high temperatures

And the heat goes on

October 16, 2024 By EarthWise Leave a Comment

August 2024 was the hottest August in the 175-years for which there are global records. The last full month of summer also wrapped up the Northern Hemisphere‘s warmest summer on record.

The average global surface temperature in August was 62.39 degrees Fahrenheit, which is 2.29 degrees above the 20th century August average. Furthermore, August was the 15th consecutive month of record-high global temperatures, which is a record in and of itself.

Regionally, Europe and Oceana had their warmest August on record. Asia had its second-warmest August, and Africa and North America had their third-warmest August.

The summer in the Northern Hemisphere was a record-breaker with a temperature 2.74 degrees Fahrenheit above average. Thinking about climate goals, this is 1.52 degrees Celsius above average, which is a troubling amount. Meanwhile, in the Southern Hemisphere, where it was winter in the June-to-August period, it was also the warmest ever with a temperature 1.73 degrees Fahrenheit above average.

Globally, this year to date ranks as the warmest ever recorded with a temperature 2.3 degrees above the 20th-century average. With a few months to go, the prediction is that there is a 97% chance that 2024 will rank as the world’s warmest year on record.

Other aspects of the global climate system were consistent with these record-breaking temperatures. The global ocean surface temperature for June through August was the warmest on record.

These monthly climate reports have an unfortunate similarity: the heat goes on.

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Earth had its hottest August in 175-year record

Photo, posted June 22, 2021, courtesy of Vicky Brock 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

An electric reactor for industry

September 17, 2024 By EarthWise Leave a Comment

The industrial sector accounts for nearly a third of greenhouse gas emissions in the US, which is more than the annual emissions from cars, trucks, and airplanes combined. These emissions primarily come from burning fossil fuels to produce goods from raw materials as well as from the chemical reactions associated with production. Many industrial processes require very high temperatures that are not easily achieved other than by burning fossil fuels.

Researchers at Stanford University have developed and demonstrated a new kind of thermochemical reactor that can generate the huge amounts of heat required for many industrial processes that runs on electricity rather than the burning of fossil fuels. The researchers claim that the design is also smaller, cheaper, and more efficient than the fossil fuel technology it would replace.

Standard industrial thermochemical reactors burn fossil fuel to heat a fluid that is piped into the reactor, much like the way home radiators work, albeit at far higher temperatures. The new reactor uses magnetic induction, similar to the way that induction cooktops work. Heat is transferred by inducing a current into materials that heat up as the current flows.

A proof-of-concept demonstration powered a chemical reaction called the reverse water gas shift reaction and resulted in more than 85% efficiency. The reaction in question converts carbon dioxide into a valuable gas that can be used to create sustainable fuels.

The Stanford researchers are working to scale up their new reactor technology and expand its potential applications. They are working on designs for reactors for capturing carbon dioxide and for manufacturing cement.

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Electric reactor could cut industrial emissions

Photo, posted October 30, 2022, courtesy of Helmut via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Less coal for making steel

September 5, 2024 By EarthWise Leave a Comment

Steel is primarily produced using one of two methods: blast furnaces or electric arc furnaces. The first blast furnaces were built in the 14th century. Making steel in a blast furnace starts by melting the raw materials of iron ore, limestone, and coal at very high temperatures. The resultant reactions ultimately lead to two products: iron saturated with carbon and carbon dioxide. A second furnace reacts the liquid iron with oxygen to remove the carbon and results in steel along with even more carbon dioxide.

Making steel using an electric arc furnace is considerably less emissions-intensive and more sustainable. So-called circular steel making powered by electric arc furnaces uses electricity to melt scrap and other input materials and turn them into high-quality steel. Of course, to really minimize the emissions associated with steelmaking, the arc furnaces need to get their power from renewable energy sources.

The global steel industry is turning away from polluting coal-fired blast furnaces and towards electric arc furnaces, which now account for roughly half of all planned new steelmaking capacity. This represents real progress towards a green steel transition.

By the end of this decade, electric arc furnaces will account for more than a third of steelmaking. However, there are still plenty of new coal-based steel furnaces being built. So even as electric arc furnaces account for a greater share of steelmaking, these new coal furnaces will still drive emissions upward. Environmental advocates argue that what the steel industry needs is to make clean development a true priority and back away from coal-based developments.

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Steelmakers Increasingly Forgoing Coal, Building Electric

Photo, posted July 16, 2018, courtesy of Daniel Steelman via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Industrial heat and solar power

July 2, 2024 By EarthWise Leave a Comment

Many industrial processes require extremely high temperatures, typically more than 1,800 degrees Fahrenheit. This heat is generally produced by burning fossil fuels – either coal or natural gas – which emits large amounts of greenhouse gases. This level of heat cannot be economically produced using renewable electricity. As a consequence, decarbonizing these industrial processes is very difficult.

Researchers at ETH Zurich in Switzerland have recently demonstrated a new method of obtaining high-temperature heat based on solar radiation. They have engineered a device called a thermal trap. It consists of a quartz rod coupled to a ceramic absorber that can efficiently absorb sunlight and convert it to heat.

In laboratory-scale experiments, they exposed a foot-long quartz rod to artificial light 135 times more intensive than sunlight and were able to produce temperatures as high as 1,900 degrees. The artificial light source was needed to mimic the effects of concentrated solar energy plants that typically make use of large numbers of mirrors to direct intense solar energy onto a small area.

There are already concentrated solar power plants that operate at temperatures as high as 1,100 degrees and use the heat to operate turbines to generate electricity. These plants lose efficiency at higher temperatures because of radiative heat losses. The Zurich thermal trap minimizes these losses and permits higher temperature operation.

The hope is that at a large scale, the new approach may make it possible to use solar energy to decarbonize energy-intensive industrial processes.

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Using solar energy to generate heat at high temperatures

Photo courtesy of ETH Zurich / Emiliano Casati.

Earth Wise is a production of WAMC Northeast Public Radio

Record European Heat | Earth Wise

February 13, 2023 By EarthWise Leave a Comment

The new year began with record-breaking heat across Europe. In fact, on December 31 and January 1, about 5,000 all-time high temperature records for those dates were broken, in some cases by margins of more than 9 degrees Fahrenheit.

On New Year’s Day, eight European countries recorded their warmest January day ever. These were Liechtenstein, the Czech Republic, Poland, the Netherlands, Belarus, Lithuania, Denmark, and Latvia.

Many of the European cities affected by the heat wave would ordinarily be covered in snow at that time of year. For example, Vaduz, the capital of Liechtenstein, the Czech town of Javornik, and the Polish village of Jodlownik, all recorded peak temperatures between 66 and 68 degrees Fahrenheit.

By the measure of how far above normal temperatures rose, it was the most extreme heat wave in European history. Last summer saw record-breaking heat waves across much of Europe, but the actual temperature increases over normal were smaller than what just occurred at the beginning of the year.

The source of the exceptional heat was a warm mass of air from the west coast of Africa moving across Europe. As is the case for any individual weather event, one cannot definitively attribute this one to climate change. However, it is abundantly clear that because of climate change, extreme weather events of all types are becoming more frequent and more intense.

The unprecedented European weather does have the effect of helping to ease the energy crisis that has gripped the European continent. The Russian invasion of Ukraine has led to soaring natural gas prices. The warm weather has meant a lower demand for gas, causing gas prices to drop to their lowest level since the start of the war.

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‘Uncharted territory’: January heat records smashed across Europe

Photo, posted August 13, 2019, courtesy of Herbert Frank via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The Cost Of Heat Waves | Earth Wise

December 7, 2022 By EarthWise Leave a Comment

Heat waves are defined as periods of abnormally hot weather generally lasting more than two days. To be considered a heat wave, the recorded temperatures must be substantially above the historical averages for a given area. According to climate scientists, anthropogenic climate change is likely causing heat waves to increase in both frequency and intensity.

According to a new study by researchers from Dartmouth University, climate change-driven severe heat waves have cost the world economy trillions of dollars since the early 1990s.

In the study, which was recently published in the journal Science Advances, researchers combined in-depth economic data for regions worldwide with the average temperature for the hottest five-day period —a commonly used measurement of heat intensity—for each region in each year. The research team found that between 1992 and 2013, heat waves statistically coincided with variations in economic growth and that an estimated $16 trillion was lost to the effects of high temperatures on human health, productivity and agricultural output.

The results of the study underscore issues of climate justice and inequality. According to researchers, the economic costs of extreme heat have been and will be disproportionately borne by the world’s poorest nations. While economic losses due to extreme heat events averaged 1.5% of GDP per capita for the world’s wealthiest regions, the researchers found that low-income regions suffered a loss of 6.7% of GDP per capita. Most of these low-income nations have contributed the least to climate change.

According to the research team, immediate action is needed now to protect vulnerable people during the hottest days of the year.

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Heat Waves Have Cost World Economy Trillions of Dollars

Photo, posted July 23, 2021, courtesy of Martin Fisch (marfis75) via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Heatwaves And Alpine Mountain Climbing | Earth Wise

August 25, 2022 By EarthWise Leave a Comment

From June to August, there were persistent heat waves affecting parts of Europe that caused wildfires, evacuations, and heat-related deaths. Nearly 12,000 people died from heat stroke or other causes associated with the high temperatures. The highest temperature recorded during this period was 116.6 degrees F in Pinhao, Portugal on July 14th. The RAF base in Coningsby, Lincolnshire recorded a temperature over 104 degrees on July 19th, the highest ever recorded in the United Kingdom.

Among the effects of the multiple European heatwaves has been the cancellation of climbing tours up some of the most iconic peaks in the Alps, including Mont Blanc and the Matterhorn. The high temperatures and rapidly melting glaciers have made the climbing routes too dangerous. Overall, climbing cancellations occurred on about a dozen peaks, including the Jungfrau in Switzerland, which cancelled tours for the first time in a century.

In previous years, during warm summers, some of these climbing routes were closed in August, but the glaciers were already in a condition that usually only happens at the end of summer or even later.

The combination of heat and glacier melt can be treacherous. In July, 11 people were killed at Italy’s Marmolada glacier by falling ice and rock.

Glacial melt in the Alps is rapidly accelerating. The Forni Glacier, the largest valley glacier in Italy, has retreated two miles since 1860 and its area has shrunk by half. Forecasts are that it will retain only 20% of its current volume by 2050 and may disappear entirely by the end of the century. Half of the 4,000 glaciers in the Alps are expected to disappear by 2050.

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European Heat Waves Force Closure of Classic Climbing Routes in Alps

Photo, posted September 4, 2020, courtesy of Dmitry Djouce via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.

Alaskan Icemageddon | Earth Wise

January 25, 2022 By EarthWise 1 Comment

December saw some wild weather in Alaska. A combination of record high temperatures and torrential rainstorms resulted in the coining of the term “Icemageddon” to describe what was going on with the weather.

Kodiak Island in southern Alaska saw a high temperature of 67 degrees on December 26, which was warmer than it was in Southern California that same day. This set an all-time record for the warmest December day in Alaska. Such a high temperature is amazing considering how little sunlight Alaska gets at this time of year. And with warmer air comes wetter air, as the atmosphere is capable of holding more water vapor as temperatures increase.

As a result, that same day saw the interior of the state get an inch of rain in just a few hours, something that hadn’t happened for decades. But then, when temperatures plummeted again, all that rainwater froze.

Huge sheets of ice blocked roads and choked traffic in Fairbanks, Alaska’s second largest city. Indeed, it was the state’s transportation department that came up with the term icemageddon to describe the situation.

The extreme warmth in December is related to the same weather pattern that brought cold, wintry weather to the Pacific Northwest and Northern California. Those weather conditions resulted in hundreds of cancelled flights in Seattle, where temperatures dropped into the 20s, and in massive amounts of snowfall in the Sierra Nevada mountains in California. A strong area of high pressure anchored in the Northern Pacific resulted in a clockwise flow around it drawing warmer, more tropical air from the Pacific up to Alaska.

Climate change continues to push the envelope on what sort of weather is possible all over the world.

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Alaska faces ‘Icemageddon’ as temperatures swing wildly

Photo, posted April 30, 2015, courtesy of Naql via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.

The Pacific Northwest Heatwave | Earth Wise

August 18, 2021 By EarthWise Leave a Comment

The late-June heatwave in the Pacific Northwest shattered temperature records in dozens of locations. Cities like Portland and Seattle saw historic high temperatures and one town in British Columbia saw temperatures hotter than ever recorded in Las Vegas.

An international team of weather and climate experts analyzed this extreme weather event and came to a preliminary conclusion that it was a 1-in-1000-year event in today’s climate. “Today’s climate” means the already warmer conditions that the world is experiencing as a result of the changing climate.

If that analysis is accurate, then such an extreme temperature event would have been at least 150 times rarer in the era before global warming. In other words, they concluded that it would have been a 1-in-150,000-year event, which means that it would have been virtually impossible in pre-industrial times.

Given that they estimated that the extreme temperatures were a 1-in-1000-year event at this point, it would follow that such events are not about to become commonplace any time soon. On the face of it, that is somewhat comforting to hear.

However, all of this assumes that global warming will not radically change the statistical distribution of global temperatures. If that assumption fails to hold, then all bets are off. Perhaps temperatures like those experienced in the Pacific Northwest might be a 1-in-50-year event, for example, but we just don’t realize it yet. Follow-up studies will be looking for evidence of significant changes in the distribution of weather events. For now, a 1-in-1000-year event means there is only a 0.1% chance of occurring in a given year. That’s good news for the residents of that region.

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Preliminary analysis concludes Pacific Northwest heat wave was a 1,000-year event…hopefully

Photo, posted June 4, 2016, courtesy of Jody Claborn via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.

Record Heat Across the Globe | Earth Wise

August 4, 2021 By EarthWise Leave a Comment

While the Pacific Northwest was setting new records for high temperatures in June, many other places across the globe also experienced unprecedented heat. Places in Russia and Scandinavia, including locations above the Arctic Circle, set new records for temperature.

The heatwave in Europe was the result of a persistent northward bulge in the polar jet stream. This blocking pattern in the jet stream has been prevalent over Scandinavia this year and has contributed to unusually warm conditions there. Further east, similar conditions have created unusual warm temperatures in Siberia.

On June 23, Moscow reached a high of 94.6 degrees, the hottest June temperature on record. Helsinki, Finland set a record at 89.1 degrees, and both Belarus at 96.3 degrees and Estonia at 94.3 degrees set new records. The town of Saskylah, north of the Arctic Circle in Siberia, measured almost 90 degrees on June 20.

High temperature records have been broken in many places. The all-time record high for June for all of Mexico fell at Mexicali in Baja California on June 17 when the temperature reached 125 degrees. Palm Springs, California, while known for its desert heat, nonetheless set a new all-time high temperature of 123 degrees and also set a new record for the warmest overnight low temperature for a June night anywhere in North America at an unbelievable 105 degrees.

Stories like this have become all-too common in recent years and are undoubtedly going to occur with greater frequency as the world’s climate continues to react to the growing buildup of greenhouse gases in the atmosphere.

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A Scorcher in Siberia and Europe

Photo, posted June 8, 2007, courtesy of Niko Pettersen via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.

The Hottest June | Earth Wise

July 29, 2021 By EarthWise Leave a Comment

A series of heatwaves from coast to coast caused June 2021 to be the hottest June on record in the U.S. The average June temperature across the contiguous U.S. was 72.6 degrees Fahrenheit, making it the hottest June in 127 years of record keeping and breaking the previous record set in 2016 by nearly a full degree. Eight states had their hottest June on record and six others marked their second hottest June.

One of the most extreme heatwaves in modern history impacted the Pacific Northwest of the U.S. and western Canada late in the month. Temperature records were not merely broken in the region; they were smashed over an incredibly hot four-day period from June 26th through June 29th when all-time records over 100 degrees were set at dozens of locations.

Portland, Oregon’s average high temperature over this period was 112 degrees, breaking the previous 3-day record by an amazing 6 degrees. The high on June 28th was 116 degrees, an all-time record for the city. Seattle set back-to-back all-time heat records of 104 on June 27th and then 108 on June 28th. In the previous 126 years, Seattle had only hit 100 degrees three times. It reached that mark 3 days in a row in June.

Crossing the border, the town of Lytton, British Columbia reached a temperature of 121 degrees on June 29th, the third day in a row in which the town registered a new all-time high temperature ever measured in Canada. To put this in perspective, this temperature is hotter than has ever been recorded in Las Vegas.

June was a hot month indeed.

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June 2021 was the hottest June on record for U.S.

Astounding heat obliterates all-time records across the Pacific Northwest and Western Canada in June 2021

Photo, posted July 7, 2021, courtesy of Poyson / GPA Photo Archive via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.

Turning Atmospheric Carbon Into Useful Materials | Earth Wise

July 7, 2021 By EarthWise Leave a Comment

Plants have the ability to capture carbon dioxide from the atmosphere and incorporate it into leaves, fruits, wood, and other plant materials. This beneficial process is mostly temporary, as much of this carbon dioxide from plant matter ends up back in the atmosphere through decomposition, or even burning.

Researchers at the Salk Institute have proposed a more permanent fate for captured carbon by turning plant matter into a valuable industrial material called silicon carbide.

In a recent study published in the journal RSC Advances, Salk scientists transformed tobacco and corn husks into silicon carbide and evaluated and quantified the benefits of the process.

The researchers used a previously reported method to transform plant matter into silicon carbide in three stages and carefully tracked the carbon utilization at each stage.

Stage one is growing the plants. They used tobacco from seed, chosen for its short growing season. Then the harvested plants are frozen, ground into a powder, and treated with chemicals including a silicon-containing compound. Finally, the powder is subjected to a high-temperature process resulting in the production of silicon carbide.

Their analysis showed that much of the carbon sequestered by growing the plants could be preserved through the full process and the amount of energy required for the production of the silicon carbide (mostly from the high-temperature process) is comparable to current manufacturing processes for the material.

Permanently sequestering carbon from agricultural waste products by incorporating it into a valuable industrial material would be a valuable addition to strategies for reducing greenhouse gases in the atmosphere.

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Transforming Atmospheric Carbon Into Industrially Useful Materials

Photo, posted August 3, 2013, courtesy of AJ Garrison via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.

Widespread Drought | Earth Wise

September 7, 2020 By EarthWise Leave a Comment

As the U.S. enters the last part of the summer, fully one-third of the country is experiencing at least a moderate level of drought. Much of the West is reaching severe drought conditions and New England has been unusually dry and hot. In total, over 50 million Americans are living in drought-affected areas.

According to the U.S. Drought Monitor program, more than 93% of Utah, Colorado, Nevada, and New Mexico are experiencing drought to some degree. More than 60% of both Utah and Colorado are in severe drought. More than three-quarters of Oregon, Arizona, and Wyoming are also in drought. And most of these areas had no sign of drought this time last year.

Severe drought conditions result in stunted and browning crops, limited pasture yields, dust storms, reduced well water levels, and an increase in the number and severity of wildfires.

Warm air temperatures and minimal snowfall in spring set the stage for this summer’s drought conditions. A ridge of high pressure over the northeastern Pacific Ocean pushed the jet stream farther north than usual. And, once again, there has been a failure of the southwestern monsoon in Arizona and New Mexico and the Four Corners region. Monsoon rains provide half of the year’s precipitation in many of those areas.

Instead, there has been extreme heat in the region. Phoenix has already smashed the record for the most days over 110^oF in a calendar year (42 as of August 18), with five months to go. Las Vegas hasn’t seen measurable rainfall since April, and Cedar City, Utah has recorded a record low of 0.05 inches of rain this summer.

Conditions are not expected to get better for a couple of months.

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A Third of the U.S. Faces Drought

Photo, posted May 7, 2014, courtesy of Tyler Bell via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio.