Category Archives: Windpower

UK Paying An All-Time High of  2,586 Pounds For A Megawatt-Hour

Posted on December 13, 2022 | Leave a comment

I know that my recent blogs have been centered around Europe’s predicament because of their dependence on wind and solar renewable energy. The blogs may have become boring, but when evidence shows clearly how misguided the Europeans are about renewable energy I just have to pour it on.   The UK newspaper the Guardian, is an unending source of Alarmist propaganda.  Interestingly they just headlined the sky-high price of a Megawatt-hour of electricity.  Here is what the Guardian is reporting:

UK power prices hit record high amid cold snap and lack of wind power

UK power prices have hit record levels as an icy cold snap and a fall in supplies of electricity generated by wind power have combined to push up wholesale costs.

The day-ahead price for power for delivery on Monday reached a record £675 a megawatt-hour on the Epex Spot SE exchange. The price for power at 5-6pm, typically around the time of peak power demand each day, passed an all-time high of £2,586 a megawatt-hour.

The grid that supplies my power here in the USA, uses mostly fossil fuels and nuclear power sources for our electricity.  I just looked at the price from the Electricity Map app and it is $50 a megawatt-hour.

Snow and ice have caused disruption as the cold weather looks set to continue into this week, with snow forecast for parts of east and south-east England, as well as Scotland.

The cold snap, which is expected to last for at least a week, comes as wind speeds reduced sharply, hitting power suppliers.

Live data from the National Grid’s Electricity System Operator showed that wind power was providing just 3% of Great Britain’s electricity generation on Sunday. Gas-fired power stations provided 59%, while nuclear power and electricity imports both accounted for about 15%.

Now comes the Guardian’s cavate it must use when it seems to post data that contradicts the Alarmist’s narrative.

There can be no more hiding, and no more denying. Global heating is supercharging extreme weather at an astonishing speed. Guardian analysis recently revealed how human-caused climate breakdown is accelerating the toll of extreme weather across the planet. People across the world are losing their lives and livelihoods due to more deadly and more frequent heatwaves, floods, wildfires and droughts triggered by the climate crisis.

So how can one discuss these issues with Alarmists when global warming causes everything.  Cold and Hot, drought and rain, snow and no snow, etc.

What they have done is to demonize frequent weather patterns by telling us that it has never been like this before. And of course, they know exactly what the perfect climate is. 

cbdakota

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Posted in AGW, Alternative Energy, Climate Alarmism, Renewable Energy, Windpower

Vesta, the World’s Biggest Wind Turbine Maker, Will Have a Negative 5% Profit Margin in 2022

Posted on November 8, 2022 | 1 comment

Bloomberg posted “Renewable power’s big mistake was to promise to always get cheaper” because they went too far with the cheap-energy pledge.  Vesta now says that led some people to think “that energy and electricity should become free.”

FOLLOW THE MONEY – saveoursherman (google.com)

Renewable-energy producers have long touted the promise of cheap electricity, an assurance that’s helped them eat into the dominance of fossil fuels. But the pledge has gone too far, according to the world’s biggest wind-turbine maker.

From the Bloomberg’s posting:

“Soaring commodity costs and supply-chain bottlenecks have wiped out profits for much of the wind industry this year. Vestas expects its profit margin to be around -5% in 2022”.

“The output from the turbine has never been more valuable,” Andersen said. “But we are losing money in manufacturing a turbine.” Vestas has raised prices more than 30% in the past year to help stem losses.”

I have said this before—- the parasitic** cost of wind is never used in calculating the cost of wind turbine electricity.   And the recently passed Inflation Reduction Act, that is really Green New Deal in disguise, expanded tax credits.  If you use union labor, you probably can qualify for an expanded Investment Tax Credit (ITC) from 6% to 30%.  The ITC is not used cost wise either.

One more time, if wind and solar energy is so cheap, why do they need any incentives? Do the taxpayers know this, especially the rate paying users of renewable energy that see the price of their electricity bill rise?

  **cb-dakota.com/2022/10/31/wind-and-solar-renewable-energy-are-parasites/

cbdakota

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Posted in Alternative Energy, Electrical grid, Renewable Energy, Windpower

Part 2: The Fragile Electric Grid

Posted on August 19, 2021 | Leave a comment

See the source image

This is part two of Robert Bryce’s testimony to the House Select Committee on The Climate Crisis.

Our electric grid is fragile.  Robert Bryce writes that the Department of Energy’s Office of Cybersecurity, Energy Security and Emergence Response illustrates the declining reliability of our grid.  Bryce says:

“In 2002, there were 23 “major disturbances and unusual occurrences” on the domestic electric grid. Those outages were caused by things like ice storms, fires, vandalism, and severe weather. By 2016, the number of disturbances and unusual occurrences had increased six-fold to 141. In 2020, the number of events jumped to 383 – an increase of 270% in just four years.  Even more alarming: through the first two months of 2021, there have been 122 of these outages.”

Bryce says:

Electrifying everything is the opposite of anti-fragile.  Attempting to halt the use of liquid motor fuels and replace them with electricity will make our transportation system more vulnerable to disruptions caused by extreme weather, saboteurs, equipment failure, accidents, or human error. Electrifying our transportation system will reduce societal resilience because it will put all our energy eggs in one basket. Electrifying transportation will reduce fuel diversity and concentrate our energy risks on a single grid, the electric grid, which will make it an even-more-appealing target for terrorists or bad actors.

Furthermore, and perhaps most important, attempting to electrify transportation makes little sense given the ongoing fragilization of our electric grid. The closures of our nuclear plants is reducing the reliability and resilience of the electric grid and making it more reliant on gasfired power plants and weather-dependent renewables.”

While skeptics have known for years that the alarmist’s forecasts of doom are not likely to be realized, the alarmists oddly want to shut down all nuke plants. Nuke plants that do not emit their enemy carbon dioxide (CO2).  Bryce notes Congress inaction regarding this issue when he says:

“Instead, Congress is standing idly by as our nuclear plants – our most reliable, safest, and most power-dense form of electricity production – are being shuttered. Nuclear plants are, as writer Emmet Penney recently put it, our “industrial cathedrals.” If policymakers want to decarbonize our transportation system while enhancing the resilience of our society, the best option would be to have a grid that is heavily reliant on nuclear energy.”

Bryce discusses recent issues that demonstrate the gird’s declining reliability in his report.  They can be reviewed by clicking here.

See part two about supply chains and mineral needs.

Pages: 1 2

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Posted in Alternative Energy, Chinese aggression, Electric Vehicles, Electrical grid, Electricity from Coal, Nuclear Energy, Personal Automobiles, Renewable Energy, solar cells, Windpower

Biden Green Plan Costs $1.7 trillion and Reduces Global Temp 0.1C

Posted on November 10, 2020 | 1 comment

Let’s see how you answer this question—Yes,  No.

“It worth it for the American taxpayers to pay $1.7 trillion to lower the Earth’s temperature by 0.1C (0.18F) “

 If you answered YES, I dub you Captain “Gullible”.    Oh, by the way, maybe  you would like to buy some of my ocean front property in Arizona.

The $1.7 trillion is the cost estimate of Joe Biden’s planed phase out of fossil fuels in the US.  The Biden plan would lower the global temperature by 0.1C as calculated by the Alarmist’s Climate Action Tracker.

All of this comes from the pages of the UK Guardian newspaper. This newspaper is perhaps the world’s biggest media supporter of the climate change alarmism.  The stated cost and the results are Guardian’s bona fide.

My guess is that when 2050 arrives, there are three likely outcomes. 

Outcome A

The plan was dropped after it was clear that no apocalypse was going to happen.

The Alarmist’s computers that predict the future temperatures have been much higher than the actual temperature measurements.  The Alarmists are alarmists because they refuse to recognize the facts that their   computers are flawed.

See posting Michael Shellenberger Exposes Global Warming Alarmists”

Outcome B

The plan was dropped because it was too costly and that adaptation, if necessary, was deemed less costly.

Let’s assume that in 30 to 70 (2050 to 2100) years, sea levels rise several feet, mankind would have the capability to adapt to the change.  It would not happen overnight, but rather slowly over years.  And the odds are that equally good that it will not raise several feet. 

Outcome C

The plan was dropped when the West realized the Chinese were never planning to follow any carbon reduction program.  Consequently, China dominated the globes economy because their energy costs were vastly lower, and it was more reliable than the nations of the West’s energy.

Wind and Solar will be deemed failures.  They are unreliable and must be backed up. Currently, it is necessary to have fossil fuel-based production facilities that can supply the demand reliably.   During this time as more wind and solar are added, the price of electricity would “skyrocket” (as predicted by Former President Obama.)  China has world domination as their target.  The Biden plan will be a big help to the Chinese toward realization of their objective.   

Ultimately, nuclear energy-based electricity production will become the major source.  The alarmist does not want nuclear to succeed as they have seen it as a threat to imposition of wind and solar.

I see anyone of the three as likely to happen.  Maybe it will be all of them will be realized and that will cause the Biden plan to be dropped.   

And a commonsense addition—-  how many people are going to believe the stopping a global temperature rise of just 0.18F as worth S1.7trillion is worth it? Less that one fifth of one degree!  Or even necessary!

cbdakota

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Posted in AGW, China, Climate Alarmism, Climate Models, Global Temperatures, Paris Agreement, solar cells, Windpower

Solar Cells Are Not Able to Supply Daily Power Demand Alone

Posted on November 7, 2020 | 1 comment

 

Our nation’s electricity is produced mainly by fossil fuels and nuclear energy.  The role played by renewables is relatively small, even though the public seems to believe it is greater.  This is probably because the media apparently wants the public to believe it is so.  The Chart 1 below is from the Energy Information Administration (eia), an arm of the Department of Energy:

                                                   CHART 1 

Wind and solar represent 9.1% of the sources of US electricity generation in 2019. 

The sources noted in the picture above feed their power output into systems called the grids.  These grids distribute the power to the users in their area. The grids do their utmost to be a source of uninterruptable electricity at a specific frequency.  This they do reliably. 

All of us have experienced a power loss at our home or business and you know how disruptive that is.  But most power losses we have experienced are almost always local disruptions, e.g.  wind, snow, lightning, power pole meets vehicle, transformer failure, etc. But not a grid failure.

The grids fine tunes their delivery of power, matching the increases and decreases of demand.  The grid operators dictate to the suppliers what is needed.  For example, the operators can use Nuclear and Coal based plants as a base load.  These two sources are predictable and steady suppliers but may not be able to quickly react to changes in demand.  The grid operator’s natural gas plants can adjust quickly to changes to prevent supply disruptions. Most businesses need electricity to be uninterrupted as downtime is costly.

Wind and solar are non-dispatchable because they are neither predictable nor steady suppliers of electricity. The wind driving the wind turbines can go from near gale force to calm very quickly.   Solar can do the same as cloud banks appear overhead.  The grid operator has no control over how much or how little the renewables are producing.  If renewables are supplying the grid, the operator must have backup capacity to prevent shutdown of the grid. By the way, grids are not capable of storage of electricity.

The following is from a posting by American Experiment titled “No State Imports More Electricity Than California” by Isaac Orr:

“The Chart 2 below is from Electricity Map, and it shows electricity generation by source on April 3, 2019 in California. The orange section represents solar, the blue hydroelectric, light blue, wind, green, nuclear, red natural gas, and the brown section is imported electricity.

                                                   Chart 2

As you can see, imports fall when it is sunny out, and increase again when the sun goes down. It just so happens that the sun was not shining when the demand for electricity in California was highest. California’s policies promoting renewables at the expense of dispatchable generation place it in an odd predicament, it must pay other states to take the excess electricity generated by renewables when their generation is high, and it must also pay other states for their power when renewable generation is low.”

From Chart 2, you can see solar cells negatives. 

 Solar cell production is not at its maximum at sunrise nor sunset.  It peaks around noon when the sun is directly overhead. The eia Chart 3 below shows typical electricity production in Los Angeles.   Using the gold curve, that assumes that the solar cell has tracking, at 3pm, the watts are about 550 Watts and at 7pm it is at zero.  At the peak demand midpoint, say 5 pm, it can only produce about 250 watts.  (This would be the output of a single solar cell.  However, it represents the rest of the solar cells.  The change in watts is equivalent to the percent reduction the entire solar cell farm would experience.)

                                             Chart 3

The energy production Chart3 would suggest that a solar cell is not a major contributor during peak demand.  That matches the illustrated Chart 2.

  • The greens imagine pairing solar cells and wind turbines producing energy for a grid.  In this case, regardless of the capacity of the solar cells, the wind must be able to produce all the power to satisfy the capacity rating of the location. Every day, after the sun sets, the wind turbines would have to match demand.  Solar cells can never support the daily capacity rating of the location. So why have them?

I am not a proponent of either wind turbines or solar cells.  Earlier in this posting I outlined the fact that they are not dispatchable.   Industry could not function with an unreliable energy supply.  Nor would the public accept it.  Brown outs and black outs are inevitable without a backup. 

Power Engineering posted “Study Says Renewable Power Still Reliant on Backup from Natural Gas” by Wayne Barber.   In this posting he covers a study by the Massachusetts-based National Bureau of Economic Research that stated:

“We show that a 1 percent increase in the share of fast-reacting fossil generation capacity is associated with a 0.88% percent increase in renewable in the long run,” the NBER authors say in the report.

cbdakota

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Posted in Electricity, Electricity from Coal, fossil fuels, Renewable Energy, solar cells, Uncategorized, Windpower

UN Forecast Year 2100 World Population At 10.9Billion. Only Nuclear Can Provide Needed Energy

Posted on June 19, 2019 | Leave a comment

The “UN 2019 Revision of World Population Prospects” report says that by the end of this century the world’s population will be about 10.9 people. What does this mean with respect to the UN goals of having only renewable power—wind and solar –and the elimination of fossil fuels as an energy source? 

The Pew Research Center analyzed the UN report and came up with some eye-opening observations.   China will begin to lose population by the end of this century.  India will have the world’s largest population, surpassing China.   Africa will have 4.3 billion people at the turn of the century, substantially more that the 1.5 billion it has in 2020.  And Africa’s average age will be 35. The World’s median age will be 42.

Look at this chart:

By 2100, Asia and Africa combined will be 9.0 billion of the forecast total world population of 10.9 billion. We can expect that the really undeveloped populations of the world will be demanding a standard of living approaching that of Europe and North America. 

China and India have already launched programs to achieve a very much improved standard of living for their people.  Africa will surely do the same and with a relatively young population they will be aggressive.  That standard of living will only be realized through energy.

It will not come from renewables.  It probably cannot be fully realized by fossil fuels.   It will have to come from nuclear energy.  Ultimately, nuclear will dominate the energy sector.  

For the US, economics are causing some shutdowns of nuclear plants as natural gas generates energy at a lower cost.  In the long run, nukes should be the lowest cost reliable energy.

However, there are several nukes that are being shutdown because a governing body does not like them.  These are bad choices.

Germany seems to have an irrational fear of nukes that were prompted by the Japanese Fukushima nuke plants being flooded by a tsunami.  When was the last time a tsunami hit Germany?

It is my opinion that the greens opposition to nukes is that the nukes have the potential to solve the energy problem. Many leaders of the green movement have publicly announced that their goal is a one-world socialist government based out of the UN. They would prefer an energy limited world where they would be in charge.   Nukes could solve the energy problem, destroying their dream.  

Ok, will these population estimates prove-out?  Will Ebola wipe out millions of Africans?   Will there be a war or wars that slash these estimates?   Could the expectations for lower fertility be wrong and the world population grows even larger?   Of course, I don’t know answers to any of those questions.  But for the moment, I am assuming these estimates are going to be accurate.

cbdakota

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Posted in Alternative Energy, China, Electricity, Electricity from Coal, fossil fuels, Nuclear Energy, Paris Agreement, Renewable Energy, solar cells, Windpower

Renewables Are Better At Creating Jobs Than At Creating Energy

Posted on June 17, 2019 | 2 comments

Anericanexperiment blog posted”Energy Industry There to Produce Energy, not Jobs” written by John Phelan..The author begins by quoting Gregg Mast of Clean Energy Economy Minnesota who is boasting about clean energy jobs growth.  Mast says:

 “The fact is,the number of clean-energy jobs has grown every year since the release of the first Clean Jobs Midwest-Minnesota report in 2016, and these good-paying jobs have been added at a faster pace than the statewide average.”

 

Countering Gregg Mast’s boast,  Phelan responds by saying:

“This might sound like great news, but there is something missing from this celebration. It is something vital. Indeed, from an economic point of view, it is the most vital thing of all: How much energy are these workers actually producing?  Increasing productivity — the ratio of outputs produced to inputs used — is key to economic growth and raising living standards”.

So, how productive are these new clean-energy workers? How much energy does each produce?  Sadly, the answer seems to be “not much.” According to data on electric-power generation by primary energy sources from the Energy Information Administration and figures for employment in each sector from the U.S. Energy and Employment Report, we can see that, in 2017,   the 412 workers employed in Minnesota’s natural-gas sector produced an average of 16,281 megawatt hours of electricity each. For coal, the figure was 13,230 megawatt hours produced for each of the 1,722 workers employed in the state.

But for renewable wind and solar, the numbers are far less encouraging. In terms of megawatt hours produced per worker, Minnesota’s wind sector came in a somewhat distant third. Each of the 1,966 workers here generated an average of just 5,665 megawatt hours in 2017. This was just 43 percent of the amount of electricity a Minnesota coal worker produced annually and 35 percent of that produced by a natural-gas worker.

For solar, the numbers are even worse. In 2017, each of Minnesota’s 3,800 solar-energy workers produced an average of just 157 megawatt hours. This was just 1.2 percent of the energy produced by a coal worker and only 1 percent of that which a natural-gas worker produced.

The chart below illustrates the above:

 

 

 

In terms of that vital ratio of outputs (energy generated) to inputs (number of workers), wind energy is a low-productivity sector compared to natural gas and coal. Solar is even worse. Piling more inputs into these sectors when they could be more productive in other sectors lowers productivity and economic welfare. This is certainly not something to be celebrated — from an economic point of view, at least.

Mast and Clean Energy Economy Minnesota need to remember that the point of an energy industry is to generate energy, not to generate jobs.

A response by supporters of wind and solar is that there are workers out there insulating homes.  How many of solar’s 3800 jobs are insulating homes?

cbdakota

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Posted in AGW, Alternative Energy, Electricity, Electricity from Coal, fossil fuels, Green Jobs, solar cells, Windpower

New Energy Economy” An Exercise in Magical Thinking Part 10 Energy Revolutions Are Still Beyond The Horizon

Posted on June 8, 2019 | Leave a comment

This is the final part of the serialization of Mark Mills’ report New Energy Economy: An Exercise in Magic Thinking.

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Energy Revolutions Are Still Beyond the Horizon

 When the world’s poorest 4 billion people increase their energy use to just 15% of the per-capita level of developed economies, global energy consumption will rise by the equivalent of adding an entire United States’ worth of demand.92 In the face of such projections, there are proposals that governments should constrain demand, and even ban certain energy-consuming behaviors. One academic article proposed that the “sale of energy-hungry versions of a device or an application could be forbidden on the market, and the limitations could become gradually stricter from year to year, to stimulate energy-saving product lines.”93 Others have offered proposals to “reduce dependency on energy” by restricting the sizes of infrastructures or requiring the use of mass transit or car pools.94

The issue here is not only that poorer people will inevitably want to—and will be able to—live more like wealthier people but that new inventions continually create new demands for energy. The invention of the aircraft means that every $1 billion in new jets produced leads to some $5 billion in aviation fuel consumed over two decades to operate them. Similarly, every $1 billion in data centers built will consume $7 billion in electricity over the same period.95 The world is buying both at the rate of about $100 billion a year.96

The inexorable march of technology progress for things that use energy creates the seductive idea that something radically new is also inevitable in ways to produce energy. But sometimes, the old or established technology is the optimal solution and nearly immune to disruption. We still use stone, bricks, and concrete, all of which date to antiquity. We do so because they’re optimal, not “old.” So are the wheel, water pipes, electric wires … the list is long. Hydrocarbons are, so far, optimal ways to power most of what society needs and wants.

More than a decade ago, Google focused its vaunted engineering talent on a project called “RE<C,” seeking to develop renewable energy cheaper than coal. After the project was canceled in 2014, Google’s lead engineers wrote: “Incremental improvements to existing [energy] technologies aren’t enough; we need something truly disruptive. … We don’t have the answers.”97 Those engineers rediscovered the kinds of physics and scale realities highlighted in this paper.

An energy revolution will come only from the pursuit of basic sciences. Or, as Bill Gates has phrased it, the challenge calls for scientific “miracles.”98 These will emerge from basic research, not from subsidies for yesterday’s technologies. The Internet didn’t emerge from subsidizing the dial-up phone, or the transistor from subsidizing vacuum tubes, or the automobile from subsidizing railroads.

However, 95% of private-sector R&D spending and the majority of government R&D is directed at “development” and not basic research.99 If policymakers want a revolution in energy tech, the single most important action would be to radically refocus and expand support for basic scientific research.

Hydrocarbons—oil, natural gas, and coal—are the world’s principal energy resource today and will continue to be so in the foreseeable future. Wind turbines, solar arrays, and batteries, meanwhile, constitute a small source of energy, and physics dictates that they will remain so. Meanwhile, there is simply no possibility that the world is undergoing—or can undergo—a near-term transition to a “new energy economy.”

================================================================

 I know it was a lot of reading, but Mills does a marvelous job of making his thoughts easily understandable and convincing.

Mills’ entire report can be downloaded by clicking here. 

The pages of numbered references are found by clicking “to read more”.

cbdakota

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Posted in AGW, Alternative Energy, Electricity, fossil fuels, solar cells, Windpower

New Energy Economy:An Exercise in Magical Thinking Part 9 Digitalization Won’t Uberize the Energy Sector.

Posted on June 7, 2019 | Leave a comment

Continuing the serialization of Mark Mills’ report New Energy Economy: An Exercise in Magical Thinking.  This part is Digitalization Won’t Uberize the Energy Sector.

=================================================

Digitalization Won’t Uberize the Energy Sector     

Digital tools are already improving and can further improve all manner of efficiencies across entire swaths of the economy, and it is reasonable to expect that software will yet bring significant improvements in both the underlying efficiency of wind/solar/battery machines and in the efficiency of how such machines are integrated into infrastructures. Silicon logic has improved, for example, the control and thus the fuel efficiency of combustion engines, and it is doing the same for wind turbines. Similarly, software epitomized by Uber has shown that optimizing the efficiency of using expensive transportation assets lowers costs. Uberizing all manner of capital assets is inevitable. Uberizing the electric grid without hydrocarbons is another matter entirely.

The peak demand problem that software can’t fix

In the energy world, one of the most vexing problems is in optimally matching electricity supply and demand (Figure 6). Here the data show that society and the electricity-consuming services that people like are generating a growing gap between peaks and valleys of demand. The net effect for a hydrocarbon-free grid will be to increase the need for batteries to meet those peaks.

 

All this has relevance for encouraging EVs. In terms of managing the inconvenient cyclical nature of demand, shifting transportation fuel use from oil to the grid will make peak management far more challenging. People tend to refuel when it’s convenient; that’s easy to accommodate with oil, given the ease of storage. EV refueling will exacerbate the already-episodic nature of grid demand.

To ameliorate this problem, one proposal is to encourage or even require off-peak EV fueling.85 The jury is out on just how popular that will be or whether it will even be tolerated.

 

Although kilowatt-hours and cars—key targets in the new energy economy prescriptions—constitute only 60% of the energy economy, global demand for both is centuries away from saturation. Green enthusiasts make extravagant claims about the effect of Uber-like options and self-driving cars. However, the data show that the economic efficiencies from Uberizing have so far increased the use of cars and peak urban congestion.86 Similarly, many analysts now see autonomous vehicles amplifying, not dampening, that effect.87

That’s because people, and thus markets, are focused on economic efficiency and not on energy efficiency. The former can be associated with reducing energy use; but it is also, and more often, associated with increased energy demand. Cars use more energy per mile than a horse, but the former offers enormous gains in economic efficiency. Computers, similarly, use far more energy than pencil-and-paper.

Uberizing improves energy efficiencies but increases demand

Every energy conversion in our universe entails builtin inefficiencies—converting heat to propulsion, carbohydrates to motion, photons to electrons, electrons to data, and so forth. All entail a certain energy cost, or waste, that can be reduced but never eliminated. But, in no small irony, history shows—as economists have often noted—that improvements in efficiency lead to increased, not decreased, energy consumption.

If at the dawn of the modern era, affordable steam engines had remained as inefficient as those first invented, they would never have proliferated, nor would the attendant economic gains and the associated rise in coal demand have happened. We see the same thing with modern combustion engines. Today’s aircraft, for example, are three times as energy-efficient as the first commercial passenger jets in the 1950s.88 That didn’t reduce fuel use but propelled air traffic to soar and, with it, a fourfold rise in jet fuel burned.89

Similarly, it was the astounding gains in computing’s energy efficiency that drove the meteoric rise in data traffic on the Internet—which resulted in far more energy used by computing. Global computing and communications, all told, now consumes the energy equivalent of 3 billion barrels of oil per year, more energy than global aviation.90

 The purpose of improving efficiency in the real world, as opposed to the policy world, is to reduce the cost of enjoying the benefits from an energy-consuming engine or machine. So long as people and businesses want more of the benefits, declining cost leads to increased demand that, on average, outstrips any “savings” from the efficiency gains. Figure 7 shows how this efficiency effect has played out for computing and air travel.91

 

Of course, the growth in demand growth for a specific product or service can subside in a (wealthy) society when limits are hit: the amount of food a person can eat, the miles per day an individual is willing to drive, the number of refrigerators or lightbulbs per household, etc. But a world of 8 billion people is a long way from reaching any such limits.

The macro picture of the relationship between efficiency and world energy demand is clear (Figure 8). Technology has continually improved society’s energy efficiency. But far from ending global energy growth, efficiency has enabled it. The improvements in cost and efficiency brought about through digital technologies will accelerate, not end, that trend.

 

 

 

 

 

=====================================================

The serialization of Mark Mills’ report concludes with the next part titled Energy Revolutions Are Still Beyond the Horizon.

cbdakota

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Posted in AGW, Alternative Energy, Batteries, Electric Vehicles, Energy Development, fossil fuels, solar cells, Windpower

New Energy Economy: An Exercise in Magical Thinking Part 8 Sliding Down the Renewable Asymptote.

Posted on June 6, 2019 | Leave a comment

Continuing serialization of Mark Mills’ report New Energy Economy: An Exercise in Magical Thinking.

This part 8.  

=================================================== 

Sliding Down the Renewable Asymptote  

Forecasts for a continual rapid decline in costs for wind/solar/batteries are inspired by the gains that those technologies have already experienced. The first two decades of commercialization, after the 1980s, saw a 10-fold reduction in costs. But the path for improvements now follows what mathematicians call an asymptote; or, put in economic terms, improvements are subject to a law of diminishing returns where every incremental gain yields less progress than in the past (Figure 4).

 

 

 

This is a normal phenomenon in all physical systems. Throughout history, engineers have achieved big gains in the early years of a technology’s development, whether wind or gas turbines, steam or sailing ships, internal combustion or photovoltaic cells. Over time, engineers manage to approach nature’s limits. Bragging rights for gains in efficiency—or speed, or other equivalent metrics such as energy density (power per unit of weight or volume) then shrink from double-digit percentages to fractional percentage changes. Whether it’s solar, wind tech, or aircraft turbines, the gains in performance are now all measured in single-digit percentage gains. Such progress is economically meaningful but is not revolutionary.

The physics-constrained limits of energy systems are unequivocal. Solar arrays can’t convert more photons than those that arrive from the sun. Wind turbines can’t extract more energy than exists in the kinetic flows of moving air. Batteries are bound by the physical chemistry of the molecules chosen. Similarly, no matter how much better jet engines become, an A380 will never fly to the moon. An oil-burning engine can’t produce more energy than what is contained in the physical chemistry of hydrocarbons.

Combustion engines have what’s called a Carnot Efficiency Limit, which is anchored in the temperature of combustion and the energy available in the fuel. The limits are long established and well understood. In theory, at a high enough temperature, 80% of the chemical energy that exists in the fuel can be turned into power.74 Using today’s high-temperature materials, the best hydrocarbon engines convert about 50%–60% to power. There’s still room to improve but nothing like the 10-fold to nearly hundredfold revolutionary advances achieved in the first couple of decades after their invention. Wind/solar technologies are now on the same place of that asymptotic technology curve.

For wind, the boundary is called the Betz Limit, which dictates how much of the kinetic energy in air a blade can capture; that limit is about 60%.75 Capturing all the kinetic energy would mean, by definition, no air movement and thus nothing to capture. There needs to be wind for the turbine to turn. Modern turbines already exceed 45% conversion.76 That leaves some real gains to be made but, as with combustion engines, nothing revolutionary.77 Another 10-fold improvement is not possible.

For silicon photovoltaic (PV) cells, the physics boundary is called the Shockley-Queisser Limit: a maximum of about 33% of incoming photons are converted into electrons. State-of-the-art commercial PVs achieve just over 26% conversion efficiency—in other words, near the boundary. While researchers keep unearthing new non-silicon options that offer tantalizing performance improvements, all have similar physics boundaries, and none is remotely close to manufacturability at all—never mind at low costs.78 There are no 10-fold gains left.79

Future advances in wind turbine and solar economics are now centered on incremental engineering improvements: economies of scale in making turbines enormous, taller than the Washington Monument, and similarly massive, square-mile utility-scale solar arrays. For both technologies, all the underlying key components—concrete, steel, and fiberglass for wind; and silicon, copper, and glass for solar—are all already in mass production and well down asymptotic cost curves in their own domains.

While there are no surprising gains in economies of scale available in the supply chain, that doesn’t mean that costs are immune to improvements. In fact, all manufacturing processes experience continual improvements in production efficiency as volumes rise. This experience curve is called Wright’s Law. (That “law” was first documented in 1936, as it related then to the challenge of manufacturing aircraft at costs that markets could tolerate. Analogously, while aviation took off and created a big, worldwide transportation industry, it didn’t eliminate automobiles, or the need for ships.) Experience leading to lower incremental costs is to be expected; but, again, that’s not the kind of revolutionary improvement that could make a new energy economy even remotely plausible.

As for modern batteries, there are still promising options for significant improvements in their underlying physical chemistry. New non-lithium materials in research labs offer as much as a 200% and even 300% gain in inherent performance.80 Such gains nevertheless don’t constitute the kinds of 10-fold or hundredfold advances in the early days of combustion chemistry.81 Prospective improvements will still leave batteries miles away from the real competition: petroleum.

There are no subsidies and no engineering from Silicon Valley or elsewhere that can close the physics-centric gap in energy densities between batteries and oil (Figure 5). The energy stored per pound is the critical metric for vehicles and, especially, aircraft. The maximum potential energy contained in oil molecules is about 1,500% greater, pound for pound, than the maximum in lithium chemistry.82 That’s why the aircraft and rockets are powered by hydrocarbons. And that’s why a 20% improvement in oil propulsion (eminently feasible) is more valuable than a 200% improvement in batteries (still difficult).

 Finally, when it comes to limits, it is relevant to note that the technologies that unlocked shale oil and gas are still in the early days of engineering development, unlike the older technologies of wind, solar, and batteries. Tenfold gains are still possible in terms of how much energy can be extracted by a rig from shale rock before approaching physics limits.83 That fact helps explain why shale oil and gas have added 2,000% more to U.S. energy production over the past decade than have wind and solar combined.84

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Next up is  Part 9 Digitalization Won’t Uberize the Energy Sector.

cbdakota

 

 

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Posted in AGW, Batteries, Bill Nye, Domestic Energy, Electricity, fossil fuels, solar cells, Windpower