Awareness of impending climate catastrophe has greatly increased over the last 30 years. Increasing awareness, however, has not translated into decreasing but instead increasing greenhouse gas emissions. This paper aims to shed new light on this perplexing and ultimately destructive positive correlation. It does so by applying a new interpretation of Milgram’s Obedience to Authority “electric shock” experiments to the problem of climate catastrophe. This paper reveals that both the Obedience Studies and climate catastrophe share a crucial common denominator: both involve powerful figures utilising manipulative techniques of bureaucratic organisation to push and pull the functionary helpers below them into contributing to preconceived goal achievement. In both cases, for the functionary helpers to achieve the goals of the powerful, all must agree to contribute to the infliction of harm on a powerless group. ...

...We suspect that humankind’s greatest hope of averting longer-term environmental collapse is that a major, unavoidable, and ultimately staggering ecological disaster soon strikes at the heart of the developed world . This disastrous although largely non-catastrophic event would need to induce a level of terror intense enough to convey to all that our harmful actions really do end in destructive consequences, thus sending the message that we can no longer act with impunity. Only then would there likely be rather sudden and sufficient motivation within the most powerful of circles to introduce something similar to Gardiner’s [...] “global constitutional convention focused on future generations.”

Sector one: Can be powered by electricity at a substantial cost: 25% of global GHG emissions - the subject of this blog,

be powered by electricity at a substantial cost: 25% of global GHG emissions - the subject of this blog, Sector two: Could be powered by electricity, but with great difficulties : 22% of global emissions,

be powered by electricity, but with : 22% of global emissions, Sector three: Cannot be powered by electricity anytime soon : 25% of global emissions, and

be powered by electricity : 25% of global emissions, and Sector four: Can never be powered by electricity: 28% of global emissions.





The purpose of this part is to replace the 11.1 TW of primary power from coal and oil with photovoltaics, assuming that magical new technologies will arise and scale to replace with 100% electric analogs the cement plants, metal smelters, steel making, copper, alumina, I'll tell you more about sectors 2-4 in part IV of this blog. I will also leave electricity generation by wind for later. Photovoltaics, my calculations show, offer a more plausible means of replacing fossil fuels worldwide, but a combination of solar and wind power will be deployed.The purpose of this part is to replace the 11.1 TW of primary power from coal and oil with photovoltaics, assuming thatnew technologies will arise and scale to replace with 100% electric analogs the existing aluminum , zinc making, rare earth metal production, lithium production, internal combustion automobiles, manufacturing of monocrystalline silicon PV modules, and so on. Later I will repeat the same exercise for wind turbines.





Figure 1. My ground solar array in Austin, TX, has nominal peak power Wp = 8.23 kW, and has had six years of history with power measurements every second or so. Its horizontal area is 41 square meters. Averaged over 24 hours, this array has delivered 27 We/square meter = 0.108 MWe/acre. It has had the average continuous power efficiency of 0.13 We/Wp, and electricity yield of 1154 kWh per year per kWp. The symbol "We" means watts of electricity.



Figure 2. In the first round of diversification away from oil, Saudi Arabia wants to install 16 GWp of VLS-PV arrays like this one. As of the writing of this blog, the Saudi plan is mostly on the drawing boards of consultants with different levels of competence. Not shown here is the ubiquitous dust that adheres to the panel surfaces, significantly deteriorating their performance. The starry-eyed promoters of PV in the West, do not seem to grasp how difficult it is to keep the panel surfaces clean when dust is everywhere and water nowhere. Here is someone, who told the gullible Forbes he was a former Berkeley faculty colleague of mine, spouting off on this subject.

Figure 3. Electricity yield of solar arrays, large and small, around the world. Prior to the year 2000, the UN data were fantastically unrealistic. Up to 1997, the International Energy Agency (IEA) estimates were pretty close to the upper limit of yield, presented by the peak of the green curve for a sparkling clean VLS-PV array in the Middle East, washed with desalinated seawater. Once the washing slowed down, dust settled in, and extreme heat took a toll on the PV modules designed to German, not the hot desert specs. My Austin's array six-year average yield is the dashed black line. The magenta line depicts the global average yield of 1100 kWe/year/kWp I picked for my calculations. Note that a regularly washed experimental solar array at KAUST has a low yield despite an almost perfect insolation in Saudi Arabia. The reason is the same: the ubiquitous dust that each day consists of different nano- and micro-particles that stick to the panels. Now go back to the proclamations of the Sahara desert powering humanity effortlessly since there are so few rain clouds there. Right.



The easiest to convert Sector 1 is mostly electricity generation, and here the main goal of the Green New Deal is to upscale my solar array in Figure 1 to something very big, like the VLS-PV array in Figure 2. Initially, these arrays will replace the air-polluting coal-fired power plants like the one in Figure 4, located close to where I live. Austin is relatively sunny, the year-around insolation here is 200 W per square meter, and my array is far more productive than those in, say, Germany, see Figure 3. This array makes my household a small net exporter of electricity. But, as I argued in



So, my green friends, are you going to cut your consumption of electricity and everything else by a factor of 2 to 5? Since all industrial activities will be electricity-driven, you will also curtail consumption of everything you take for granted today. You will have to, ready or not, as I already have at a large expense and inconvenience. And positively no flying! (OK, so we will not electrify airplanes.)



The easiest to convert Sector 1 is mostly electricity generation, and here the main goal of the Green New Deal is to upscale my solar array in Figure 1 to something very big, like the VLS-PV array in Figure 2. Initially, these arrays will replace the air-polluting coal-fired power plants like the one in Figure 4, located close to where I live. Austin is relatively sunny, the year-around insolation here is 200 W per square meter, and my array is far more productive than those in, say, Germany, see Figure 3. This array makes my household a small net exporter of electricity. But, as I argued in Part II , the 1:1 replacement of coal with sun is a silly and naive idea, like the early thinking about energiewende (energy transition) in Germany. And, no, contrary to what der Spiegel has said, our prickly disillusionment is not a failure of the energiewende, but rather our own inability to grasp the enormity of change and the necessity of power cutbacks this German Green New Deal has exposed to the confused, angry public. Please read carefully the caption of Figure 4 and decide for yourself.So, my green friends, are you going to cut your consumption of electricity and everything else by a factor of 2 to 5? Since all industrial activities will be electricity-driven, you will also curtail consumption of everything you take for granted today. You will have to, ready or not, as I already have at a large expense and inconvenience. And positively no flying! (OK, so we will not electrify airplanes.)

Figure 4. We want to replace everywhere in the world the coal fired power plants like this one, the 3,663 MWe W.A. Parish power plant near Houston, TX, on 4,650 acres. This plant devours some 30,000 tons of coal per day (three coal trains with 100 cars, each car carrying 100 tons of coal). It develops power density of 0.79 MWe/acre. To replace this power plant with a solar PV array that would give the same average power, would require a dedicated surface area of 34,000 acres or 137 square kilometers. It would make a rectangle 13.7 km long and 10 km wide, plus access roads, transformers, etc. In round numbers, this area would then be 21 km long and 20 km wide, equivalent to the area of Mumbai, with 12 million inhabitants. But on a sunny spring day at noon, our hypothetical array would develop 25,600 MWe, and something would have to be done with this temporary but vast excess of power. For example, when the sun is up, our array could produce hydrogen that would be burned at night. This production would have to be a closed cycle: what hydrogen is produced by water splitting during the day would be burned back to water during the night.

I just told you about photovoltaics eliminating magically 75% of global GHG emissions from Sectors 1-3 of the global economy, while

75% of global GHG emissions from Sectors 1-3 of the global economy, while Humanity faces existential threats: climate warming, overpopulation, rampant pollution, and decline of all high-quality resources, and while

Almost all world governments are pushing continuation of business as usual, albeit by greener means, whatever that means.

of business as usual, albeit by greener means, whatever that means. Unless it is widely replicated, commendable individual behavior has almost zero effect on the resource-wasting societies.

individual behavior has almost zero effect on the resource-wasting societies. A sufficiently fast 1:1 replacement of oil and coal power with photovoltaics is impossible ; wind turbines are even less probable (the problems with wind will be explained later).

; wind turbines are even less probable (the problems with wind will be explained later). Therefore, we must reverse population growth and consume much less of everything.

population growth and consume much of everything. Wise sovereign government and UN policies are needed around the world to prevent us from committing suicide as a species, but who with whom and how?

No one can violate the laws of Nature.

In contrast to the human economy, our planet doesn't do growth and wastes nothing.

Much of the exponential economic growth is pure fiction, which creates clouds of electrons that flow through computers masquerading as money. These electrons further concentrate wealth and do real physical harm to the Earth by generating tidal waves of capital that wash away the still functioning ecosystems.

We need to change the current narrative and (re)train K-12 and older students in energy, ecology and climate change literacy; my generation is already a lost cause.

We must lessen our environmental impacts by creating cycles where none exist.

exist. Massive and diverse recycling schemes must be implemented (of, e.g., water, plastics, metals, building materials, greenhouse gases, all packaging...

The cyclic Green Economy can grow only through the subsidies from and at the vast expense of fossil fuels and other resources, whose use will shrink with time.

P.S. (6/23/2019) First, congratulations, you have read through this rather dense blog with which I struggled for a few weeks. In the end, I have concluded that I must give you a few technical details behind my thinking. After all, this story is about fixing our only home, this beautiful, ravaged by us Earth. I published this blog on the very day the unimaginative, boorish Republicans



P.S.P.S. (06/24/2019) I stand corrected, electrical planes will be

"[The plane's weight is] 14,000 pounds, to carry 1,000 pounds of 7 passengers ; the two pilots are considered deadweight; about 8% useful load vs deadweight. It is not bad, if we compare this ratio with the Tesla X 100D AWD, with 6,600 pounds to carry 200 pounds of passengers (1.2 persons per vehicle on average), which gives a 3% useful load vs deadweight. However, in the early Neolithic, a donkey (500 pounds), could carry two persons (300 pounds) with the ratio of useful load to deadweight of 60% . [We are ] progressing in speed and range and regressing in efficiency..." First, congratulations, you have read through this rather dense blog with which I struggled for a few weeks. In the end, I have concluded that I must give you a few technical details behind my thinking. After all, this story is about fixing our only home, this beautiful, ravaged by us Earth. I published this blog on the very day the unimaginative, boorish Republicans moved again against controlling the American-made destruction of the planet. They say that it is all about jobs. Jobs for our children, grandchildren? Are you kidding me? And so it goes...I stand corrected, electrical planes will be apparently possible , for 6-9 people at a time and over a short distance. The good news is that the carbon fiber plane will be so light that it could glide down to safety after ejecting the failed battery which comprises most of its weight. As my Spanish friend, Pedro Prieto observes: