Tag Archives: power

Climate Solutions, Earth and Ecology, Observation

The Real Dream of Clean Energy: Video Eureka Moment from Cleo Abram

Video

Reducing fossil fuel use is important, but it’s more important to increase zero carbon energy production

Increasing sustainable energy production is possibly the most important goal for the world today. This idea is mostly couched, however, in negative terms, the idea that without a shift to clean, green sustainable sources climate change will destroy the future.

This is an important and essentially true statement.

However the automatic association of sustainable energy as being inevitably connected to less energy availability is a false premise. One that can be proven wrong with positive action towards building clean energy infrastructure, not as a defensive, desperate survival goal, but as a natural expansion of more energy and power that could lead to increased prosperity for the human race.

Deeply embedded thought patterns prevent us, perhaps, from imagining a world where more energy is not associated with more pollution, eventual depletion of a finite and limited resource and ultimately death, destruction and a CO2 induced climate catastrophe.

Optimism and abundance are linked with hope and a dream of a better standard of living for all. That dream is possible not with less energy use, but rather, more and cheaper energy availability that can be created by building a global, sustainable, renewable energy infrastructure.

A change in thought and perspective is necessary and could be more powerful than the sun

Utopia is a word that will get you laughed at, while oblivion is becoming the expected outcome of our century. Predicted by R. Buckminster Fuller in his book ‘Utopia or Oblivion‘, the choice we face in this century is not oblivion and catastrophic suffering or ‘business as usual’, it is not survival vs extinction, it is survival by unleashing utopian potential or total annihilation.

The paradox of sustainable energy is that, without it becoming the primary energy production system for the planet, combined with reduced consumption of fossil fuels until 100% sustainability is reached, oblivion or at least massive pain is assured; while at the same time, achieving 100% carbon free, clean energy from sustainable sources like solar, wind and geothermal, can create virtually unlimited increases in beneficial uses of energy, leading to an almost utopian potential for quality of life.

Thinking is the Difference Between Utopia or Oblivion

The clarity of realizing that clean sustainable energy ubiquity means unlimited energy consumption is non-destructive, and can end the malthusian nightmare of finite resources, that so many have fought over and even died for, is truly mind altering.

More is less, is another way to say it. Or at least more consumption and benefits, but none of the negative costs to the environment that we have come to see as inextricably linked to fossil fuel energy production and use.

At the same time it also harkens back to Elon Musk and Tesla’s mission statement. Tesla has had a vision for sustainable energy that is S3XY; more luxury, more beauty, more fun.

That mind-set, a mind set of abundant clean unlimited energy from sustainable sources, used to power beautiful powerful EVs, has made the company the enormous success that it is and ushered in an era EV production as job #1 throughout the entire auto industry.

The genius of this perspective centers on the idea that humans, when striving toward a positive goal, are always more powerful and successful than they are when simply trying to avoid a negative outcome.

Interestingly, the dream of reaching Mars, Musk’s other stated goal, is both positive and negative, since one reason for the urgent need to establish colonies there could be the destruction of earth due to climate disaster, caused by a failure to create a sustainable clean energy infrastructure in time.

It is the power and dream of much more abundant energy that can remove the idea from our minds that energy consumption is inherently bad, just because it does have negative ramifications galore when the source for that energy is dirty fossil fuels.

The Utopian Mindset must begin to permeate our consciousness if we are to overcome the challenges of 2000-2050 and beyond

Energy abundance is not the only type of abundance that our minds must learn to accept as possible for our species if we hope to turn things around. Bitcoin, for example, is currently being scapegoated in the media generally and is having endless disinformation hurled at its proof of work mining system based on the premise that it uses “too much” energy and too much of that energy is sourced from fossil fuels at this time.

But why not focus on the real problem? Why not see that a monumental and heroic effort to rid the world of dependence on “bad” and ultimately finite and limited sources of energy from fossil fuels and shift, ultimately, 100% of production to clean and renewable sources, needs to be job #1 for team earth?

Again, in an all-or-nothing scenario there is no option to equivocate. The negative reasons that fossil fuels must be phased out as soon as possible (‘the stick’ as per Cleo Abram in her video below) become more inevitable each minute and are already threatening everything humans have accomplished to date.

The positive motivation is less obvious for most at this point (‘the carrot’) and yet is ultimately more powerful (S3XY!) since it carries with it the hope that we can not only avert disaster, death and destruction, but can build a clean, abundant and infinitely expandable energy supply that could be used to build the first tentative steps toward a utopian dream.

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Earth Day, Sustainable Energy

A ‘100% renewables’ target might not mean what you think it means. An energy expert explains

In the global effort to transition from fossil fuels to clean energy, achieving a “100% renewables” electricity system is considered ideal.

Some Australian states have committed to 100% renewable energy targets, or even 200% renewable energy targets. But this doesn’t mean their electricity is, or will be, emissions free.

Electricity is responsible for a third of Australia’s emissions, and making it cleaner is a key way to reduce emissions in other sectors that rely on it, such as transport.

So it’s important we have clarity about where our electricity comes from, and how emissions-intensive it is. Let’s look at what 100% renewables actually implies in detail.

Is 100% renewables realistic?

Achieving 100% renewables is one way of eliminating emissions from the electricity sector.

It’s commonly interpreted to mean all electricity must be generated from renewable sources. These sources usually include solar, wind, hydro, and geothermal, and exclude nuclear energy and fossil fuels with carbon capture and storage.

But this is a very difficult feat for individual states and territories to try to achieve.

The term “net 100% renewables” more accurately describes what some jurisdictions — such as South Australia and the ACT — are targeting, whether or not they’ve explicitly said so.

These targets don’t require that all electricity people use within the jurisdiction come from renewable sources. Some might come from coal or gas-fired generation, but the government offsets this amount by making or buying an equivalent amount of renewable electricity.

A net 100% renewables target allows a state to spruik its green credentials without needing to worry about the reliability implications of being totally self-reliant on renewable power.

So how does ‘net’ 100% renewables work?

All east coast states are connected to the National Electricity Market (NEM) — a system that allows electricity to be generated, used and shared across borders. This means individual states can achieve “net 100% renewables” without the renewable generation needing to occur when or where the electricity is required.

Take the ACT, for example, which has used net 100% renewable electricity since October 2019.

The ACT government buys renewable energy from generators outside the territory, which is then mostly used in other states, such as Victoria and South Australia. Meanwhile, people living in ACT rely on power from NSW that’s not emissions-free, because it largely comes from coal-fired power stations.

This way, the ACT government can claim net 100% renewables because it’s offsetting the non-renewable energy its residents use with the clean energy it’s paid for elsewhere.

SA’s target is to reach net 100% renewables by the 2030s. Unlike the ACT, it plans to generate renewable electricity locally, equal to 100% of its annual demand.

At times, such as especially sunny days, some of that electricity will be exported to other states. At other times, such as when the wind drops off, SA may need to rely on electricity imports from other states, which probably won’t come from all-renewable sources.

So what happens if all states commit to net 100% renewable energy targets? Then, the National Electricity Market will have a de-facto 100% renewable energy target — no “net”.

That’s because the market is one entire system, so its only options are “100% renewables” (implying zero emissions), or “less than 100% renewables”. The “net” factor doesn’t come into it, because there’s no other part of the grid for it to buy from or sell to.

How do you get to “200% renewables”, or more?

It’s mathematically impossible for more than 100% of the electricity used in the NEM to come from renewable sources: 100% is the limit.

Any target of more than 100% renewables is a different calculation. The target is no longer a measure of renewable generation versus all generation, but renewable generation versus today’s demand.

Australia could generate several times more renewable energy than there is demand today, but still use a small and declining amount of fossil fuels during rare weather events. Shutterstock

Tasmania, for example, has legislated a target of 200% renewable energy by 2040. This means it wants to produce twice as much renewable electricity as it consumes today.

But this doesn’t necessarily imply all electricity consumed in Tasmania will be renewable. For example, it may continue to import some non-renewable power from Victoria at times, such as during droughts when Tasmania’s hydro dams are constrained. It may even need to burn a small amount of gas as a backup.

This means the 200% renewable energy target is really a “net 200% renewables” target.

Meanwhile, the Greens are campaigning for 700% renewables. This, too, is based on today’s electricity demand.

In the future, demand could be much higher due to electrifying our transport, switching appliances from gas to electricity, and potentially exporting energy-intensive, renewable commodities such as green hydrogen or ammonia.

Targeting net-zero emissions

These “more than 100% renewables” targets set by individual jurisdictions don’t necessarily imply all electricity Australians use will be emissions free.

It’s possible — and potentially more economical — that we would meet almost all of this additional future demand with renewable energy, but keep some gas or diesel capacity as a low-cost backstop.

This would ensure continued electricity supply during rare, sustained periods of low wind, low sun, and high demand, such as during a cloudy, windless week in winter.

The energy transition is harder near the end — each percentage point between 90% and 100% renewables is more expensive to achieve than the previous.

That’s why, in a recent report from the Grattan Institute, we recommended governments pursue net-zero emissions in the electricity sector first, rather than setting 100% renewables targets today.

For example, buying carbon credits to offset the small amount of emissions produced in a 90% renewable NEM is likely to be cheaper in the medium term than building enough energy storage — such as batteries or pumped hydro dams — to backup wind and solar at all times.

The bottom line is governments and companies must say what they mean and mean what they say when announcing targets. It’s the responsibility of media and pundits to take care when interpreting them.

This article is by James Ha, Associate, Grattan Institute and republished from The Conversation under a Creative Commons license. Read the original article.

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News, Observation, Politics, Science

Nuclear fusion hit a milestone thanks to better reactor walls – this engineering advance is building toward reactors of the future

Scientists at a laboratory in England have shattered the record for the amount of energy produced during a controlled, sustained fusion reaction. The production of 59 megajoules of energy over five seconds at the Joint European Torus – or JET – experiment in England has been called “a breakthrough” by some news outlets and caused quite a lot of excitement among physicists. But a common line regarding fusion electricity production is that it is “always 20 years away.”

photo collage / Lynxotic / adobe stock

We are a nuclear physicist and a nuclear engineer who study how to develop controlled nuclear fusion for the purpose of generating electricity.

The JET result demonstrates remarkable advancements in the understanding of the physics of fusion. But just as importantly, it shows that the new materials used to construct the inner walls of the fusion reactor worked as intended. The fact that the new wall construction performed as well as it did is what separates these results from previous milestones and elevates magnetic fusion from a dream toward a reality.

Fusing particles together

Nuclear fusion is the merging of two atomic nuclei into one compound nucleus. This nucleus then breaks apart and releases energy in the form of new atoms and particles that speed away from the reaction. A fusion power plant would capture the escaping particles and use their energy to generate electricity.

There are a few different ways to safely control fusion on Earth. Our research focuses on the approach taken by JET – using powerful magnetic fields to confine atoms until they are heated to a high enough temperature for them to fuse.

The fuel for current and future reactors are two different isotopes of hydrogen – meaning they have the one proton, but different numbers of neutrons – called deuterium and tritium. Normal hydrogen has one proton and no neutrons in its nucleus. Deuterium has one proton and one neutron while tritium has one proton and two neutrons.

For a fusion reaction to be successful, the fuel atoms must first become so hot that the electrons break free from the nuclei. This creates plasma – a collection of positive ions and electrons. You then need to keep heating that plasma until it reaches a temperature over 200 million degrees Fahrenheit (100 million Celsius). This plasma must then be kept in a confined space at high densities for a long enough period of time for the fuel atoms to collide into each other and fuse together.

To control fusion on Earth, researchers developed donut-shaped devices – called tokamaks – which use magnetic fields to contain the plasma. Magnetic field lines wrapping around the inside of the donut act like train tracks that the ions and electrons follow. By injecting energy into the plasma and heating it up, it is possible to accelerate the fuel particles to such high speeds that when they collide, instead of bouncing off each other, the fuel nuclei fuse together. When this happens, they release energy, primarily in the form of fast-moving neutrons.

During the fusion process, fuel particles gradually drift away from the hot, dense core and eventually collide with the inner wall of the fusion vessel. To prevent the walls from degrading due to these collisions – which in turn also contaminates the fusion fuel – reactors are built so that they channel the wayward particles toward a heavily armored chamber called the divertor. This pumps out the diverted particles and removes any excess heat to protect the tokamak.

The walls are important

A major limitation of past reactors has been the fact that divertors can’t survive the constant particle bombardment for more than a few seconds. To make fusion power work commercially, engineers need to build a tokamak vessel that will survive for years of use under the conditions necessary for fusion.

The divertor wall is the first consideration. Though the fuel particles are much cooler when they reach the divertor, they still have enough energy to knock atoms loose from the wall material of the divertor when they collide with it. Previously, JET’s divertor had a wall made of graphite, but graphite absorbs and traps too much of the fuel for practical use.

Around 2011, engineers at JET upgraded the divertor and inner vessel walls to tungsten. Tungsten was chosen in part because it has the highest melting point of any metal – an extremely important trait when the divertor is likely to experience heat loads nearly 10 times higher than the nose cone of a space shuttle reentering the Earth’s atmosphere. The inner vessel wall of the tokamak was upgraded from graphite to beryllium. Beryllium has excellent thermal and mechanical properties for a fusion reactor – it absorbs less fuel than graphite but can still withstand the high temperatures.

The energy JET produced was what made the headlines, but we’d argue it is in fact the use of the new wall materials which make the experiment truly impressive because future devices will need these more robust walls to operate at high power for even longer periods of time. JET is a successful proof of concept for how to build the next generation of fusion reactors.

The next fusion reactors

The JET tokamak is the largest and most advanced magnetic fusion reactor currently operating. But the next generation of reactors is already in the works, most notably the ITER experiment, set to begin operations in 2027. ITER – which is Latin for “the way” – is under construction in France and funded and directed by an international organization that includes the U.S.

ITER is going to put to use many of the material advances JET showed to be viable. But there are also some key differences. First, ITER is massive. The fusion chamber is 37 feet (11.4 meters) tall and 63 feet (19.4 meters) around – more than eight times larger than JET. In addition, ITER will utilize superconducting magnets capable of producing stronger magnetic fields for longer periods of time compared to JET’s magnets. With these upgrades, ITER is expected to smash JET’s fusion records – both for energy output and how long the reaction will run.

ITER is also expected to do something central to the idea of a fusion powerplant: produce more energy than it takes to heat the fuel. Models predict that ITER will produce around 500 megawatts of power continuously for 400 seconds while only consuming 50 MW of energy to heat the fuel. This mean the reactor produced 10 times more energy than it consumed – a huge improvement over JET, which required roughly three times more energy to heat the fuel than it produced for its recent 59 megajoule record.

JET’s recent record has shown that years of research in plasma physics and materials science have paid off and brought scientists to the doorstep of harnessing fusion for power generation. ITER will provide an enormous leap forward toward the goal of industrial scale fusion power plants.

[You’re smart and curious about the world. So are The Conversation’s authors and editors. You can read us daily by subscribing to our newsletter.]

David Donovan, Associate Professor of Nuclear Engineering, University of Tennessee and Livia Casali, Assistant Professor of Nuclear Engineering, University of Tennessee

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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Books, Entertainment, Lifestyle, Movies

The new movie ‘Hillbilly Elegy’ on Netflix is sparking major controversy

Above: Photo Courtesy of Netflix “Hillbilly Elegy”

…To Stream or Not To Stream, that is the question? 

Hillbilly Elegy, now on Netflix, is a movie based on the 2016 book, a memoir written by J.D. Vance, that tells his story of the difficulties growing up with his drug-addicted mother in a small working-class town in the Appalachians. As rings true in the book, Vance’s character preservers, through hard work, ultimately to take on a better path that leads to his acceptance into Yale. 

The book became a best-seller, somewhat unexpectedly, with Harper Collins only initially running 10,000 copies, but then found themselves quickly having to  reprint.  Released during the time that the 2016 election was beginning to build steam, it was said to have gained its popularity, by giving both Democrats and Republican readers a better understanding of Donald Trump’s voter base.

Soon after the debut of book and massive success, Ron Howard’s production company bought the filming rights, in 2017, and then Netflix won the bidding war to finance the movie, a $45 million deal. The film is directed by Ron Howard and executive-produced by the author. 

After the release of the movie on Nov. 24, 2020 many critics had mixed reviews. Ranging from Oscar worthy to “worst movie ever”.  

The source of the controversy, no doubt, stems from how the movie plays out the “hillbilly” aspect of the narrative.  Some say that the depiction of the characters, while based on Vance’s life, only serves to further reinforce stereotypes of poor white America. 

Other critics note that the movie tries to sell the “pick yourself up by the bootstraps” type of made-for-film-fantasy while ignoring the very real hardships of addiction and systematic inequalities.  

The star-studded cast includes Glenn Close as J.D’s Mamaw (grandmother) and Amy Adams as Bev (his mother). The film is said to be a mostly straightforward adaptation of Vance’s book. The movie is now available to stream through the Netflix platform.   

Below is some additional information from the publisher about the 2016 book adapted to the new released film.

Hillbilly Elegy: A Memoir of a Family and Culture in Crisis 

Click to see “Hillbilly Elegy
and help Independent Bookstores.
Also available on Amazon.

Part memoir, part historical and social analysis, J. D. Vance’s Hillbilly Elegy is a fascinating consideration of class, culture, and the American dream.

Vance’s grandparents were “dirt poor and in love.” They got married and moved north from Kentucky to Ohio in the hopes of escaping the dreadful poverty around them. Their grandchild (the author) graduated from Yale Law School, a conventional marker of their success in achieving upward mobility for their family. But Vance cautions that is only the short version. The slightly longer version is that his grandparents, aunt, uncle, and mother struggled to varying degrees with the demands of their new middle class life and they, and Vance himself, still carry around the demons of their chaotic family history.

Delving into his own personal story and drawing on a wide array of sociological studies, Vance takes us deep into working class life in the Appalachian region. This demographic of our country has been slowly disintegrating over forty years, and Vance provides a searching and clear-eyed attempt to understand when and how “hillbillies” lost faith in any hope of upward mobility, and in opportunities to come.

At times funny, disturbing, and deeply moving, this is a family history that is also a troubling meditation on the loss of the American dream for a large portion of this country.

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