Wind turbines, the ideal alternative to burning fossil fuels: plentiful, renewable, clean energy. Or is it?

A recent study is forcing us to take a closer look at this green energy alternative, according to ScienceDaily. Extracting energy from large-scale wind farms has the potential to warm the Continental United States by 0.24 degrees Celsius, due to the wind turbine’s redistribution of heat in the atmosphere.

At the end of the day really, all large-scale energy systems have environmental impacts. But, the ability to compare the impacts of renewable energy sources is an important step in planning a future. Extracting energy from the wind causes climatic impacts that are small compared to current projections of 21st century warming, but large compared to the effect of reducing U.S. electricity emissions to zero with solar. (more…)

ECS Lecture with Steven Chu

The ECS Lecture during the 232nd ECS Meeting in National Harbor, MD, was delivered by Steven Chu. Chu is currently the William R. Kenan, Jr., Professor of Physics and Professor of Molecular & Cellular Physiology at Stanford. Previously, he served as U.S. Secretary of Energy under President Obama and was the co-recipient of the 1997 Nobel Prize in Physics for his contribution to laser cooling and atom trapping.

Chu’s ECS Lecture, “The Role of Electrochemistry in our Transition to Sustainable Energy,” focused on the risks society is facing due to changing climate, the evolving energy landscape, and the role of electrochemistry in providing critical technological advances.

During his lecture, Chu outlined the risks that modern society faces, which demand technological innovation to provide solutions. Namely, Chu stated that the rising climate poses significant risks to the global community. According to Chu, the Earth has warmed by an alarming one degree Celsius since 1975.

“One degree Celsius does not sound like a lot, but just a couple of degrees warmer would make a dramatic difference,” Chu said. “If the Earth does warm by two degrees Celsius, Boston will be underwater.”

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Carbon dioxideAfter remaining steady for three years, global fossil fuel emissions are rising again and may increase again next year. But improved energy efficiency and a booming renewables market may offer a bit of a silver lining.

“This year’s result is discouraging, but I remain hopeful,” says Rob Jackson, professor at the School of Earth, Energy & Environmental Sciences at Stanford University and chair of the Global Carbon Project, which released a series of reports in Environmental Research Letters.

“In the US, cities, states, and companies have seized leadership on energy efficiency and low-carbon renewables that the federal government has abdicated.”

The report appears with data published simultaneously in an Earth System Science Data Discussions paper led by Corinne Le Quéré of the University of East Anglia, who is also part of the Global Carbon Project.

Together, they forecast that global fossil fuel emissions will reach a record 37 billion tons of carbon dioxide in 2017, with total emissions reaching a record 41 billion tons, including deforestation. Atmospheric carbon dioxide concentration reached 403 parts per million in 2016, and is expected to increase by 2.5 parts per million in 2017.

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Scientists studying climate change have long debated exactly how much hotter Earth will become given certain amounts of greenhouse gas emissions. Models predicting this “climate sensitivity” number may be closer to the observed reality than some previously thought, according to a new study.

Observations in the past decade seemed to suggest a value lower than predicted by models. But the new study shows that two leading methods for calculating how hot the planet will get are not as far apart as they have appeared.

In climate science, the climate sensitivity is how much the surface air temperature will increase if you double carbon dioxide from pre-Industrial levels and then wait a very long time for the Earth’s temperature to fully adjust. Recent observations predicted that the climate sensitivity might be less than that suggested by models.

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By: Tom Solomon, Bucknell University

Darwin“The evidence is incontrovertible. Global warming is occurring.” “Climate change is real, is serious and has been influenced by anthropogenic activity.” “The scientific evidence is clear: Global climate change caused by human activities is occurring now, and is a growing threat to society.” The Conversation

As these scientific societies’ position statements reflect, there is a clear scientific consensus on the reality of climate change. But although public acceptance of climate theory is improving, many of our elected leaders still express skepticism about the science. The theory of evolution also shows a mismatch: Whereas there is virtually universal agreement among scientists about the validity of the theory, only 33 percent of the public accepts it in full. For both climate change and evolution, skeptics sometimes sow doubt by saying that it is just a “theory.”

How does a scientific theory gain widespread acceptance in the scientific community? Why should the public and elected officials be expected to accept something that is “only a theory”? And how can we know if the science behind a particular theory is “settled,” anyway?

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FloodA recent report published by the National Oceanic and Atmospheric Administration (NOAA) states that the global sea level could rise by as much as 8 feet by 2100.

A key force behind rising sea levels is climate change. A warming climate can cause seawater to expand and ice to melt, both of which lead to a rise in sea level. Because many people live in coastal areas across the globe, scientists have been monitoring the rising sea level closely due to its ability to displace families. According to NOAA, the global sea level has been rising at a rate between 0.04 to 0.1 inches per year since 1900.

However, that rate expected to greatly accelerate in the coming years.

“Currently, about 6 million Americans live within about 6 feet of the sea level, and they are potentially vulnerable to permanent flooding in this century. Well before that happens, though, many areas are already starting to flood more frequently,” Robert E. Kopp, co-author of the report, tells Rutgers Today. “Considering possible levels of sea-level rise and their consequences is crucial to risk management.”

The researchers came to this consensus after examining the latest published, peer reviewed science, while taking into account the recent information on the instability of the Antarctic ice-sheet.

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By: Blair Trewin, World Meteorological Organization

Global temperature anomalies (difference from 1961-90 average) for 1950 to 2016, showing strong El Niño and La Niña years, and years when climate was affected by volcanoes. Image: World Meteorological Organization

Global temperature anomalies (difference from 1961-90 average) for 1950 to 2016, showing strong El Niño and La Niña years, and years when climate was affected by volcanoes. (Click to enlarge.)
Image: World Meteorological Organization

2016 is set to be the world’s hottest year on record. According to the World Meteorological Organization’s preliminary statement on the global climate for 2016, global temperatures for January to September were 0.88°C above the long-term (1961-90) average, 0.11°C above the record set last year, and about 1.2°C above pre-industrial levels.

While the year is not yet over, the final weeks of 2016 would need to be the coldest of the 21st century for 2016’s final number to drop below last year’s.

Record-setting temperatures in 2016 came as no real surprise. Global temperatures continue to rise at a rate of 0.10-0.15°C per decade, and over the five years from 2011 to 2015 they averaged 0.59°C above the 1961-1990 average.

Giving temperatures a further boost this year was the very strong El Niño event of 2015−16. As we saw in 1998, global temperatures in years where the year starts with a strong El Niño are typically 0.1-0.2°C warmer than the years either side of them, and 2016 is following the same script.

Almost everywhere was warm

Warmth covered almost the entire world in 2016, but was most significant in high latitudes of the Northern Hemisphere. Some parts of the Russian Arctic have been a remarkable 6-7°C above average for the year, while Alaska is having its warmest year on record by more than a degree.

Almost the whole Northern Hemisphere north of the tropics has been at least 1°C above average. North America and Asia are both having their warmest year on record, with Africa, Europe and Oceania close to record levels. The only significant land areas which are having a cooler-than-normal year are northern and central Argentina, and parts of southern Western Australia.

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When it comes to understanding the factors behind climate change, many scientists point to greenhouse gases – the main contributor being carbon dioxide. From upcycling the greenhouse gas to transforming CO2 into clean burning fuels, electrochemists and solid state scientists are tackling some of the most pressing issues in global warming.

But some researchers are now shifting that spotlight to black carbon (or soot) – the runner-up in factors causing the plant to warm, and one that is often overlooked.

Black carbon is typically created from the running of diesel engines, coal-burning plants, and open biomass incineration. It has been known from its negative impact on health, but it also absorbs light and mixes with water taken from clouds, creating devastating effects.

This from Popular Science:

Eliminating black carbon could stop about 40 percent of global warming. It’s not hard to “scrub” emissions at their source. And because soot only stays in the air for weeks, there would be a near-immediate decrease in the planet’s heating, buying us more time to replace fossil fuels with clean energy. But doing so would trigger a second type of climate change. When black carbon reaches the atmosphere, it’s already mixed with sulfur dioxide and other organic matter. Those particles actually reflect sunlight, causing a “global cooling” effect by preventing that solar radiation from penetrating the lower levels of the atmosphere.

Read the full article.

Researchers are looking to combat this catch 22 by isolating and filtering black carbon.

Does this summer feel a little warmer than usual? Well, that’s because it is.

According to NASA, the first six months of 2016 have been the warmest half-year ever recorded. Pair that with the smallest monthly Artic Sea ice extent in that same period of time, and these two indicators give a grim image of the accelerating pace of climate change.

In a report, NASA states that the global temperature has increased by 2.4°F since record keeping began in the 1800s. Additionally, Artic Sea ice has been declining at a rate of 13.4 percent per decade.

“It has been a record year so far for global temperatures, but the record high temperatures in the Arctic over the past six months have been even more extreme,” says Walt Mkeier, a sea ice researcher with NASA. “This warmth as well as unusual weather patterns have led to the record low sea ice extents so far this year.”

If climate continues down this same path, the effects could be devastating for the world. However, electrochemical and solid state science may have some of the answers to mitigate climate change.

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Nobel laureate and climate advocate Al Gore is optimistic about climate change in his new TED Talk. In his talk, Gore proposes three questions — the answers of which help make the case for optimism on climate change.

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