Can 100% renewable energy power the world? - Federico Rosei and Renzo Rosei

2,637,281 views ・ 2017-12-07

TED-Ed


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Every year, the world uses 35 billion barrels of oil.
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This massive scale of fossil fuel dependence pollutes the Earth
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and it won't last forever.
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Scientists estimate that we've consumed about 40% of the world's oil.
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According to present estimates,
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at this rate, we'll run out of oil and gas in 50 years or so,
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and in about a century for coal.
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On the flip side, we have abundant sun, water, and wind.
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These are renewable energy sources,
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meaning that we won't use them up over time.
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What if we could exchange our fossil fuel dependence
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for an existence based solely on renewables?
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We've pondered that question for decades,
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and yet, renewable energy still only provides about 13% of our needs.
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That's because reaching 100% requires renewable energy that's inexpensive
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and accessible.
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This represents a huge challenge,
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even if we ignore the politics involved and focus on the science and engineering.
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We can better understand the problem by understanding how we use energy.
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Global energy use is a diverse and complex system,
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and the different elements require their own solutions.
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But for now, we'll focus on two of the most familiar in everyday life:
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electricity and liquid fuels.
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Electricity powers blast furnaces, elevators, computers,
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and all manner of things in homes, businesses, and manufacturing.
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Meanwhile, liquid fuels play a crucial role
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in almost all forms of transportation.
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Let's consider the electrical portion first.
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The great news is that our technology is already advanced enough
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to capture all that energy from renewables,
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and there's an ample supply.
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The sun continuously radiates
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about 173 quadrillion watts of solar energy at the Earth,
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which is almost 10,000 times our present needs.
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It's been estimated that a surface that spans several hundred thousand kilometers
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would be needed to power humanity at our present usage levels.
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So why don't we build that?
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Because there are other hurdles in the way,
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like efficiency
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and energy transportation.
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To maximize efficiency,
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solar plants must be located in areas with lots of sunshine year round,
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like deserts.
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But those are far away from densely populated regions
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where energy demand is high.
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There are other forms of renewable energy we could draw from,
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such as hydroelectric,
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geothermal,
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and biomasses,
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but they also have limits based on availability and location.
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In principle, a connected electrical energy network
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with power lines crisscrossing the globe
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would enable us to transport power from where it's generated
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to where it's needed.
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But building a system on this scale faces an astronomical price tag.
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We could lower the cost by developing advanced technologies
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to capture energy more efficiently.
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The infrastructure for transporting energy would also have to change drastically.
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Present-day power lines lose about 6-8% of the energy they carry
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because wire material dissipates energy through resistance.
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Longer power lines would mean more energy loss.
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Superconductors could be one solution.
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Such materials can transport electricity without dissipation.
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Unfortunately, they only work if cooled to low temperatures,
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which requires energy and defeats the purpose.
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To benefit from that technology,
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we'd need to discover new superconducting materials
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that operate at room temperature.
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And what about the all-important, oil-derived liquid fuels?
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The scientific challenge there is to store renewable energy
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in an easily transportable form.
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Recently, we've gotten better at producing lithium ion batteries,
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which are lightweight and have high-energy density.
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But even the best of these store about 2.5 megajoules per kilogram.
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That's about 20 times less than the energy in one kilogram of gasoline.
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To be truly competitive, car batteries would have to store much more energy
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without adding cost.
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The challenges only increase for bigger vessels, like ships and planes.
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To power a cross-Atlantic flight for a jet,
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we'd need a battery weighing about 1,000 tons.
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This, too, demands a technological leap towards new materials,
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higher energy density,
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and better storage.
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One promising solution would be to find efficient ways
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to convert solar into chemical energy.
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This is already happening in labs,
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but the efficiency is still too low to allow it to reach the market.
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To find novel solutions, we'll need lots of creativity,
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innovation,
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and powerful incentives.
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The transition towards all-renewable energies is a complex problem
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involving technology, economics, and politics.
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Priorities on how to tackle this challenge depend on the specific assumptions
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we have to make when trying to solve such a multifaceted problem.
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But there's ample reason to be optimistic that we'll get there.
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Top scientific minds around the world are working on these problems
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and making breakthroughs all the time.
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And many governments and businesses are investing in technologies
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that harness the energy all around us.
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