The chemical reaction that feeds the world - Daniel D. Dulek

739,528 views ・ 2013-11-18

TED-Ed


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What would you say
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is the most important discovery
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made in the past few centuries?
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Is it the computer?
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The car?
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Electricity?
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Or maybe the discovery of the atom?
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I would argue that it is this chemical reaction:
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a nitrogen gas molecule
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plus three hydrogen gas molecules
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gets you two ammonia gas molecules.
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This is the Haber process
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of binding nitrogen molecules in the air
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to hydrogen molecules,
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or turning air into fertilizer.
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Without this reaction,
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farmers would be capable of producing enough food
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for only 4 billion people;
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our current population is just over 7 billion people.
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So, without the Haber process,
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over 3 billion people would be without food.
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You see, nitrogen in the form of nitrate, NO3,
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is an essential nutrient for plants to survive.
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As crops grow, they consume the nitrogen,
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removing it from the soil.
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The nitrogen can be replenished
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through long, natural fertilization processes
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like decaying animals,
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but humans want to grow food
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much faster than that.
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Now, here's the frustrating part:
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78% of the air is composed of nitrogen,
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but crops can't just take nitrogen from the air
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because it contains very strong triple bonds,
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which crops cannot break.
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What Haber did basically
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was figure out a way
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to take this nitrogen in the air
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and put it into the ground.
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In 1908, the German chemist Fritz Haber
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developed a chemical method
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for utilizing the vast supply of nitrogen in the air.
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Haber found a method
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which took the nitrogen in the air
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and bonded it to hydrogen
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to form ammonia.
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Ammonia can then be injected into the soil,
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where it is quickly converted into nitrate.
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But if Haber's process was going to be used
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to feed the world,
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he would need to find a way
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to create a lot of this ammonia quickly and easily.
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In order to understand
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how Haber accomplished this feat,
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we need to know something
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about chemical equilibrium.
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Chemical equilibrium can be achieved
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when you have a reaction in a closed container.
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For example, let's say you put
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hydrogen and nitrogen into a closed container
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and allow them to react.
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In the beginning of the experiment,
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we have a lot of nitrogen and hydrogen,
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so the formation of ammonia
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proceeds at a high speed.
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But as the hydrogen and nitrogen react
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and get used up,
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the reaction slows down
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because there is less nitrogen and hydrogen
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in the container.
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Eventually, the ammonia molecules reach a point
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where they start to decompose
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back into the nitrogen and hydrogen.
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After a while, the two reactions,
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creating and breaking down ammonia,
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will reach the same speed.
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When these speeds are equal,
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we say the reaction has reached equilibrium.
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This might sound good, but it's not
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when what you want
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is to just create a ton of ammonia.
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Haber doesn't want the ammonia
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to break down at all,
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but if you simply leave the reaction
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in a closed container,
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that's what will happen.
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Here's where Henry Le Chatelier,
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a French chemist,
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can help.
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What he found was
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that if you take a system in equilibrium
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and you add something to it,
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like, say, nitrogen,
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the system will work
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to get back to equilibrium again.
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Le Chatelier also found
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that if you increase
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the amount of pressure on a system,
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the system tries to work
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to return to the pressure it had.
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It's like being in a crowded room.
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The more molecules there are,
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the more pressure there is.
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If we look back at our equation,
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we see that on the left-hand side,
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there are four molecules on the left
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and just two on the right.
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So, if we want the room to be less crowded,
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and therefore have less pressure,
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the system will start
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combining nitrogen and hydrogen
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to make the more compact ammonia molecules.
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Haber realized that in order to make
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large amounts of ammonia,
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he would have to create a machine
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that would continually add nitrogen and hydrogen
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while also increasing the pressure
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on the equilibrium system,
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which is exactly what he did.
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Today, ammonia is one of the most produced
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chemical compounds in the world.
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Roughly 131 million metric tons are produced a year,
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which is about 290 billion pounds of ammonia.
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That's about the mass
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of 30 million African elephants,
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weighing roughly 10,000 pounds each.
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80% of this ammonia is used in fertilizer production,
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while the rest is used
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in industrial and household cleaners
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and to produce other nitrogen compounds,
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such as nitric acid.
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Recent studies have found
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that half of the nitrogen from these fertilizers
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is not assimilated by plants.
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Consequently, the nitrogen is found
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as a volatile chemical compound
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in the Earth's water supplies and atmosphere,
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severely damaging our environment.
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Of course, Haber did not foresee this problem
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when he introduced his invention.
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Following his pioneering vision,
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scientists today are looking
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for a new Haber process of the 21st century,
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which will reach the same level of aid
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without the dangerous consequences.
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