power

Extreme geothermal power

November 25, 2024 By EarthWise Leave a Comment

Krafla is one of the most explosive volcanoes in Iceland, which is home to many active volcanoes, including one recently in the news near Reykjavik that hadn’t erupted for 800 years . Krafla is the site of the Krafla Magma Testbed, which may end up being for geoscientists what the Large Hadron Collider has been for particle physicists.

For over a decade, researchers have been drilling straight into the ground at Krafla to study what goes on deep beneath an active volcano. Ten years ago, they encountered an unexpected magma chamber a little over a mile down. Their equipment was destroyed but the researchers decided that they had uncovered a unique opportunity to study magma dynamics and potentially be able to tap into a significant new energy source.

The plan is to use the tremendous heat energy contained in magma to dramatically improve the production of geothermal energy. Krafla is already the site of a geothermal energy plant that makes use of the heat beneath the surface to boil water that then drives turbines to generate electricity.

Forthcoming drilling projects will make use of new equipment that can handle the harsh conditions that will be encountered in the magma chamber. The goal is to tap directly into the magma to produce superheated steam that could produce ten times more power than conventional geothermal systems. Conventional systems access temperatures around 200 to 300 degrees; the magma is at 1,800 degrees.

It will take a few years to complete the project, but if it is successful, it could have implications well beyond Iceland. There are many active volcanoes all over the world.

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Drilling into magma: Risky plan takes geothermal to supercritical extremes

Photo courtesy of Landsvirkjun.

Earth Wise is a production of WAMC Northeast Public Radio

A giant solar project for Google

November 21, 2024 By EarthWise Leave a Comment

One of the largest solar projects in the US has recently come online in Texas. Three solar farms built side-by-side in Buckholts, Texas by SB Energy can provide 875 megawatts of electricity, nearly the size of a typical nuclear power plant. The project will supply the largest solar energy purchase ever made by Google and the electricity generated will be used to power its new operations in the area. Google will use about 85% of the project’s solar power for data centers in Ellis County and for cloud computing in the Dallas Region.

In total, Google has contracted with clean energy developers to bring more than 2,800 megawatts of new wind and solar projects to Texas. Google expects to spend $16 billion through 2040 to purchase clean energy for its global operations.

According to the International Energy Agency, data centers’ total electricity consumption could reach more than 1,000 terawatt-hours in 2026, which is more than double the amount used in 2022. One terawatt-hour is enough energy to power 70,000 homes for a year. So, it is not surprising that large technology companies are investing heavily in energy technologies.

Google, Amazon, and Microsoft have all recently announced investments in nuclear energy to power data centers. These companies all have made commitments to seek sources of carbon-free electricity to power their data centers and their increasing efforts in artificial intelligence. Because of the rise of artificial intelligence, the large companies are not meeting their commitments to reduce their carbon emissions and are needing to greatly increase their efforts to obtain clean power.

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One of the largest solar projects in the US opens in Texas, backed by Google

Photo, posted March 27, 2016, courtesy of Ben Nuttall via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

New approaches to nuclear power

November 18, 2024 By EarthWise 1 Comment

The US is the world’s largest user of nuclear power. Its 94 reactors supply nearly 19% of the country’s electricity. But the number of U.S. reactors has steadily fallen over the past 30 years and new nuclear power plants are a real rarity. The reasons are a combination of perceived dangers following several nuclear accidents and the increasing costs associated with building plants that can meet a growing number of regulatory requirements.

There are recent developments associated with new advanced reactor technologies that may lead to a resurgence in the use of nuclear power. Bill Gates’ energy company TerraPower is developing nuclear reactors that use sodium instead of water for cooling. Such reactors operate at lower pressures and higher temperatures.

Meanwhile, Kairos Power, a California-based energy company, has entered into an agreement with Google to build multiple small modular nuclear reactors that will supply electricity to that giant tech company. The modular reactors use a molten-salt cooling system combined with a ceramic, pebble-type fuel in order to transport heat to a steam turbine to generate power. The novel design of these reactors can reduce construction timelines, allow deployment in more places, and make final project delivery more predictable.

Surveys indicate that a majority of Americans favor the use of nuclear power, which has the advantages that it doesn’t create greenhouse gas emissions and can run 24-7. But traditional nuclear power plants are too expensive and have too many potential problems. These new nuclear power technologies may be the answer for allowing nuclear power to play an important role in the future energy system.

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New nuclear clean energy agreement with Kairos Power

Photo, posted May 16, 2016, courtesy of Steve Jurvetson via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The bloated carbon footprint of LNG

November 15, 2024 By EarthWise Leave a Comment

According to the U.S. Department of Energy, the United States is the world’s largest producer of natural gas. In fact, natural gas supplies approximately one third of the United States’ primary energy consumption, most of which is used to heat buildings and to generate electricity. While most natural gas is delivered in its gaseous form in this country, the demand for natural gas in international markets has given rise to the use of natural gas in a liquified form.

Liquified natural gas (LNG) is natural gas that has been cooled to a liquid state, at about -260° Fahrenheit, for easier storage and transportation. The volume of natural gas in its liquid state is about 600 times smaller than its volume in its gaseous state, which makes it possible to transport it to places pipelines do not reach.

Liquified natural gas is considered a clean fossil fuel because burning it produces less emissions than coal and oil. However, according to a new study by researchers from Cornell University, LNG imported from the U.S. actually has a larger climate impact than any other fossil fuel—including coal – once processing and shipping are taken into account.

The study, which was recently published in the journal Energy Science & Engineering, found that LNG leaves a greenhouse gas footprint that is 33% worse than coal when emissions are analyzed over a 20-year time frame.

According to the research team, there is no need for LNG as an interim energy source because the transition requires massive infrastructure expenditures. Instead, those financial resources should be used to “build a fossil-fuel-free future as rapidly as possible.”

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Liquefied natural gas carbon footprint is worse than coal

Photo, posted November 17, 2017, courtesy of Colin Baird via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Reducing emissions from cement

November 14, 2024 By EarthWise Leave a Comment

Cement production accounts for about 7% of global carbon emissions. It is one of the most difficult challenges for emissions reduction. The emissions associated with producing cement come from both the energy used to provide heat for the process and from the chemical reactions that take place in the formation of cement. Cement is an essential building block of society, and its use is not expected to decline over time.

A German company called Heidelberg Materials is embarking on an ambitious project to reduce carbon emissions from a cement plant in Norway. They are building a facility to use absorbent chemicals to capture large quantities of carbon dioxide emitted through cement production. More than half a ton of carbon dioxide arises from every ton of cement produced at the plant.

Once the carbon dioxide is captured it will be chilled to a liquid, loaded onto ships, and carried to a terminal farther up the Norwegian coast. From there, it will be pumped into undersea rocks located 70 miles offshore and a mile and a half below the bottom of the North Sea.

With all of this complicated process going on, cement from the plant is likely to be quite expensive. It might even be two or three times the price of ordinary cement. Heidelberg Materials is counting on customers’ willingness to pay much more for cement that comes with green credentials.

Can this be economically viable? Heidelberg estimates that cement accounts for only about 2% of the cost of a large building project but as much as 50% of the emissions. As a result, using carbon-free cement could be a relatively inexpensive way for builders to reduce emissions.

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Cement Is a Big Polluter. A Plant in Norway Hopes to Clean It Up.

Photo, posted May 7, 2016, courtesy of Phillip Pessar via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

South American drought

November 13, 2024 By EarthWise Leave a Comment

Vast areas of South America have been gripped in drought conditions for months. Rivers in the Amazon basin fell to record-low levels in October. The drought has amplified wildfires, parched crops, disrupted transportation networks, and interrupted hydroelectric power generation in parts of Brazil, Bolivia, Colombia, Ecuador, Peru, and Venezuela.

The drought is related to the impact of the El Niño that was present for the latter part of 2023 and the first half of this year. El Niño typically shifts rainfall patterns in such a way that there is reduced rainfall in the Amazon. This is especially true during the dry season months of July, August, and September.

Forecasts earlier in the year warned that there would be extreme fire conditions during the dry season. Indeed, the Pantanal region that spans parts of southern Brazil, Paraguay, and Bolivia has experienced one of its worst fire seasons in decades. The lack of rainfall, low soil moisture, and drawdowns of groundwater helped to amplify fires and caused them to spread faster and farther.

The drought has strained power supplies in Brazil and Ecuador because hydroelectric power stations are producing less electricity. Snarled transportation networks with impassible rivers have left some communities struggling to get supplies.

Brazil’s National Center for Monitoring and Early Warning of Natural Disasters has called the current drought the most intense and widespread Brazil has ever experienced. Late October saw 293 Brazilian municipalities facing extreme drought.

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Intense, Widespread Drought Grips South America

Photo, posted August 13, 2010, courtesy of Colm Britton via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

How much energy storage is needed?

November 11, 2024 By EarthWise Leave a Comment

Energy storage is a critical aspect of modern energy systems as they move towards heavy dependence on renewable sources such as solar and wind that don’t produce energy at the same rate all the time. Excess energy generated by solar power needs to be stored for when the sun isn’t shining; excess wind energy needs to be stored for when the wind isn’t blowing. But how much storage capacity does the energy system need to have?

Researchers at North Carolina State University have developed a model that can be used to project what a system’s storage needs would be if it were to shift entirely to renewable sources.

The model accounts for how energy production from renewable sources would change during different times of day and different times of the year. For example, there is much more solar energy generation in the summer when the days are longer, and it is sunny more often.

There is also the issue of short-term vs. long-term energy storage. Short-term energy storage does not refer to how long a storage device can store the energy. It refers to how long it can provide power at its rated level.

The study focused on Italy’s energy system, which has suffered in recent years because it had difficulties in obtaining natural gas from Russia due to the invasion of Ukraine.

As the world moves increasingly towards renewable power sources, energy systems need to be able to account for the variability of those sources. The new model offers policymakers critical information for use in energy system planning.

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Model Projects Energy Storage Needs for Fossil Fuel-Free Energy System

Photo, posted October 28, 2016, courtesy of Daxis via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Progress towards electric school buses

November 8, 2024 By EarthWise Leave a Comment

The U.S. has nearly half a million school buses providing daily transportation for about 20 million students. Most of these buses are powered by diesel engines which not only dump greenhouse gases into the atmosphere but also fill kids’ lungs with harmful fumes.

Thanks to various federal and state incentive programs, this situation is starting to change. School districts all over the country are beginning to swap out old diesel buses for emissions-free electric-powered school buses.

Electric school buses are finding their way into school districts of all sizes and demographics. The first district in the country to go fully electric was in Martinsville, Texas, which last year converted its 4-bus fleet. The first large urban district to go all-electric was the 74-bus fleet in Oakland, California this summer.

The EPA’s $5 billion Clean School Bus program and many state initiatives are providing incentives for the transition. Five years ago, there were less than 1,000 electric school buses in the U.S. Now there are about 5,000 and more than 7,000 additional buses are in the pipeline.

Apart from the climate implications, there is urgency to replacing diesel school buses from a health perspective. Diesel exhaust is classified as a carcinogen by the World Health Organization, and it contains fine particles and nitrogen oxides, both of which are well-documented asthma triggers.

Electric buses are more expensive than diesel buses, but they are much cheaper to operate. School districts need to put in place charging infrastructure. The transition is not so easy to accomplish, but it is an important step, and more and more school districts are taking it.

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Slowly but Surely, U.S. School Buses Are Starting to Electrify

Photo, posted May 5, 2021, courtesy of California Energy Commission via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Solar-powered desalination

November 7, 2024 By EarthWise Leave a Comment

People in remote, low-income regions far from the ocean often need to meet their water needs from groundwater and groundwater is becoming increasingly saline due to climate change. Desalination of brackish groundwater is a huge and largely untapped source of drinking water, but there are challenges in making the process efficient and reliable.

Engineers at MIT have developed a solar-powered desalination system that requires no batteries or external power sources and is capable of producing large quantities of clean water despite the variations of sunshine throughout the day.

The system is based on the process of electrodialysis and consists of water pumps, an ion-exchange membrane stack, and a solar panel array. What is unique about it is that it makes use of sensors and a control system that predicts the optimal rate at which to pump water through the system based on the output of the solar panels. As a result, it uses nearly all of the electricity generated to produce clean water and does not need stored or grid-based energy.

The MIT engineers tested a community-scale prototype on groundwater wells in New Mexico over a six-month period. The system harnessed on average over 94% of the electricity generated by its solar panels and produced as much as 5,000 liters of water per day despite large variations in weather and sunlight.

The new renewable-powered, battery-free system could provide much-needed drinking water at low cost, especially for communities where access to seawater and to grid power are limited. The team plans to further test and scale up the system so it can supply larger communities and even whole municipalities with low-cost drinking water.

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Solar-powered desalination system requires no extra batteries

Photo courtesy of Shane Pratt.

Earth Wise is a production of WAMC Northeast Public Radio

Renewables progress

November 5, 2024 By EarthWise Leave a Comment

According to a new report by the International Energy Agency, the world is on track to produce nearly half of the electricity it uses from renewable sources by the end of this decade. The report also finds that in nearly every country, large wind and solar plants are the cheapest forms of new power.

Between now and 2030, countries will add more than 5,500 gigawatts of new renewable capacity. That is as much as China, India, the U.S., and the EU combined have at present. Most of the new capacity will come from solar power.

China is aggressively pursuing renewable power installations with massive solar and wind projects. By 2030, China will account for nearly half of the world’s renewable power capacity.

This year’s UN Climate Change Conference, held in the United Arab Emirates, established the goal of tripling renewable energy capacity worldwide by 2030.

The growth in solar power continues to outperform industry expert projections as manufacturing ramps up. India and the U.S. are both expected to triple their solar manufacturing capacity by the end of this decade. Manufacturing, largely based in China, is already outstripping demand.

By 2030, solar and wind power are expected to account for about 30% of global electricity generation, hydropower about 13%, and other renewables such as geothermal power about 5%.

These estimates are based on existing policies and market conditions. Governments could speed up the shift to clean energy by cutting red tape and by making it cheaper for poorer countries to finance solar and wind projects.

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Renewables 2024

Photo, posted November 23, 2023, courtesy of Rick Obst via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The last coal plant in Britain

October 31, 2024 By EarthWise Leave a Comment

The Industrial Revolution, which basically got underway in the mid-19th century, was largely enabled by coal, which fueled iron manufacturing, railroads, steam engines, and more. Most of these things got their start in Britain, which inspired the rest of the world to follow suit.

The world’s first coal-burning power plant began producing electricity at the Holborn Viaduct in London in 1882. This September, Britain – the birthplace of coal power – shut down its last coal-burning power station when the 2,000-megawatt Ratcliffe-on-Soar facility ceased operations. Uniper, the company that operated the plant, will be converting the 750-acre site to a low-carbon energy hub.

Shutting down coal plants is not a simple matter, as they are the lifeblood of entire towns and regions where they are located. Finding fair transitions for workers is an uphill battle that has to take place in many locations.

Coal is the dirtiest fossil fuel, producing more greenhouse gas than others, but historically was the cheapest and most abundant source of power in many countries. In recent decades, it has been replaced by gas, nuclear power, and most recently, renewables like wind and solar.

The coal era has ended in much of the world. The United States still gets 16% of its electricity from coal, but that number keeps getting smaller. Unfortunately, the great majority of coal use is in the world’s two most populous countries: India and China. Both are adding renewable energy sources, but both have rapidly climbing energy demand. China’s coal consumption is expected to peak this year and flatten out. But there is still work to be done to bring an end to coal power.

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Britain Shuts Down Last Coal Plant, ‘Turning Its Back on Coal Forever’

Photo, posted March 13, 2016, courtesy of Arran Bee via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

A structural battery

October 25, 2024 By EarthWise Leave a Comment

The size and especially the weight of batteries is a critical factor for most things that use them. Battery weight is a key limitation for computers and cell phones. It is even more of a limitation for electric cars, ships, or planes.

If the battery of a device or vehicle can also function as a load-bearing structure, its weight and energy consumption can be dramatically reduced. This concept of a structural battery is sometimes called massless energy storage. It has the potential to halve the weight of a laptop computer, make cell phones as thin as a credit card, and increase the range of an electric car by as much as 70%.

Researchers at Chalmers University in Sweden have been working on structural battery technology for many years. Their first published results in 2018 showed how stiff, strong carbon fibers could be used for chemical storage of electrical energy.

Since then, they have been creating batteries with increasing energy density. Their latest versions still have only a quarter of the capacity of today’s lithium-ion batteries. But if batteries can be part of the structure of a vehicle, for example, and can be made of lightweight materials like carbon fiber, then the overall weight of the vehicle can be greatly reduced and not nearly as much energy will be needed to power it.

The goal of the Chalmers research is to achieve battery performance that makes it possible to commercialize the technology. There is a lot of engineering work to be done before these structural batteries can go from laboratory proofs of concept to real world use. But the potential is quite promising.

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World’s strongest battery paves way for light, energy-efficient vehicles

Photo, posted August 8, 2024, courtesy of NOI Techpark via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Electric cars and power outages

October 21, 2024 By EarthWise Leave a Comment

As more and more cars are powered by electricity instead of gasoline, people are beginning to worry about what happens during power outages caused by storms and other disruptive events. It is easy to jump to the conclusion that this is a brand-new problem for drivers. However, when electricity goes out over a sizeable area, most gas pumps stop working and it isn’t easy to keep gas cars running either.

Electric cars are often charged at home every day and such cars are more likely to be almost fully charged than nearly depleted at any time. For those drivers, a power failure is unlikely to be much of a concern unless it persists for a very lengthy period. On road trips, unless a power outage extends over a very wide area, one can probably get to a charger that is still operating.

Nonetheless, the federal government has commissioned researchers at Iowa State University to study potential solutions to possible difficulties in keeping electric cars running during power failures. The goal of the study is to find ways to reduce the outage frequency of chargers by 75% and the power restoration time by 50%.

The study will evaluate the resiliency of charging stations in extreme weather events and identify ways to quickly restore power to charging stations in the event of outages. Included are onsite solar power and battery storage at chargers as well as redundant power lines from different electrical substations. There is even the possibility of trucks delivering pre-charged batteries to charging stations after a storm. Identifying and developing technologies to improve the resilience of charging stations is an important goal as the transition to electric vehicles continues.

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Researchers working to keep electric vehicles charging, even when the lights go out

Photo, posted July 29, 2013, courtesy of Jeff Cooper via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Solar energy on federal land

October 15, 2024 By EarthWise Leave a Comment

Officials at the federal Bureau of Land Management announced late in August that they had finalized a plan to add Oregon, Idaho, Montana, Washington, and Wyoming to the Western Solar Plan, which started during the Obama era. The plan, created in 2012, provides permitting for solar projects on federal land. The original plan included Arizona, California, Colorado, Nevada, New Mexico, and Utah.

The Western Solar Plan is a major expansion for clean energy production in the Bureau of Land Management’s land leasing portfolio. For decades, the BLM has leased tens of millions of acres of federal land to fossil fuel companies for oil, coal, and natural gas exploration and production.

The new addition includes 1.1 million acres of land in Oregon, an area larger than the entire state of Rhode Island. The land selected is deemed to be of low risk for any adverse environmental effects from solar installation, and the plots of land are all within 15 miles of existing or planned electrical transmission lines. A little over 50% of Oregon’s land is owned by the federal government and is managed primarily by the Bureau of Land Management and the U.S. Forest Service.

The publication of the finalized plan at the end of August initiated a 30-day period for any participants in the initial planning to voice objections. The governors of the 5 new states are reviewing the plan. Final approval and adoption are expected later this year.

Western states need to expand solar and other clean energy production to meet their climate goals and federal lands will have to play an important role.

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Plan would make 1 million acres of federal land in Oregon available for solar energy projects

Photo, posted May 20, 2024, courtesy of the U.S. Department of Agriculture via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Trends in rooftop solar

October 8, 2024 By EarthWise Leave a Comment

Rooftop solar power in the United States has increased by a factor of ten over the past decade and the majority of that growth has been in the past six or seven years. At this point, about 7% of American homes have solar panels on their roofs – about 5 million in total.

Rooftop solar really began experiencing widespread use about 20 years ago. Over that time period, the amount of electricity that panels are able to produce has grown substantially and the cost of solar power systems has dropped dramatically.

Twenty years ago, the median sized residential solar system generated 2.4 kilowatts of power. In 2023, the median size was 7.4 kilowatts. Roofs haven’t gotten bigger; solar panels have gotten better.

More importantly, 20 years ago, the average cost of installing solar power was $12 a watt. In 2023, the cost was $4.20 a watt.

Americans in fact pay considerably more for solar power than citizens in many other countries. The reason is not the price of the equipment; it is so-called soft costs. These include labor, financing, and permitting. Driving down soft costs is complicated and difficult. For one thing, it is important for solar industry jobs to have high pay and good benefits.

The cost of solar also varies significantly by state. California is the leading state for solar power and its median solar cost is the $4.20 a watt, the same as the national average. Nevada has the lowest cost at $3.40 a watt and Utah has the highest at $5.20 a watt.

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Bigger and Less Expensive: A Snapshot of U.S. Rooftop Solar Power and How It’s Changed

Photo, posted September 18, 2011, courtesy of Team Massachusetts 4D Home via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Ecofriendly Glass

October 2, 2024 By EarthWise Leave a Comment

Glass has been used for thousands of years to make everything from windows to bottles to microscope slides. For all that time, most glass has been in the form of soda lime silicate glass, which is made by melting quartz sand with carbon-based ingredients – soda ash and limestone – at high melting temperatures of about 2600 degrees Fahrenheit.

The process results in substantial carbon emissions. Worldwide, glass manufacturing produces over 86 million tons of carbon dioxide per year. Most of that comes from burning fuel to reach the high temperatures needed to make the glass, but about a quarter of it comes from the decomposition of the carbon-based materials used.

Researchers at Penn State University have developed an entirely new type of glass that represents an alternative to soda lime glass. The glass – that they call LionGlass – eliminates the use of carbonate batch materials and has a melting temperature 700 degrees lower than traditional glass. The new material has the potential to cut the carbon footprint of glass manufacturing in half. It is also 10 times more crack-resistant than ordinary glass, which would enable light weighting of glass products, lowering the emissions associated with transporting glass and glass products.

Recently, Penn state has entered into a partnership with the Italian company Bormioli, one of the world’s leading glass manufacturers that specializes in high-end packaging for fragrances, cosmetics, and tableware. By focusing on a smaller, high-end market, the focus can be on fine-tuning the glass and determining the feasibility of scaling it up further for other uses.

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Ecofriendly glass invented at Penn State secures partner for product development

Photo, posted December 26, 2005, courtesy of Lachlan Hardy via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Solar farms and pollinators

September 30, 2024 By EarthWise Leave a Comment

Two important environmental challenges are finding some literal common ground: the need to reduce carbon emissions and the fight to stave off global biodiversity collapse. Both issues can be addressed at solar farms.

Solar energy is an important weapon in the battle against climate change. But utility-scale solar farms take up large amounts of land. Large-scale solar farms already take up nearly a thousand square miles of land in the US and will take up much more in the coming decades.

In the meantime, the biodiversity collapse is being driven in large part by habitat loss.

Given all this, solar farm operators, biologists, and environmentalists are teaming up to grow pollinator-friendly plants in and around solar farms. The plantings attract insects, birds and even mammals. The more plant diversity in the solar farms, the more environmental benefits can be achieved.

There are costs associated with creating pollinator-friendly solar farms. Ideally, solar panels need to be installed at greater height than otherwise in order to permit growing many of the plants that attract bees and butterflies. But there are economic benefits associated with attracting and sustaining pollinators. On a cautionary note, there have already been cases of greenwashing, where solar operators claim environmental benefits far in excess of the scope of the actual efforts they have made.

There are both governmental and non-governmental agencies seeking to assess and certify pollinator-friendly solar farms. There is considerable variability in the ecological value of existing farms. Pollinator-friendly solar farms are in their early days, but they have a lot to offer as a win-win strategy for the environment.

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Solar Farms Have a Superpower Beyond Clean Energy

Photo, posted December 4, 2014, courtesy of Juwi Renewable Energies Limited via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Revolution Wind installs first turbine

September 27, 2024 By EarthWise Leave a Comment

Revolution Wind is an offshore wind farm being built by Rhode Island and Connecticut and is the first multi-state offshore wind farm in the United States. Once completed, it will deliver 400 MW of power to Rhode Island and 304 MW of power to Connecticut.

Revolution Wind is a 50/50 partnership between Ørsted, the Danish multinational energy company, and Eversource, a major New England utility company. The wind farm is located about 15 miles south of the Rhode Island coast and 32 miles southeast of Connecticut. It is fairly close to the recently completed South Fork Wind, the first completed utility-scale offshore windfarm in the U.S. and was built by the same partnership.

The first Revolution Wind turbine was installed at the end of August and construction continues with the installation of foundations for the 65 turbines that will comprise the project. More than three-quarters of the units were in place by the beginning of September. Ships have also arrived on scene for cable-laying operations for the wind farm. Onshore construction continues in North Kingstown, Rhode Island, on the project’s transmission system. The turbines for the project are being assembled by local union labor in New London, Connecticut.

Commercial operations at Revolution Wind will not begin until 2026. Construction of the electrical substation necessary to connect the project to the regional electric grid is taking place on the site of a decommissioned naval air station and it is a time-consuming project because of the presence of buried waste and soil contamination. The construction of the offshore wind farm itself will be completed in 2025.

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Revolution Wind installs first offshore turbine

Photo courtesy of Kate Ciembronowicz / Orsted via Revolution Wind.

Earth Wise is a production of WAMC Northeast Public Radio

Electric cars: Boom or bust?

September 25, 2024 By EarthWise Leave a Comment

Media coverage of electric cars in this country is pretty confusing. Are electric cars taking over or has the EV bubble burst?

EVs currently represent about 8% of the US new car market. But they continue to face some relatively unique headwinds in this country. A very powerful and influential oil industry makes sure that anti-EV stories occupy center stage in the media. Traditional car dealers don’t want to sell EVs because they don’t make much money from parts and service. And EVs often find themselves tangled up in American politics.

Meanwhile, the rest of the world tells a very different story. Globally, EVs constitute 20% of new car sales, but in some places, they are doing much better than that.

So far this year, almost 87% of new car sales in Norway are electric and in August, the figure was 94%. Norway has some incentives in place for EV owners, but the fact that nearly all new cars on the road are electric is far more than the result of incentives.

One might argue that Norway, a country with only 5 million people, faces a much easier task of transitioning to EVs. But how about China with its 1.4 billion people? In July, plug-in vehicles in China were 51% of new auto sales. And the numbers continue to rise.

There are plenty of articles out there explaining why electric cars just can’t meet people’s needs, have insurmountable problems, and how having too many of them would collapse electric grids and otherwise wreak havoc with society. Apparently, the Norwegians and Chinese, among a growing number of other countries, haven’t gotten the memo.

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Elbil Thinks Electric Car Sales In Norway Could Hit 100% By Next Year

Photo, posted July 27, 2024, courtesy of Amaury Laporte via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Big Tech and emissions

September 23, 2024 By EarthWise Leave a Comment

Most of the well-known largest technology companies have established ambitious clean energy goals. They are on record for achieving net-zero emissions for all their operations and supply chains in many cases by 2030. As a result, they have been investing heavily in renewable energy in various ways. Despite these lofty goals and sincere efforts, many of them are struggling to reduce emissions. The reason is simple: big data.

A good example is Google, which started investing in renewable energy in 2010 and since 2017 has been purchasing renewable energy on an annual basis to match the electricity consumption of its global operations. However, Google’s greenhouse gas emissions have increased nearly 48% since 2019. This is primarily a result of data center energy consumption.

The expanding use of artificial intelligence technology is consuming large amounts of electricity. For example, a single ChatGPT query uses nearly 10 times as much electrical energy as a traditional Google search.

Google is by no means unique in having this problem. Microsoft’s carbon emissions have risen by nearly 30% since 2020. Amazon is struggling to reach net-zero across its operations by 2040.

All of these companies are entering into large power agreements with renewable energy companies all across the country. The AI arms race for more and more computational power is driving a race to install more and more large-scale renewable energy. Power purchase agreements for solar power, wind power, and even geothermal power are becoming a major activity for most of the largest tech companies.

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Can Google gobble up enough renewables?

Photo, posted February 12, 2023, courtesy of Geoff Henson via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio