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energy

The cost of methane emissions

April 26, 2024 By EarthWise Leave a Comment

Stanford University-led research has determined that American oil and gas operations are emitting more than 6 million tons of methane each year.  The emissions come from both intentional vents and unintentional leaks. 

Methane is the main component of natural gas and losing that much of it through leakage is costing the industry a billion dollars a year just in lost revenue.  Adding in the harm to the economy and human well-being caused by adding this much potent greenhouse gas to the atmosphere is estimated to increase the cost of these emissions to $10 billion a year.

These emission and cost estimates are roughly three times the level predicted by the U.S. government.  The Stanford numbers are based on roughly a million aerial measurements of wells, pipelines, storage, and transmission facilities in six of the nation’s most productive oil and gas regions located in Texas, New Mexico, California, Colorado, Pennsylvania, and Utah.  These areas account for 52% of U.S. onshore oil production and 29% of gas production.

The survey also found that fewer than 2% of the methane emitters are responsible for 50-80% of emissions in four of the regions.  It also found that midstream infrastructure – which includes gathering and transmission pipelines, compressor stations, and gas processing plants – is responsible for about half of total emissions.

While the federal government estimates that methane leakage averages about 1% of gas production, the new survey puts the number at 3%, and some regions lose almost 10% to leakage.

Better tracking and fixing these leaks – especially the larger ones –  is essential for climate change mitigation.

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Methane emissions from U.S. oil and gas operations cost the nation $10 billion per year

Photo, posted June 5, 2015, courtesy of Dave Houseknecht / USGS via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Self-heating concrete

April 24, 2024 By EarthWise Leave a Comment

Researchers at Drexel University are developing self-heating concrete

States in the colder parts of the country spend an estimated $2.3 billion a year on snow and ice removal as well as untold millions on repairing roadways damaged by winter weather.  Researchers at Drexel University have been researching a way to extend the service life of concrete surfaces like roadways and to help them maintain a surface temperature above freezing during the winter.

Preventing freezing and thawing as temperatures go up and down and reducing the amount of plowing and salting is a desirable goal.  The Drexel team has developed a cold-weather-resilient concrete mix that is capable of melting snow on its own using only the thermal energy in the environment and not requiring salt, shoveling, or heating systems.

The system uses low-temperature liquid paraffin that turns from its room-temperature liquid state into a solid when temperatures go down.  Incorporating the liquid paraffin into concrete triggers heating when temperatures drop due to the energy released by the phase change.

Tests on slabs of the concrete on the Drexel campus over the past two years recorded 32 freeze-thaw events.  The special slabs maintained a surface temperature between 42 and 55 degrees for up to 10 hours when air temperatures dipped below freezing.

The heating is enough to melt a couple of inches of snow at a rate of a quarter inch an hour.  It’s not enough to melt a heavy snow event before plows are needed, but it can help deice road surfaces and increase transportation safety.  And simply preventing the surface from freezing, thawing, and refreezing can go a long way towards preventing deterioration.  It is promising research toward reducing an ongoing problem in colder climates.

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Drexel’s Self-Heating Concrete Is One Step Closer to Clearing Sidewalks Without Shoveling or Salting

Photo, posted March 16, 2024, courtesy of Ajay Suresh via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The world’s largest energy plant

April 19, 2024 By EarthWise Leave a Comment

The largest energy plant in the world is being built in India.  In an area of barren desert in western India near the Pakistani border, Adani Green Energy Limited (or AGEL) is building a sprawling solar and wind power plant that will cover more than 200 square miles.  It will be five times the size of Paris and will produce enough electricity to power 16 million homes.

The Khavda Renewable Energy Park will cost about $20 billion to build and will take about five years to complete.

The success of the plant is critical to India’s efforts to reduce pollution and meet its climate goals.  India is the world’s third-largest energy consuming country.  Even though its energy use and emissions per person are less than half the global average, its enormous population offsets that advantage and its expanding economy and ongoing modernization are driving rapid growth of energy demand.  Energy demand has doubled since 2000 and 80% is still being met by coal, oil, and solid biomass.  India uses massive amounts of coal, and, in fact, the Adani Group of companies is India’s biggest coal importer and a leading miner of the fossil fuel.   Adani represents two sides of the coin.

More than 600 million people in India will be coming into middle and upper income over the next 10 to 15 years and they will have increasing energy needs.  India is in a race to develop clean energy capacity.  If it simply follows the torturous path that China, Europe, and US all have done, the prospects for the global climate are bleak.

Building the world’s largest clean energy plant is just a first small step in the necessary direction.

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A coal billionaire is building the world’s biggest clean energy plant and it’s five times the size of Paris

Photo, posted February 25, 2010, courtesy of Bhavin Toprani via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The health impacts of gas venting and flaring

April 15, 2024 By EarthWise Leave a Comment

Oil and gas producers around the world use venting and flaring to remove excess natural gas in crude oil production.  Flaring is the process of burning excess natural gas at the production well using a flare to ignite the methane and other components in the gas, while venting is the direct release of natural gas into the atmosphere. 

Both practices are major sources of greenhouse gas emissions contributing to global warming.   Venting and flaring release carbon dioxide and methane – two major greenhouse gases. 

The practices contribute to air pollution in surrounding and downwind communities, resulting in increased risk of hospitalizations, emergency room visits, worsening asthma, and even premature death.  In fact, according to a new study recently published in the journal GeoHealth, pollution from oil and gas venting and flaring results in $7.4 billion in health damages, more than 700 premature deaths, and 73,000 asthma exacerbations among children in the United States annually. 

The study, which was led by researchers at the University of North Carolina, Boston University, and the Environmental Defense Fund, also found that emissions are underreported, and controlling emissions would be profitable for operators and would significantly improve public health.

The research team found that Texas, Pennsylvania, and Colorado had the highest health burdens in this analysis, accounting for 45% of the premature deaths. 

The researchers hope their findings will help improve air quality and human health by reducing emissions from venting and flaring. 

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New study quantifies health impacts from oil and gas flaring in U.S. 

Photo, posted June 20, 2020, courtesy of Jonathan Cutrer via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Lithium in Arkansas

April 11, 2024 By EarthWise Leave a Comment

New method being explored to tap lithium deposits in Arkansas

There are more and more electric cars on the road and utilities are installing record amounts of battery storage to back up solar and wind power generation.  Both of these things currently use lithium-ion batteries so the need for them keeps growing.

There is actually plenty of lithium in the world.  Sources of more than 100 million tons have been identified, which is enough to meet the projected needs for decades.  But lithium is not easy, cheap, or environmentally friendly to extract.  It is either blasted out of rocks that are then roasted at 2000-degree temperatures, or it is extracted from brine in places like the high Andes where it leaves behind toxic residues.  Ramping up lithium production could greatly diminish the environmental benefits derived from green technologies.

A technique called direct lithium extraction, or DLE, may be a possible solution.  The lithium is pulled out of brine while leaving other dissolved compounds behind.  It is being tested in many places around the world and appears to offer the lowest negative impacts of available extraction technologies.

The Salton Sea area in California has rich deposits of lithium and is a good candidate for DLE.  But conditions may be even better in Arkansas whose Smackover Formation is a brine-rich expanse of limestone. 

The area was a productive oil field a hundred years ago and then undertook brine-processing in the 1950s to extract bromine.  So, the area already has industrial infrastructure and no new land would need to be cleared.

The former oil fields of Arkansas may become an important domestic source of lithium.

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In Rush for Lithium, Miners Turn to the Oil Fields of Arkansas

Photo, posted February 26, 2021, courtesy of Ivan Radic via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Energy efficient cows

April 5, 2024 By EarthWise Leave a Comment

Livestock production – primarily cows – produce nearly 15% of global greenhouse gas emissions, mostly in the form of methane emitted by burping caused by the way they process food.  A single cow produces roughly 200 pounds of methane gas per year and there are 1.5 billion heads of cattle in the world.

Researchers at Penn State University have found that supplementing the feed of high-producing dairy cows with the botanical extract capsicum oleoresin – a substance obtained from chili peppers – or a combination of that extract and clove oil resulted in the animals using feed energy more efficiently. 

Adding these substances – which are commonly called essential oils – to the cattle’s feed results in improved efficiency of energy utilization.  It is known that botanicals have the potential to modify fermentation in the cow’s largest stomach – called the rumen.

There have been previous studies for many years adding substances to dairy cow feed – such as seaweed, garlic, and oregano – in an effort to improve milk production and reduce environmental emissions from dairy farms.

The Penn State study was actually not specifically aimed at methane reduction but rather to better use the available energy from the feed to gain body weight.  However, the researchers found that the yield and intensity of methane from the cows in the study were decreased by 11% by the combination of capsicum oleoresin and clove oil.

Botanicals have shown a wide range of anti-microbial properties against bacteria, protozoa, and fungi, as well as being potential rumen modifiers in cattle.  The new study represents an interesting approach to improve the metabolism of dairy cows.

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Dairy cows fed botanicals-supplemented diets use energy more efficiently

Photo, posted April 9, 2012, courtesy of Aimee Brown / OSU via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Progress on offshore wind in New York

April 1, 2024 By EarthWise Leave a Comment

New York has now conditionally awarded two offshore wind projects that will move towards operation in 2026.  The projects, totaling more than 1,700 megawatts of power, will be the largest power generation projects in New York state in more than 35 years.  It is an important milestone toward achieving the state’s goal of developing 9,000 megawatts of offshore wind by 2035.

Empire Wind I, located 15 miles southeast of Long Island, and Sunrise Wind, located more than 30 miles east of the eastern point of Long Island, have already completed most federal and state permitting requirements.  Empire Wind I received final approval of their Construction and Operation Plan from the Bureau of Ocean Energy Management in late February.

Both projects are expected to ramp up construction activity this year.  Previous awards by NYSERDA for the projects in 2019 included contract provisions for specific economic benefits to New York communities and commitments for purchasing iron and steel from American sources.   Empire Wind I is being developed by Equinor, an international energy company headquartered in Norway.  Sunrise Wind, originally a joint project by Ørsted and Eversource, is now solely being developed by Ørsted, a global energy company based in Denmark.

Following successful execution of the contracts for the two projects, NYSERDA payments under these awards will only begin once the projects have obtained all required permits and approvals, the construction has been completed, and the projects begin delivering clean energy to New York.

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New York selects Empire Wind I and Sunrise Wind offshore projects

Photo, posted June 14, 2022, courtesy of Lissa Eng / BOEM via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

A surprising drop in renewable power

March 28, 2024 By EarthWise Leave a Comment

Renewable power generation dropped in 2023

Renewable power – which includes wind farms, solar farms, and hydroelectric dams – constitutes over 21% of the country’s utility-scale electricity generation, behind only natural gas power plants at 43%.  Nuclear power provides nearly 19% of our electricity and coal, which is gradually diminishing, is at 16%.

Both solar and wind power capacity have been growing rapidly in recent years and will be providing an increasing percentage of our electricity.  That being said, it turns out that utility-scale renewable electricity generation actually decreased slightly in 2023 as a result of weather-related issues.

Utility-scale renewables generated about 894,000 gigawatt hours of energy last year, which was 0.8% less than the record amount generated in 2022.

The reasons?  The biggest factor was slower wind speeds in the Midwest during the warmer weather months.  In 2023, there were fewer warm fronts and cold fronts passing through the region.  The passage of fronts is often associated with wind and precipitation. 

The other factor affecting renewable generation was a 5.9% drop in hydropower in 2023.  The main reason for the decrease was a drop in water levels at many hydroelectric dams in areas experiencing drought.

Experts explain that there is no reason to overreact to a one-year blip in renewables generation.  All three major sources of power – sun, wind, and hydroelectric – are tied to natural forces and all of them fluctuate over time.  Putting aside minor variations year-over-year, renewable electricity is on pace to more than double by the end of this decade.

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Federal Data Reveals a Surprising Drop in Renewable Power in 2023, as Slow Winds and Drought Took a Toll

Photo, posted July 5, 2014, courtesy of Patrick Finnegan via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Greenland is greening

March 21, 2024 By EarthWise Leave a Comment

Greenland is greening

Despite their names, Iceland is very green, and Greenland is very icy.  But in Greenland, that is changing.  Temperatures in the world’s largest island are rising twice as fast as they are in the rest of the world and, as a result, the icy rocky landscape is turning increasingly green.

Satellite records reveal that over the last three decades Greenland has lost 11,000 square miles of ice, which is an area about the size of Massachusetts.  As the ice melts off, tundra and shrublands takes its place.  The ice melt moves sediment and silt and eventually wetlands and fenlands are formed.

Between the late 1980s and the late 2010s, the areas of Greenland covered by vegetation have more than doubled.  The new green areas cover roughly 33,000 square miles, which is an area the size of Maine.

Greenland’s dramatic changes are the result of the warming climate, but in turn, those changes are accelerating climate change.  Land covered with dark green vegetation absorbs more energy from the sun thereby warming the air whereas ice-covered landscapes reflect much of the sun’s energy back into space.  In addition, the rapidly expanding wetlands are a significant source of methane, which traps even more heat in the atmosphere.

Greenland is a poster child for the effects of climate change.  Its glaciers and icecaps are shrinking, glacier-fed lakes are expanding, permafrost lakes are draining, and rivers are transporting vast amounts of sediment and widening.  All of this is going on as its vegetation cover and species diversity is expanding.

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In Icy Greenland, Area Covered by Vegetation Has More Than Doubled in Size

Photo, posted September 20, 2019, courtesy of Amanda via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Iceland power

March 15, 2024 By EarthWise Leave a Comment

Iceland burns very little fossil fuel to power its economy and heat its homes.  About 85% of its energy comes from geothermal power and hydropower.  Its unique geology provides it with the highest percentage of renewable energy in the world.  The fossil fuel that Iceland does burn is primarily used to power cars and trucks as well as boats in its fishing fleet.  And Iceland is rapidly embracing the use of electric vehicles.

Iceland can make far more electricity than its 373,000 people can use.  The majority of its electricity is essentially exported as bars of aluminum.  Iceland is one of the world’s largest refiners of aluminum.  The aluminum ore comes from other countries but gets shipped to Iceland where electricity is cheap.  Refining aluminum is so energy-intensive that some say that aluminum is basically just pure electricity in solid metal form.

Electricity-rich Iceland is finding other ways to make use of its resources.  There is a proposed project called Icelink, which is an electricity interconnector between Iceland and Great Britain.  The high-voltage direct current link would run between 620 and 750 miles and would be the longest sub-sea power interconnector in the world.  It is controversial in Iceland and it may or may not happen.

Another technology that is establishing an early foothold in Iceland is carbon capture.  An Icelandic company called Carbix is doing leading work on taking captured carbon dioxide and sequestering it underground.  Capturing and storing carbon dioxide is energy-intensive and the promise of cheap, clean geothermal power makes Iceland an attractive place to do it.

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Iceland Is Living in our Future

Photo, posted July 2, 2012, courtesy of  Emily Qualey / PopTech via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

AI’s Environmental Footprint

March 13, 2024 By EarthWise Leave a Comment

AI is leaving a massive environmental footprint

Artificial intelligence is everywhere these days.  Some say it is the biggest development since the discovery of fire.  There is a lot of hype regarding AI, and it will be a while before the hype is sorted out from the reality.  But one thing that is certain is that AI is resource-intensive and has a large environmental footprint.

AI use directly produces carbon emissions from its consumption of non-renewable electricity and is also responsible for the consumption of billions of gallons of fresh water.

Various forms of AI run on many types of devices, but the kind of AI we hear about the most – such as ChatGPT – requires specialized computer equipment that runs in large cloud data centers.  There are roughly 10,000 such centers worldwide and more are under construction.  Estimates are that electricity consumption from data centers will double between 2022 and 2026 to a total of 1,000 terawatts, roughly as much electricity as all of Japan uses.

These estimates include all data center activities, not just AI.  Most operators of data centers don’t reveal what percentage of their energy use comes from AI.  One exception is Google, which says machine learning accounts for about 15% of its data center energy use.

Data centers also consume a great deal of water to cool delicate electronics.  In 2022, Google’s data centers consumed about 5 billion gallons of fresh water.

AI has the potential to improve the efficiency of systems, improve climate models, and perhaps help develop new ways to help reduce humanity’s environmental footprint.  But at the moment, it represents an increasing burden on the environment that cannot just be ignored.

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As Use of A.I. Soars, So Does the Energy and Water It Requires

Photo, posted January 23, 2023, courtesy of Aileen Devlin / Jefferson Lab via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Polar bears and the changing climate

March 7, 2024 By EarthWise Leave a Comment

Polar bears struggling as the climate warms

The changing climate poses a major threat to polar bear survival.  Polar bears, whose native range lies largely within the Arctic Circle, depend on sea ice for nearly all of their lifecycle functions.  Rising global temperatures are causing this sea ice to disappear.

With less sea ice, polar bears are forced to stay longer on land.  However, according to a new study led by researchers from Washington State University, more time stranded on land leads to a greater risk of polar bear starvation. 

During three summer weeks in Manitoba, Canada, 20 polar bears observed by researchers tried different strategies to maintain energy reserves.  But the research team found that nearly all of them lost weight – losing about 2.2 pounds per day on average.     

Some scientists have speculated that polar bears might be able to adapt to the changing climate by acting more like grizzly bears by either resting or eating terrestrial food.  But the polar bears tried versions of both strategies – with little success.

Polar bears can weigh nearly twice as much as grizzly bears.  To maintain this size, polar bears rely on the energy-rich fat of seals, which they best catch on ice.

In the study, which was recently published in Nature Communications, the researchers found that some polar bears laid down to conserve energy, while others searched on land for food.  But neither the activity nor the lack thereof paid off.  In fact, only one bear out of the 20 gained weight after stumbling across a dead marine mammal on land.

Polar bears across the Arctic are at risk of starvation as the ice-free period continues to grow.

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Polar bears unlikely to adapt to longer summers

Photo, posted November 16, 2015, courtesy of Anita Ritenour via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Record energy transition investments

March 5, 2024 By EarthWise Leave a Comment

Record investments in the energy transition

Global investment in the energy transition – that is, the transition away from fossil fuels – increased by 17% in 2023, reaching a new high of $1.8 trillion dollars.  That number includes spending on electric vehicles and their associated infrastructure, electrification of the power grid, and various other changes to the energy system.

Electrified transport was the largest sector for spending, accounting for $634 billion dollars.  This figure includes spending on electric cars, trucks, buses, two- and three-wheeler, and commercial vehicles, as well as charging stations and other associated infrastructure.

The renewable energy sector – including wind, solar, geothermal, and biofuel power plants – accounted for $623 billion.  The third largest investment was $310 billion in power grid investments.

China spent the most of any country by a large margin, investing $676 billion. The EU, U.S., and UK combined accounted for $718 billion. 

These numbers reflect the rapid growth of clean energy across the globe and are obviously quite large.  However, the pace at which clean energy technology is growing is not fast enough to achieve the goal of net-zero emissions by mid-century that most countries have set.  By many accounts, energy transition investments would need to average $4.8 trillion per year for the rest of the decade to be on track.  This is about 5.6% of the global gross domestic product that is currently about $85 trillion per year.  By comparison, the U.S. currently spends about 5.7% of its GDP on energy.

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Energy transition investments hit record $1.8 trillion in 2023

Photo, posted November 22, 2008, courtesy of Oregon Department of Transportation via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Record renewable energy in Scotland

March 1, 2024 By EarthWise Leave a Comment

Record renewable energy in Scotland

The Scottish government recently announced that in 2022, renewable technologies in that country produced the equivalent of 113% of Scotland’s electricity consumption.

Fossil fuels still supplied electricity in Scotland, helping to fill in gaps in renewable power, but the government figures showed that the growing amount of Scottish renewable generation can easily generate more power than the country uses.  Scotland has seen significant growth in wind power as well as a small drop in overall electricity consumption.

Scotland, with a population of only 5.5 million, aims to produce enough renewable power to both meet its own demand and export clean electricity to other countries.  The U.K. is the obvious potential customer, but it will need to upgrade its national power grid and develop enough capacity to store up surplus wind and solar power.

The U.K. itself is drawing less power from natural gas and coal than it has at any point in the last 66 years.  Fossil fuels supplied only 33% of British electricity in 2023 while renewables supplied 43%. 

Fossil power use in Britain peaked in 2008.  Since then, power from natural gas has fallen nearly in half while coal power has dropped by 97%.  The U.K. has aggressive decarbonization goals in place, but the current Conservative government under Prime Minister Sunak has recently set about weakening British climate policy.

Meanwhile, the Scottish government is talking about becoming a global renewables powerhouse and is making investments aimed at achieving it.

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Record renewable energy output

Photo, posted July 21, 2010, courtesy of Martin Abegglen via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Fusion energy

February 29, 2024 By EarthWise Leave a Comment

Nuclear fusion is the process that powers the sun.  Two atoms of hydrogen unite to form one helium atom and release energy in the process.  Hydrogen bombs work in this way and since their development in the 1950s, scientists have sought a way to use fusion to generate electricity.  Many scientists believe that the key to a fully decarbonized future is a combination of solar, wind, and fusion power.

Nuclear fusion does not involve radioactivity and thus does not have the dangers associated with the nuclear fission used in existing power plants.  Over the decades, billions of dollars have gone into fusion research, but the challenges faced in peacefully triggering a fusion reaction have made success always seem to be extremely far off in the future.

The world’s largest fusion project – the International Thermonuclear Experimental Reactor or ITER – was initiated in 1985.  The project involves 35 countries, and the reactor, still under construction in France, has yet to deliver any tangible results.

In the past couple of years, there have been important demonstrations of new and different ways to create nuclear fusion.  A system using laser fusion achieved fusion ignition, in which a reaction briefly became self-sustaining.  A system using magnetic confinement fusion produced a plasma that generated 11 megawatts of power for a world-record five seconds.

There are more than 30 companies competing in the race to deliver fusion energy.  Governments and private investors are funding efforts around the world.  Whether any of them will succeed remains to be seen.  The challenges are immense but so are the potential rewards.

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Will Tech Breakthroughs Bring Fusion Energy Closer to Reality?

Photo, posted July 31, 2010, courtesy of Steve Jurvetson via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Natural hydrogen

February 26, 2024 By EarthWise Leave a Comment

Natural hydrogen could be a big deal

Hydrogen is considered to be a potential substitute for conventional fossil fuels in applications where electricity cannot easily be used such as in blast furnaces, cement works, industrial heating, long-distance aviation, and shipping.  But most hydrogen is manufactured by separating it from methane, which is energy-intensive and produces carbon dioxide.  So-called green hydrogen is made by splitting water using electricity.  It is a carbon-free process if the electricity is from renewable sources, but it is pretty expensive.

A small community in Mali gets its electricity by burning natural hydrogen, which bubbles up from underground into a village well.  It has long been known that processes in the Earth’s crust can make hydrogen gas from water under certain circumstances.  But conventional wisdom has been that this occurrence is rare and that the hydrogen produced is either inaccessible or seeps away.

An increasing number of geoscientists now are convinced that there is actually an enormous quantity of hydrogen beneath the planet’s surface and that we just haven’t been looking for it in the right places, or at all, for that matter.  Some say that there could be trillions of tons of hydrogen, and more is being generated all the time.

Prospectors have recently been drilling for hydrogen in France, Australia, Morocco, Brazil, and in the United States, in Nebraska, Arizona, and Kansas.  Will extracting natural hydrogen be practical at the scale required and will it be economical?  The jury is still out on all of this, but if it turns out as proponents claim, natural hydrogen could be a very big deal.

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Natural Hydrogen: A Potential Clean Energy Source Beneath Our Feet

Photo, posted November 4, 2012, courtesy of Heather Paul via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Red mud and steel

February 21, 2024 By EarthWise Leave a Comment

Making steel from aluminum waste

Most of us have never heard of red mud.  Otherwise known as bauxite residue, it is an industrial waste product generated by the most common process by which aluminum is made and the world produces 200 million tons of red mud each year.  The stuff is a significant environmental hazard being extremely alkaline and corrosive. Most of it ends up in large landfills and the costs associated with disposing of red mud are substantial.

Red mud is red because it contains large amounts of iron oxide, often as much as 60% of it.  Scientists at the Max-Planck Institute in Germany have developed a method for producing steel from red mud that is much less carbon intensive than traditional steel production and that is economically viable.

The scientists melt the red mud in an electric furnace powered in part by green hydrogen.  Running the furnace this way, even when using electricity from only partially renewable sources, results in far fewer greenhouse gas emissions as well as economic benefits.  In the furnace, liquid iron separates from the other liquid oxides and can be extracted easily.  The resultant iron is so pure that it can processed directly into steel.  The remaining metal oxides are no longer corrosive, and they solidify into a glass-like material that can have practical uses in construction.

There are 4 billion tons of red mud that have accumulated worldwide to date.  According to the researchers, their process could produce over 700 million tons of green steel from it, potentially saving 1.6 billion tons of carbon dioxide emissions. 

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Green steel from toxic red mud

Photo, posted September 7, 2021, courtesy of Healthy Gulf via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Sustainable hydrogen from methane

February 14, 2024 By EarthWise Leave a Comment

Creating sustainable hydrogen from methane

Hydrogen could serve as a viable alternative to fossil fuels that can be used directly as a fuel or can be used to generate electricity to power cars and other devices. However, large-scale production of hydrogen currently relies on fossil fuels and creates carbon emissions in the process.

So-called green hydrogen involves using electricity to split water into its component elements to produce it.  If the electricity is generated without emissions, then the hydrogen is truly green.

Another way to get hydrogen is by breaking down hydrocarbons like methane, which itself is a very powerful greenhouse gas.  This so-called blue hydrogen could be environmentally friendly if an appropriate method for producing it can be developed.

Existing techniques for converting methane into hydrogen involve the use of metal catalysts – often nickel – that are energy-intensive to mine and manufacture, and can negatively affect the environment.  Research at the University of Surrey in the UK has shown promising results for the use of nitrogen-doped nanocarbons as metal-free catalysts for the direct conversion of methane into hydrogen.  One of the biggest problems with using metal catalysts for hydrogen production is that they get poisoned by carbon.  The carbon that comes out of the methane ends up stopping the catalyst from continuing to do its chemical job.  It turns out that the doped nanocarbon approach to hydrogen catalysis appears to be resistant to this problem.

The development of sustainable hydrogen production methods, including efficient and sustainable electrolysis of water as well as catalysis of hydrocarbons like methane, is crucial to realizing the potential of hydrogen fuel as a clean energy source.

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‘Game-changing’ findings for sustainable hydrogen production

Photo, posted April 30, 2021, courtesy of California Energy Commission via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Protecting coastal areas with tidal range electricity generation

February 13, 2024 By EarthWise Leave a Comment

Tidal range electricity generation uses the water level difference between high and low tides to operate generator turbines.  The method requires the construction of barrages and sluices to capture water during high tides and then release it during generation at low tide.  Tidal range generation is predictable renewable energy driven by the gravitational pull of the moon and sun.

It is only a practical scheme in those places that have large tidal ranges.  The largest tidal range in the world is in the Bay of Fundy in Canada.  The second largest is the Severn Estuary, in the UK.  Tidal ranges are large in many places around Britain’s coasts. But they are also vulnerable to flooding and surges from rising seas.

A new study by Lancaster University in the UK has found that the environmental and economic benefits are huge because tidal range barrages can protect coastal areas from flooding and sea level rise. With two-way generation and pumping, the full range of existing tides can be maintained to protect and support low-lying intertidal areas such as saltmarshes and mudflats. High tides can be limited to existing levels simply by closing sluices and running turbines and low tide levels can be maintained by pumping.  The study determined that with modern technology and operating procedures, these so-called estuarine barrages may be the only practical way to protect vital coastal habitats.

Earlier work by the researchers found that tidal range projects under commercial consideration in the UK can produce about 5% of the country’s electricity use and additional projects are feasible for 4 or 5 times as much generation.

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How tidal range electricity generation can protect coastal areas from flooding

Photo, posted August 17, 2014, courtesy of Andrea via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

One in five cars will be electric this year

February 12, 2024 By EarthWise Leave a Comment

Electric cars are taking over

There has been lots of turbulence in the electric car industry of late.  Part of it is aggressive publicity campaigns spreading misinformation and part of it is the natural fits and starts associated with major change.  But apart from the ups and downs of individual companies and countries, analysts are projecting another record year for the sales of electric vehicles and are expecting that plug-in cars will account for 20% of all car sales globally.  Much of the growth will be driven by China, where 38% of new car sales will be electric cars.

Global sales of plug-in cars are expected to grow by 21% this year, according to Bloomberg New Energy Finance.  Total projected sales are 16.7 million cars, including 1.9 million in the U.S., 3.4 million in Europe, and 9.7 million in China.  Because of the rapid adoption of electric cars in China, that country is expected to reach peak gasoline demand this year.  In other words, the use of gasoline in China will be diminishing from now on.

The auto industry is in flux.  The traditional big automakers are currently slowing down EV manufacturing as they work to come up to speed with the technology and market demand.  Meanwhile, EV-only carmakers such as Tesla in the U.S. and BYD in China are ratcheting up production. BYD is focusing on emerging economies with its lower-priced offerings.

In the U.S., EV adoption has been slowed somewhat by high interest rates and the slow rollout of EVs by the Big Three automakers.  But many new vehicles by a growing list of automakers will provide customers with more and more choices of EVs to suit diverse tastes and needs.

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This Year One in Five Cars Sold Globally Will Be an EV

Photo, posted November 18, 2023, courtesy of RL via Flickr.

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