The Grand Challenges
Climate change is threatening our world and our way of life. It is caused by the buildup of greenhouse gases. These gases are mainly produced by the burning or heating of materials that contain carbon, including fossil fuels like coal, oil, and natural gas. When these materials are burned or heated, they emit, or release, gases that build up in the upper atmosphere. These gases trap heat. And over time they have caused a rise in average global temperatures. This global warming has created a whole range of new challenges and dangers.
Each year, 51 billion tons of greenhouse gases are emitted into Earth’s atmosphere. That’s a big number, and an enormous problem.
How do we begin to solve this huge problem? One way to simplify any problem is to break it into smaller, more manageable pieces. In this course, we divide carbon emissions into five primary categories. We call these categories the Grand Challenges. They are:
- How we plug in (27 percent of 51 billion tons)
- How we make things (31 percent of 51 billion tons)
- How we grow things (19 percent of 51 billion tons)
- How we get around (16 percent of 51 billion tons)
- How we keep cool and stay warm (7 percent of 51 billion tons)
Each of these Grand Challenges is a complex problem on its own. However, they are also very closely connected to each other, which makes things even more complicated. Let’s explore each of the Grand Challenges, their links to each other, and some of the things that make decarbonizing so challenging.
How we plug in (27 percent of 51 billion tons)
The first Grand Challenge is electricity generation. This Grand Challenge may not have the highest percentage of emissions, but it is the most important. That’s because if we don’t decarbonize electricity generation, progress made in other Grand Challenges won’t really matter. For example, if we replace all gas-powered cars with electric vehicles but still use coal to generate our electricity, we haven’t really fixed the problem. We’ve just moved the carbon around.
This Grand Challenge is a good-news, bad-news situation. The good news is that we already have many solutions. Renewable energy sources like solar power and wind power are becoming cheaper and more widely available. The bad news is that we’re going to need much more electricity. First of all, populations are rising around the world, and more people are being lifted out of poverty, which means they will be buying more and using more. Secondly, as we electrify things such as cars and industrial processes that have long relied on fossil fuels, we will be using more and more electricity.
TBy 2050, global electricity use could triple. That’s a big problem because, in 2023, about 60 percent of global electricity production came from burning fossil fuels—especially coal and gas. Fossil fuels are the cheapest way to generate electricity. For some less wealthy countries or countries with large populations, such as China and India, coal-powered electricity is rising.
How we make things (31 percent of 51 billion tons)
The manufacturing processes we use to create concrete, steel, glass, and other materials produce almost a third of humanity’s yearly carbon emissions. These processes require a huge amount of energy. Right now, nearly all that energy comes from burning fossil fuels. But even if we were able to make all this stuff with zero-carbon electricity, we would still run into one major problem.
That major problem is that for every ton of cement we make, we emit one ton of carbon dioxide (CO2). That’s because we make cement from limestone using extreme heat. This causes a chemical reaction that releases CO2. Cement is the key ingredient in concrete. And other than water, concrete is the most-used substance in the world. As populations grow and cities expand, we’re going to need a lot more of it.
How we grow things (19 percent of 51 billion tons)
The processes we use to produce the food we eat are huge emitters of greenhouse gases. As the world’s population grows, we’re going to need to grow more food in the years to come. We will need to reduce the emissions food production causes while also ensuring that everyone has the food they need.
Methane released in agriculture is a big problem. Methane is a powerful greenhouse gas. It is produced by fertilizer and cow burps, and it has about 28 times the warming power of CO2. That’s why cow burps are no laughing matter. There were over a billion cattle in the world in 2023. They produced so much methane that if they were a country, they would rank third in greenhouse gas emissions.
How we get around (16 percent of 51 billion tons)
Fossil fuels have transformed the way humans live. The engines they power move us and our stuff around the world faster than ever. Gasoline and oil are incredibly powerful and extremely cheap. But that convenience has come at a great cost. Today in the United States, transportation is the largest source of greenhouse gas emissions.
The transportation industry has made great strides in the production of electric cars. But this Grand Challenge isn’t just about moving ourselves around. It is also about the large-scale movement of goods around the world. That’s bad news because ships, planes, and trucks are very difficult to electrify. They are just too heavy and travel too far to be battery-powered.
How we keep cool and stay warm (7 percent of 51 billion tons)
As climate change transforms our environment, how we heat and cool our buildings is becoming increasingly important. In many regions, air conditioning is becoming essential to survival as deadly heat waves strike more frequently. We’re going to need more air conditioners. However, if we keep using the technology we have now, new units will create more emissions.
One of the solutions is to design new buildings to be more energy-efficient and more able to withstand extreme weather. In addition, buildings that already exist can be upgraded by improving their insulation and heating systems. We already have many of the innovations we need in this category, especially heat pumps. Heat pumps are more energy-efficient than gas furnaces, and they’re becoming more affordable. Still, they run on electricity. If we fail to decarbonize the electric grid, all the heat pumps in the world won’t solve this problem.
Conclusion
The five Grand Challenges seem like completely separate categories. But as you’ve read, they are all connected. This can be both challenging and helpful. On the one hand, it’s hard to predict how changes in one Grand Challenge will influence another Grand Challenge. But on the other hand, if we solve one problem—like producing zero-carbon energy—we make the other Grand Challenges a lot easier to solve. This is what makes the five Grand Challenges such a helpful tool. By breaking the sources of emissions into separate categories, we can better understand how these sources affect each other. And that helps us decide which climate solutions would do the most good.
Bennett Sherry
Bennett Sherry holds a PhD in history from the University of Pittsburgh and has undergraduate teaching experience in world history, human rights, and the Middle East at the University of Pittsburgh and the University of Maine at Augusta. Additionally, he is a research associate at Pitt’s World History Center. Bennett writes about refugees and international organizations in the twentieth century.
Credit: “The Grand Challengers”, Bennett Sherry / OER Project, https://www.oerproject.com/
Image credits
This work is licensed under CC BY 4.0 except for the following:
Cover image: Climate Project 5 Grand Challenges infographic. By OER Project, CC-BY 4.0. https://www.oerproject.com/OER-Materials/OER-Media/Images/Climate/Unit-1/Course-Infographic
If greenhouse gases were sharks, maybe we wouldn’t need this course! © John M Lund / DigitalVision / Getty Images.
Coal power plant and solar and wind energy. © Martin Ruegner / Getty Images and Mint Images / Getty Images. One of the massive rotary kilns in which limestone and other raw materials are treated with intense heat to produce the ingredients for cement (left). Cross-section diagram of a rotary kiln (right). By HandaKiln, CC BY-SA 4.0 and LinguisticDemographer, public domain. https://commons.wikimedia.org/wiki/File:Cement-plant.jpg#/media/File:Cement-plant.jpg and https://commons.wikimedia.org/wiki/File:CemKilnKiln.jpg#/media/File:CemKilnKiln.jpg
If cattle were a country, they would rank third in greenhouse gas emissions. Photo Photo © Anthony Lee / OJO Images / Getty Images, graph courtesy Gates Notes. https://www.facebook.com/BillGates/photos/a.10150331291841961/10155779305771961/?type=3
Two cars, internal combustion engine (left) and electric (right). © 3alexd / E+ / Getty Images.
A technician repairs an air conditioner unit. © Visoot Uthairam / Moment / Getty Images.
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