Technology

Gravity storage on the grid

June 4, 2024 By EarthWise Leave a Comment

For the past several years, the Swiss-based company Energy Vault has been developing an energy storage system based on the principle of using mechanical devices to lift heavy concrete blocks into stacks using power generated by wind turbines or other renewable sources. When energy is needed, the blocks are lowered back to the ground, spinning generators in the process.

The principle of storing energy in the form of gravitational potential energy is the most widely used form of energy storage in existence but usually works by pumping water into a reservoir at higher elevation and then letting the water come back down when energy is needed.

Energy Vault has built a grid-scale 100 MWh gravity storage system in Rudong China. It has now been successfully tested with charging and discharging and has been commissioned. Pending final provincial and state approvals, it will be the world’ first commercial, utility-scale non-pumped hydro gravity energy storage system.

The Rudong project teamed Energy Vault with environmental management company CTNY and Atlas Renewable. Energy Vault has extended its license agreement with Atlas Renewable to 15 years. CTNY has announced plans for eight additional deployments of the Energy Vault gravity storage system across China, representing more than 3.7 GWh of energy storage.

Energy Vault’s technology has attracted a fair amount of skepticism from parts of the energy community based on the environmental burdens of concrete as well as durability issues. It appears the technology will have significant real-world testing in China, which should provide unambiguous answers to everyone’s questions.

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Energy Vault Announces Successful Testing and Commissioning of First EVx 100 MWh Gravity Energy Storage System by China Tianying, Extension of Atlas Renewable Licensing Agreement to 15 Years

Photo, posted December 21, 2018, courtesy of Nancy Winfrey via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Giant batteries and the grid

May 31, 2024 By EarthWise Leave a Comment

All across the country, electric utility companies are starting to use giant batteries to counteract the biggest weakness of renewable energy; namely, that the sun doesn’t always shine, and the wind doesn’t always blow. Solar panels and wind turbines can keep generating energy when people don’t need it and batteries can store up that energy for when they do.

Over the past three years, battery storage capacity on US grids has grown by a factor of ten adding up to 16 gigawatts. This year, it is expected to double again, led by massive growth in Texas, California, and Arizona.

California generates more electricity from solar power than any other state. But it has a timing problem: solar power is plentiful during the day, but it disappears in the evening when people get home from work and start using lots of electricity. The previous solution was to burn lots of fossil fuel to produce it.

This has been changing thanks to battery storage. Since 2020, California has installed more giant batteries than anywhere else in the world other than China. Batteries are gradually replacing fossil fuels for California’s evening power needs. On the evening of April 30th, for example, batteries supplied more than 20% of California’s electricity. This is equivalent to the output of seven large nuclear reactors.

Batteries have multiple uses in the grid. They handle big swings in generation from renewable sources, they reduce congestion on transmission lines, and they help to prevent blackouts during heat waves. Batteries are starting to eat into the market for fossil fuels and will play an ever-growing role in the electricity grid. As the role of renewables grows, so will the role of batteries.

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Giant Batteries Are Transforming the Way the U.S. Uses Electricity

Photo, posted December 5, 2022, courtesy of Jonathan Cutrer via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Natural solutions for coastal defense

May 30, 2024 By EarthWise Leave a Comment

Protecting coastal cities and towns from the dangers of tsunamis, storm surges, and sea-level rise has become an ever-increasing challenge. There are so-called hard coastal defenses as well as nature-based solutions. A new study by the University of Tokyo has found that combining the two types of defenses may be the most effective way to protect, support, and enrich coastal communities.

Sea walls, dikes, dams, and breakwaters are the traditional hard measures. They are popular and have proven track records but are facing challenges to keep pace with increasing climate risks. They are expensive to build and require continuous upgrades and repairs. While they do provide protection from many disaster risks, they also can cause significant disruption to coastal ecosystems as well as to coastal communities.

Nature-based coastal defenses include such things as mangroves and coral reefs. So-called soft measures involve restoring, rehabilitating, reforesting, and nourishing natural ecosystems that protect coastal areas.

The Tokyo researchers analyzed the defense strategies in terms of risk reduction, climate change mitigation, and cost-effectiveness over a 20-year period. The results of the study were that among all coastal defense options in lower-risk areas, hybrid measures provide the highest risk reduction and can harness the advantages of both hard and soft measures.

The findings provide strong evidence for integrating nature-based components into coastal defenses, but these approaches have not yet been adequately tested in circumstances of extreme events and high-risk urgency. Research in this area has important implications for policy makers, coastal planners, and communities looking to make evidence-based decisions.

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A natural touch for coastal defense

Photo, posted October 22, 2021, courtesy of Kevin Dooley via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Offshore wind and the wake effect

May 28, 2024 By EarthWise Leave a Comment

Electricity demand in the U.S. continues to grow and, in the summer, homes and businesses crank up their air conditioning which drives demand even further. Many East Coast cities are banking on offshore wind projects that are underway in the Atlantic Ocean to help meet that growing demand. The first offshore turbines are now producing power off the coasts of Massachusetts and New York.

Electric power utilities need to know how much power they can get from offshore wind farms, and this is not that easy to predict. Wind is variable, so there is some built-in uncertainty. But there is also a phenomenon known as the wake effect to contend with.

When wind passes through a series of giant turbines, the ones in front extract some energy from the wind and, as a result, the wind slows down and becomes more turbulent behind the turbines. So, the downstream turbines get slower wind and may produce less power.

A study by the University of Colorado has modeled this phenomenon for planned wind farms in the Atlantic Coast region and has found that power output could be reduced by over 30%. Researchers are installing weather monitors and radar sensors in islands off the New England coast to better understand the behavior of the wind in the area and improve prediction models.

The New England grid covers Connecticut, Maine, Massachusetts, New Hampshire, Rhode Island, and Vermont. Even with the wake effect, offshore wind is predicted to be able to provide 60% of the electricity needs of the grid, but it is important to be able to accurately predict what it can produce.

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How much energy can offshore wind farms in the US produce? New study sheds light

Photo, posted August 31, 2022, courtesy of Nina Ali via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

A setback for New York offshore wind

May 24, 2024 By EarthWise Leave a Comment

Three major offshore wind projects in New York have been cancelled because of the unavailability of technology critical to the projects. The projects were part of NYSERDA‘s third offshore wind solicitation and were provisionally awarded last October. The projects, which totaled more than 4 GW of clean energy, were supposed to begin commercial operation in 2030.

The projects were Attentive Energy One, intended to benefit historically marginalized communities in New York City; Community Offshore Wind, a farm located 64 miles offshore that would power 500,000 homes; and Excelsior Wind, which would have powered 700,000 homes.

What happened is GE Vernova – a GE spinoff energy equipment company – decided to no longer develop its new 18 MW Haliade-X wind turbines and instead concentrate on its lower-powered models which already have ample demand. The material changes to the three projects using the turbines made them no longer viable and the developers and their partners could no longer come to terms. As a result, NYSERDA decided to not go forward with the awards.

While this represents a significant blow to the offshore wind industry and to New York’s renewable energy goals, NYSERDA said that it remains committed to advancing New York’s offshore wind industry and expects to announce new plans and additional projects in the near future.

In the bigger picture, 2023 was a record year for wind power; the world installed 117 gigawatts of new wind capacity. This year has seen the first major offshore wind farms come online in the US.

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Massive New York projects nixed as NYSERDA concludes third offshore wind solicitation

Photo, posted August 7, 2013, courtesy of Department of Energy and Climate Change via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Marine carbon dioxide removal

May 23, 2024 By EarthWise Leave a Comment

About 30% of the carbon dioxide emitted by human activity is absorbed by the oceans. As a result, they are getting warmer and more acidic, and the currents that help shape global weather are shifting. To try to reduce global warming, people want to be able to store even more carbon dioxide in the oceans without the negative effects of doing so.

There are multiple efforts across the globe to achieve effective marine carbon dioxide removal. Some are based on sinking carbon-rich materials to the bottom of the sea. This is the marine equivalent of capturing CO2 from the air and storing it underground. Other efforts involve increasing the alkalinity of the ocean, which increases its ability to chemically react with carbon dioxide as well as lowers its acidity, which is desirable in many ways.

Running Tide, a U.S.-based company, has been dumping thousands of tons of wood-industry waste 190 miles off the coast of Iceland. The company has also been experimenting with dumping algae and kelp and sinking it deep below the ocean. Such materials on land either get burned or decay, in both cases releasing CO2 into the atmosphere. On the deep-sea bottom, the carbon is trapped.

Other efforts involve pumping seawater through electrodialysis filter systems to remove excess acidity or adding alkaline rocks to increase water alkalinity.

All of these efforts are a form of geoengineering, and like proposed ideas to cool the atmosphere, pose potential risks. There is no silver bullet to solve the climate crisis. It will take a combination of many solutions to address the issue of excess carbon dioxide in the atmosphere. Marine carbon dioxide removal is one of the solutions that may play a role.

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Scientists Are Trying to Coax the Ocean to Absorb More CO2

Photo, posted February 22, 2018, courtesy of Bobbie Halchishak/USFWS via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Wind farms and land use

May 20, 2024 By EarthWise Leave a Comment

Wind power has become one of the most affordable ways to generate electricity as well as being renewable and not contributing to global warming. But there has been the perception that wind farms require a lot of land compared with fossil fuel power plants. This issue of land use has made decision-makers reluctant to invest in wind energy in many instances.

A new study by McGill University in Montreal looked at this issue and has found that land use for wind power is far more efficient than previously thought. The study combined data from geographic information systems with machine learning models to assess land usage associated with nearly 16,000 wind turbines in the western U.S.

The study assessed the land use of 320 wind farms. They found that wind power infrastructure (mostly the turbines themselves and the roads that lead to them) typically only uses 5% of the land area of a wind farm. If the wind farm is sited in locations with existing infrastructure, such as on agricultural land, then it can be as much as seven times more land-efficient – meaning the amount energy produced in a given area of land impacted by the infrastructure – than a wind farm that is developed on unused land.

Previous studies of wind farm land usage assumed that all of the land where the wind farm was located was devoted to energy generation. In reality, most of land in question is often used for other purposes, such as agriculture.

The methods developed by the researchers are potentially useable for future assessments of various energy technologies in terms of their environmental sustainability.

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Clearing the air: wind farms more land efficient than previously thought

Photo, posted September 29, 2009, courtesy of Tim Green via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The global chocolate supply is threatened

May 16, 2024 By EarthWise Leave a Comment

The world is facing the biggest deficit of cocoa in decades. Most cocoa beans are grown in West Africa, where climate change-induced drought has ravaged crops. Harvests are forecasted to fall short for the third consecutive year.

The harvest shortfall has triggered a steep rise in cocoa prices. In fact, cocoa prices have more than doubled in the first four months of this year, and have more than tripled in the past 12 months.

But drought isn’t the only threat: A rapidly spreading virus is also threatening the future of chocolate.

Approximately half of the world’s chocolate originates from cacao trees in Ghana and the Ivory Coast. The Cacao Swollen Shoot Virus Disease is spread by small insects called mealybugs, which eat the leaves, buds, and flowers of cacao trees. The virus is attacking cacao trees in Ghana, resulting in harvest losses of 15-50%.

Pesticides don’t work well against mealybugs. Farmers can vaccinate trees to inoculate them from the virus. But the vaccines are expensive, and the vaccinated trees produce a smaller harvest of cacao.

According to a new paper recently published in the journal PLOS ONE, an international team of researchers has developed a new strategy to combat these pests: using mathematical data to determine how far apart vaccinated trees need to be planted in order to stop mealybugs from hopping from tree to tree. The researchers developed two models that allow farmers to create a defensive ring of vaccinated trees around unvaccinated trees

The research team hopes its models will help farmers protect their crops and achieve better harvests in the future.

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Cacao sustainability: The case of cacao swollen-shoot virus co-infection

Will rising cocoa prices trigger a chocolate crisis?

Photo, posted April 1, 2019, courtesy of Konrad Lembcke via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Plastic food packaging

May 9, 2024 By EarthWise Leave a Comment

Reducing the use of plastic is an important environmental goal. Plastic is made from fossil fuels and plastic pollutes the land and the oceans. It is estimated that 40% of plastic waste comes from packaging. Plastic packaging is extremely common in the supermarket and there is a growing desire to reduce its use. But it isn’t that easy.

Plastic packaging works well to slow the decay of vegetables and fruit. Its use results in less produce being tossed into the garbage, where it creates almost 60% of landfill methane emissions. In fact, food is the most common material in landfills. The average American family of four spends $1,500 a year on food that ends up uneaten and nearly half of all household food waste is fruits and vegetables.

Products like bagged salads, berries in plastic clamshells, and plastic sealed potatoes and cucumbers are popular with shoppers because they stay fresh longer. They are popular with grocers because the items don’t have to be weighed. But all these things result in plastic waste. It is a tradeoff that is difficult to make between food quality and safety vs. the environmental harm caused by plastic.

There are a variety of alternatives to plastic packaging of food that are being explored. They range from biodegradable, organic coatings that can take the place of plastic films, to cardboard and paper produce packaging.

But practically, there is yet no affordable and biodegradable plastic alternative that keeps fruits and vegetables safe and fresh. Solving the food packaging problem is not easy.

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So Much Produce Comes in Plastic. Is There a Better Way?

Photo, posted July 1, 2007, courtesy of Brian via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Artificial reefs

May 8, 2024 By EarthWise Leave a Comment

The coral reefs that surround tropical islands are a refuge for a wide variety of marine life and also form a natural buffer against stormy seas. The changing climate is bleaching coral reefs and breaking them down. Extreme weather events are becoming more common and are threatening coastal communities with flooding and erosion.

Researchers at MIT are designing architected reefs – sustainable offshore structures that mimic the wave-buffering effects of natural reefs and can also provide habitats for fish and other marine life.

There are already artificial reefs in a number of places used to protect coastlines. These are typically made from sunken ships, retired oil and gas platforms, and even assemblies of concrete, metal, car tires, and stones. Generally, it takes quite a lot of material to form an effective barrier to waves.

The MIT group has developed a cylindrical structure surrounded by four rudder-like slats. Their experiments have shown that when this structure stands in the way of a wave, it efficiently breaks the wave and creates turbulent jets that dissipate the energy in the wave. The engineers calculated that the new design could reduce as much wave energy as existing artificial reefs but use 10 times less material.

Based on the initial experiments with lab-scale prototypes, these artificial reefs would reduce the energy of incoming waves by more than 95%.

Coral reefs are only found in tropical waters, whereas these artificial reefs don’t depend on temperature and could be placed along any coastline for protection. In a time of rising seas and increasingly frequent storms, these artificial reefs may be just what coastlines need.

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Artificial reef designed by MIT engineers could protect marine life, reduce storm damage

Photo, posted December 9, 2010, courtesy of Phoenix Wolf-Ray via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Climate change lawsuits

May 7, 2024 By EarthWise Leave a Comment

For the better part of a decade, there have been lawsuits against fossil fuel companies for their actions related to climate change. The Center for Climate Integrity, a nonprofit that provides legal support to communities suing oil companies, has tracked 32 cases filed by state attorneys general, cities, counties, and tribal nations against companies including Exxon Mobil, BP, and Shell.

There has been extensive news reporting about oil companies’ efforts to undermine the scientific consensus about the climate as well as revelations about oil companies hiding their own research over decades projecting the dangers of climate change.

Oil companies have long sought to shut down the lawsuits or move them from the state courts where they were filed to federal courts where they believe national regulations could override local governments’ claims against them. But a string of circuit court and U.S. Supreme Court decisions have ruled that the cases alleging violations of state laws do belong in state courts.

The first case to reach trial will likely be a Massachusetts case against Exxon Mobil and that could happen as soon as next year.

What do these lawsuits seek? Some seek to force oil companies to pay for the past and future damages caused by climate change that are costing states and communities billions of dollars. Others seek to stop defendants from making false and misleading statements about the effects of burning fossil fuels, from greenwashing their own activities, and to fund corrective education campaigns.

The first trials could lead to a tidal wave of new cases, similar to what happened in the 1990s when tobacco companies were forced to pay billions of dollars under legal settlements.

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After a long slog, climate change lawsuits will finally put Big Oil on trial

Photo, posted August 18, 2021, courtesy of Chad Davis via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Hope for amphibians

May 6, 2024 By EarthWise Leave a Comment

There are more than 7,000 known species of amphibians, the group of animals that includes frogs, toads, and salamanders. Over the past 25 years, more than 90 species are believed to have gone extinct and at least 500 more have declining populations.

There are many factors contributing to the decline of amphibian populations but the most alarming is a fungus called Batrachochytrium dendrobatidis – or Bd – that ravages the skin of frogs and toads and eventually causes heart failure. The fungus has been devastating amphibians on nearly every continent.

In a recent paper in the journal Current Biology, scientists at the University of California Riverside documented the discovery of a virus that infects Bd and could be engineered to control the fungal disease.

The researchers were studying the population genetics of the Bd fungus with DNA sequencing technology and uncovered the virus inside the fungal genome. Some strains of the fungus are infected with the virus and others are not. They are now looking for insights into the ways that the virus operates to see how it gets into the fungal cells. The goal is to engineer the virus to infect more strains of the fungus and potentially end the global amphibian pandemic.

Frogs and toads control bad insects, crop pests, and mosquitos. If their populations around the world collapse, it could be devastating. They are already having difficulty coping with warmer temperatures, stronger UV light, and worsening water quality in many places.

Some amphibian species are already acquiring resistance to Bd. The UCR researchers are hoping to assist nature in taking its course.

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Discovery could end global amphibian pandemic

Photo, posted August 25, 2010, courtesy of Kev Chapman via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The end of coal in New England

May 3, 2024 By EarthWise Leave a Comment

The last two coal-fired power plants in New England are scheduled to close by 2025 and 2028. The New Hampshire-based plants are operated by Granite Shore Power. The Schiller Station plant began operations in 1949 and the Merrimack Station was built in the 1960s.

Granite Shore Power has come to an agreement with the Environmental Protection Agency as part of a settlement of lawsuits by the Conservation Law Foundation and the Sierra Club. The two power plants were the subject of a five-year legal battle waged by clean energy advocates

Granite Shore Power intends to turn both of the sites into renewable energy parks. The plants will be converted into solar farms and battery units that can be used to store electricity generated by offshore wind turbines along the Atlantic Coast. Granite Shore Power bought the two power plants in 2018 with the intention of transitioning the coal generation systems into less polluting operations.

The battery storage system at the Schiller Station site in Portsmouth will be named the Jacona II in honor of a self-propelled floating power barge that brought power to parts of Maine and New Hampshire between 1919 and 1930.

Coal use has dropped dramatically in the United States in recent years as natural gas and renewable sources like wind and solar have become less expensive. As of last year, coal only produced about 17% of American electricity and its use continues to decline.

Coal is the dirtiest fossil fuel. In 2021, when it generated less than a quarter of the electricity produced in the US, it accounted for 59% of carbon emissions from electricity generation.

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The Last Coal-Fired Power Plants in New England Are to Close

Photo, posted October 14, 2015, courtesy of Eversource NH via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Major species turnover forecasted for North American cities

May 2, 2024 By EarthWise Leave a Comment

Climate change affects animal species in many ways. It induces habitat loss, disrupts migration and breeding patterns, threatens marine life, and facilitates an increased spread of disease. It may also affect where animals can be found in the future.

According to a new study led by researchers from the University of Toronto Mississauga and Apex Resource Management Solutions in Canada, climate change may dramatically affect the animal species observed in North American cities by the end of the century.

The researchers used species distribution data combined with machine learning to study the impact of human-caused climate change on more than 2,000 animal species historically found in the 60 most populous North American cities.

According to the research team, changes in biodiversity are brewing for almost every city it studied by the year 2100. In fact, cities with a rich history of biodiversity are predicted to have the largest declines and fewest gains in species. Cooler and wetter cities like Quebec, Ottawa, Winnipeg, Kansas City, and Omaha are expected to welcome the most new species. Warmer cities with higher precipitation – like cities in coastal California – are projected to lose the most species.

More than 95% of bird and insect species are predicted to experience a change in the number of cities they call home. Canines, most amphibians, and aquatic birds are expected to experience the greatest losses. Toads, turtles, mice and pelicans are projected to become more common overall.

The researchers hope their findings will encourage more efforts to protect biodiversity.

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North American cities may see a major species turnover by the end of the century

Photo, posted September 29, 2013, courtesy of Jonathan Kriz via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

California is the largest emitter of a little-known greenhouse gas

April 30, 2024 By EarthWise Leave a Comment

California is a state known for its aggressive climate policies. However, and rather ironically, California is also the nation’s greatest emitter of one little-known greenhouse gas: sulfuryl fluoride.

Sulfuryl fluoride is one of the few treatments to rid buildings of drywood termites, a common regional pest that can be found in wooden structures. Sulfuryl fluoride is also used at shipping ports to destroy pests before they can hitch a ride to another part of the world.

But sulfuryl fluoride is also a greenhouse gas that’s several thousand times more effective than carbon dioxide at trapping heat in the atmosphere.

According to a new study by researchers from Johns Hopkins University, as much as 17% of global emissions of this gas stem from the U.S., and the majority of those emissions can be traced back to just a few counties in Southern California. In fact, the research team found 60-85% of sulfuryl fluoride emissions in the U.S. come from California, primarily Los Angeles, Orange, and San Diego counties.

In the paper, which was recently published in the journal Communications Earth & Environment, the researchers attribute approximately 85% of the state’s sulfuryl fluoride emissions to structural fumigation. Structural fumigation is the practice of sealing an infested structure, pumping this gas into it to kill pests, and then releasing the gas into the atmosphere. The other 15% of emissions come from agricultural and commodities fumigation.

Without some form of intervention, the research team warns that sulfuryl fluoride will continue to accumulate in the atmosphere, where it can linger for more than 40 years.

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Researcher sheds light on the main source of a rare but destructive greenhouse gas

California leads U.S. emissions of little-known greenhouse gas

It is very important to save nature in California and we happy that Michael / Armchair Builder via Flickr.

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Biochar and carbon

April 25, 2024 By EarthWise Leave a Comment

Biochar is a charcoal-like substance that is made by burning organic materials like crop and forestry wastes in a controlled process called pyrolysis, which is burning in an oxygen-deprived environment. Pyrolysis produces little or no contaminating fumes and results in a stable form of carbon that can’t easily escape into the atmosphere. Biochar is a very efficient way to convert carbon into a stable form.

Adding charred biomass to improve soil quality has been done for thousands of years. Indigenous people in the Amazon added charcoal, food residue, and other waste to their soil. When mixed with soil, biochar creates favorable conditions for root growth and microbial activities, which reduces greenhouse gas emissions.

Last year, 125,000 tons of carbon dioxide were removed worldwide in the durable carbon market, which is a carbon credit marketplace for carbon removal. About 93% of that was in the form of biochar.

Biochar represents a value-added way to deal with agricultural waste and also to make use of dead trees in forests that should be removed to lower the risk of wildfires caused by the presence of all that dry tinder material.

A bill to fund biochar research is pending before the Senate Agricultural Committee. It is a rare example of bipartisan legislation.

Biochar is currently expensive to make in the US because large amounts of biomass must be shipped to one of the fewer than 50 small-scale production facilities in the country. But with appropriate infrastructure, biochar could play an important role in efforts to sequester carbon and combat climate change.

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Biochar Is ‘Low-Hanging Fruit’ for Sequestering Carbon and Combating Climate Change

Photo, posted September 3, 2019, courtesy of Tracy Robillard / NRCS via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Self-heating concrete

April 24, 2024 By EarthWise Leave a Comment

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

Wireless car charging

April 17, 2024 By EarthWise Leave a Comment

It’s increasingly common to see cars hooked up to charging cables in shopping centers, rest stops, and dedicated charging stations. Charging electric cars is easy to do, just like charging phones and laptop computers. These days, it is pretty common to charge phones without using any charging cable at all because of the availability of wireless charging technology. The same thing may well happen with electric cars.

A team of researchers at Oak Ridge National Laboratory has successfully demonstrated wireless charging of electric cars with high efficiency and fairly fast charging speed.

The patented system was used to charge up a Hyundai Kona EV using electromagnetic fields, which is essentially how phone chargers work. The technology makes use of a polyphase electromagnetic coupling coil, which is lightweight and small. Rotating magnetic fields generated in the coil’s windings boost the power available. The system provided 100-kW of power with 96% efficiency. That isn’t as powerful as the fastest high-speed charging stations, but it is considerably more than any home charging solution can provide. For many vehicles, such a charger could provide 50% battery capacity in less than 20 minutes.

Battery technology continues to improve leading to larger capacity, faster charging, longer battery life, and lower cost. At some point, charging up an electric car will take no more time than pumping gas.

The Oak Ridge researchers consider this development to be a breakthrough achievement that could open the door to fast and efficient wireless charging for electric passenger vehicles. One could imagine having the ability to drive up to a charging spot and charging up the battery without even getting out of the car.

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Charging up the commute

Photo, posted July 12, 2021, courtesy of Chris Yarzab via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Lithium in Arkansas

April 11, 2024 By EarthWise Leave a Comment

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