about an exponential growth of CO2. Mauna Loa data certainly doesn’t show that.
And the myth about earth surface temperature going as the log of CO2. Not a shred of data establishing that myth. Right now, CO2, continues to grow, and Temperature does nothing.
No data shows a log relation as any more likely than linear, or exponential; I like fitting the data to the function:- y = exp (-1/x^2) as my personal best fit function.
Also, the primary source of radiant cooling of the earth, is the planet’s hottest deserts, in daytime. They radiate at about double the rate of the IPCC’s silly average 390 W/m^2. Watts is a unit of power, and Watts per m^2, a unit of power density.
Power is an instantaneous quantity. There is no such thing as average power, or RMS power either.
The “average” power level of Hurricane Sandy, was barely noticeable given the frequency of occurrence. So why are all those East coasters complaining about damage. On average, the damage will be barely noticeable compared to the ravages of time.
You DO NOT average power; on average, nothing happens.
People, Stan has rattled several cages. Cool. But he DOES know numbers….http://journalofcosmology.com/RobetsonLeiter.pdf
I puzzled for a while over exponential Co2….note to self…pay attention.
Thanks for joining us Stan….looking forward to your next comment!
I was interested in the “first year physics” mention; although surprised at the lack of any mention just what “physics” that might be.
I actually taught “first year physics” a half century ago, so maybe the physics was different then. Well more accurately that would be first year university physics. Now when I myself got to “first year physics (university), I had already had five full years of physics. I just went to a different high school than most people.
And that “first year physics” that I taught was actually first year pre-med physics, for would be doctors and veterinarians (200 of them that year). And I only taught part of the first year pre-med physics; just the geometrical optics, and atomic physics portion.
So I don’t know if any of that would invalidate IPCCmodels of global warming.
Uhm… CO2 is NOT increasing exponentially. The correct phrase should be CO2 is increasing linearly (mostly naturally but some probably anthropogenically) and the effect of the linear increase is a logarithmic increase in the effect of CO2 as a greenhouse gas. That is of course, if we assume that CO2 is in fact a greenhouse gas. Certainly it has an effect on the lapse rate of heating and cooling!!!
Ed_B says:
March 25, 2013 at 4:46 am
I stopped reading right here. WTF?
========
Too bad, you missed the best part:
“These straightforward calculations make it painfully obvious that CO2 forcing is not what drove the two periods of rapid heating during the last century. Until there is some understanding of the natural causes of these rapid warming periods and their inclusion in the climate models, there is no reason to believe the models. This is simple first year physics.”
Unfortunately first year physics is not a prerequisite for Climate Science.
Robin Edwards says:
March 25, 2013 at 8:30 am
Can someone please sort me out?
Robin
==============
CO2 is increasing exponentially. A linear relationship is also increasing exponentially, so long as you use 1 as the exponent. The question is, how much greater than 1 is the exponent? If the answer is “not much” then a linear relationships will be pretty accurate unless one is making voodoo predictions 100 years in the future.
george e. smith says:
March 25, 2013 at 5:18 pm
So I don’t know if any of that would invalidate IPCCmodels of global warming.
==========
the part that happens when you apply it to the data.
Re A Scott, ethanol is a poor substitute for fossil fuels, it increases fuel consumption and degrades many components in the fuel system. Stihl will not cover ethanol damage to their machines in the warranty and IMHO quite right too! I produces less horsepower so degrades the driving experience of the vehicle, this is leaving aside the morality of starving the real poor to produce a poor quality fuel that few would buy if the did not have it forced on them.
Chris Edwards says: “I produces less horsepower so degrades the driving experience of the vehicle” I assume you mean ethanol produces less horsepower.
What I think you mean is that it is less dense of a fuel. That is, a gallon of ethanol will drive a car about (I’m guessing here) about 70% of the distance of a gallon of gasoline. However, converting a car’s engine to ethanol will enable the engine to make significantly more power (you need bigger injectors). What happens is that the extra fuel (and it’s higher latent heat of vaporization) cool the combustion chamber such that much more aggressive tuning can be had. I’m pretty sure converting an engine to ethanol can get about 30 to 40 % more power than running it on gasoline.
Think – 800hp 2.4l turbo engines on track day cars…
Still: It’s a bad idea to take perfectly good drinking alcohol and use it for transportation 🙂