Short Version: Energy is 10% of the US economy—over $1 trillion per year, or $4000 per year for each person, with roughly $1000 of that leaving the country, to supply the average US resident with more than 100 times more energy than they use internally. About 85% of the energy used is from fossil fuels, which are being burned much faster than nature makes more.
Friendlier but Longer Version: During the course, we’ll take a look at the big sources of energy, the big issues in energy use, the “why you might care” and “what it means to you” questions. For now, a few more-or-less connected numbers and graphs may be useful. This course is not about having you memorize numbers, but you should be aware of magnitudes—which things are really big and matter a lot, versus those that are small and can be safely ignored (unless you’re the wonk on this topic and need to know everything!).
As you just saw, the food you burn inside powers you at the same rate, on average, as a bright old-style light bulb (100 watts) that is turned on. But, the food may have been cooked, after it was shipped to you in a refrigerated truck after it was harvested by a corn-picker or combine from a field that first was plowed by a tractor. The plowing and harvesting and trucking and refrigerating and cooking all required energy. You probably are reading this on an electric-powered computer, in a room that is heated in winter and cooled in summer using energy. If there is glass on the computer screen, it started out as sand, which was melted using energy. Aluminum or iron or other metals were smelted from ores, using energy.
You get the idea. And, if you add up all that energy, there is a lot of it. The total energy use in the US economy, divided by the number of people, comes to a bit over 10,000 watts per person—all together, everything that is going on around you to take care of you involves more than 100 times the energy use inside of you. You don’t really have more than 100 incandescent bulbs burning all the time to take care of you, but all the plowing and harvesting and trucking and refrigerating and cooling and smelting and melting and heating and cooling and … that do take care of you are using energy at the same rate as more than 100 old light bulbs, or 100 of you.
You might imagine that you have 100 energy “serfs” doing your bidding… but if you actually had 100 serfs to do your bidding, they would spend most of their effort taking care of themselves and staying alive rather than doing for you. Plus, there is no way that those serfs could actually pick up your car and run down the highway at 65 miles per hour (100 km per hour)!
This much energy doesn’t come cheaply, though. Energy costs are roughly one-tenth of the entire US economy. That comes to about $1 trillion per year recently, or about $4000 per person per year, with roughly $1000 of that spent outside the US to pay for energy imports. (These numbers bounce around some from year to year; you can get updates at the US Energy Information Administration [1]. So, each year, a US resident is sending ~$1000 to people outside the US, primarily to pay for gasoline. Those people overseas may use those dollars to buy US-made products, or to visit the US, or to buy US companies, or to buy camels or classic paintings, or to buy bullets, or in other ways—once the money is sent over the border, it is theirs….
Energy use in the US is dominated by fossil fuels—oil (or more formally, petroleum), gas (or more formally, natural gas), and coal (which is generally just called coal). Recently, fossil fuels have been totaling about 85% of energy sales in the US (and more-or-less 85% worldwide), with the rest of US use split more-or-less equally between nuclear and renewables. (In 2010, the US Energy Information Administration gave US energy supply as Oil 37%; Gas 26%; Coal 21%; Nuclear 8%; Renewables 8%. This was used to move us around (transportation 28%), to build things (industrial use 20%), to heat and cool houses (residential 11%) and to power our plugged-in gizmos (electricity 40%).
We’ll revisit these issues later. US usage per person is a little smaller than some countries, but (much) larger than many others. Per person, the world averages roughly 1/4 of US use. Most of the world's economy is dominantly fossil-fueled with people often getting about 85% of their energy from fossil fuels as in the US, and energy is often about 10% of the economy.
In the previous section, we learned that the average person in the US uses ~10,000 watts of energy while producing only 100 watts from the food they eat. If average world energy use is about 1/4 of that in the US, and assuming all people produce about the same amount of energy from the food they eat, do people worldwide create as much energy from eating food as they use in their daily lives?
Click for answer.
For now, though, it should be evident that if we spend 10% of our money on energy, it impacts everything—jobs and security and environment and more. As we saw in last week's Discussion, there are great options for making money and saving money by doing things better in the energy business. But, over the last few decades, we actually have doubled the amount of economic activity squeezed out of each barrel of oil or ton of coal—bright people have been working on this, and making or saving much more money might take a lot of effort or some new inventions.
Perhaps most importantly, the current system is grossly unsustainable. As we will see in upcoming content, the store of fossil fuels in the Earth is limited, and we are removing them much more rapidly than nature makes new ones. With essentially everything we do relying on energy use and 85% of the energy system relying on unsustainable fossil fuels, a lot of things will need to change.
Earth: The Operators' Manual