mostly in English, sometimes in Deutsch

How much power does the Internet use – in % of world energy consumption. Guess first if you want to, then read the blog article

OK, first the answer as the article is rather long and the number is hard to calculate. About 1%.

There will be some comments by me now – but first the URL of the article:

So, 1 % – is that a lot? Your call; but it probably means a lot of nuclear power plans, wind farms, solar panels, oil, gas, … (think about the energy source you hate most here).

I would guess that e-mail got factored in – here things get interesting:

  1. any private e-mail you send *will* have an impact.
  2. Any spam message landing in your inbox: same thing.
  3. Any (IMHO) completely useless and in fact rather disturbing legal e-mail footer in fine print such as “This e-mail may contain confidential and/or privileged information. If you are not the intended recipient (or have received this e-mail in error) please notify the sender immediately and destroy this e-mail

– all of these all use a lot of energy when you sum them up globally.

Other than deleting the legal footer (2) there is little on can do. Of course, one could also not blog – but that’s not going to happen with _this_ blog 🙂

On second thought, there *is* something one can do – donate some money, see bottom of article or

Copy of article follows

How much energy does the Internet use?

by Barath Raghavan, originally published by contraposition  | AUG 2, 2011

At the moment I’m using the Internet, as are you. In many ways, the Internet is the largest and perhaps most successful global system ever built by humanity. And yet because of the way it was built—haphazardly, over the course of a few decades—there are no maps, no records documenting its entire structure.

Given my interest in energy, and understanding how society’s energy use is broken down, I wanted to understand how much energy the Internet uses. Recently my colleague Justin and I did a study to understand just that. There are many questions in addition to the obvious that we explored, including:

  • Is it worth it to keep the Internet running the way we do today given future energy constraints?
  • Is the Internet a large energy consumer vs. other functions of society?
  • What does the Internet even consist of?

A key part of understanding the energy use of the Internet is that its embodied energy, or emergy, is important to include.

Why measure emergy?

Emergy, a concept introduced by H.T. Odum is perhaps the most ignored aspect of energy use. Loosely defined, it’s the energy used to make the things that we use or buy or consume. We often ignore emergy since it doesn’t directly cost us anything, so it’s invisible. Nevertheless, emergy matters when we want to understand the energy-use impact of something from a society-wide perspective. As it turns out, the manufacturing of computer hardware is an extremely energy intensive process. Thus there are two important pieces to look at: the energy use of the Internet (typically viewed as the wall-socket electricity use) and the emergy of the devices themselves.

An Internet census

Before we could even consider the energy use of the Internet, we had to understand how big the Internet is in the first place. That, is, we needed to take a census. How many desktop computers are there in the Internet? How many laptops are there in the Internet? How many cloud servers are there? How many miles of fiber optics are there? How many routers are there? We were unable to find a single source that answered all of these questions. So here I’d like to provide the answers to them, along with the sources of our data. We rounded our numbers since we didn’t want to convey a false sense of precision, and a few values were guesstimates because no good data was available. Also, since it’s ambiguous whether some of these components are part of the Internet or not, when we include them in our final calculation we weight them with a min (lower-bound) and max (upper-bound) weight to get a range of possible energy use.

Category Count Per-unit emergy
Desktops 750 million 7.5 GJ
Laptops 750 million 4.5 GJ
Cloud 50 million 5 GJ
Smartphones 1 billion 1 GJ
Servers 100 million 5 GJ
Routers 1 million 50 GJ
Wi-Fi/LAN 100 million 1 GJ
Cell Towers 5 million 100 GJ
Telecom Switches 1 million 50 GJ
Fiber Optics 1.5 billion km 10 GJ/km
Copper 3.5 billion km 10 GJ/km

I won’t go through the calculations, because they aren’t particularly exciting. But the bottom line is that we calculated the wall-socket power consumption as well, and found a few interesting things:

  • The embodied power—the emergy of devices divided by their replacement lifespan—is roughly equivalent to their wall-socket power consumption. That is, looking at wall-socket electricity ignores half of actual energy use for computing devices. Specifically, we estimated that the total wall-socket power use of the Internet is between 83-144 GW and the embodied power is between 87-164 GW.
  • The total power use of the Internet, which we estimated to be between 170-307 GW, is about 1-2% of global energy use. We were a bit surprised by this, because we thought it might be higher than that. (Though it’s a larger percentage if we were to consider electricity use alone.)
  • It might be reasonable, then, to focus more attention on how the Internet can substitute for other energy-intensive societal functions. We did a simple calculation for the obvious example—transportation. Suppose we were to replace 1 out of every 4 air trips with a video conference (we assume business trips that consist of 5 one-hour meetings). Doing so would decease global energy use by about 285 GW, which is on the order of the Internet’s entire energy consumption. (And the potential increase in the Internet’s energy use for carrying extra video traffic would only be about 2 GW.)

The bottom line is that the few previous studies that existed were ignoring a large piece—roughly half—of the energy use in question. Despite this, it seems worth it to keep the Internet going as long as we can because it may help us, for a time, keep our energy use down. In future posts, I’d like to consider where else looking at emergy can yield insights and reveal shortsightedness.

Editorial Notes: From the author’s website: We’re a philosopher and a computer scientist trying to understand the world and the choices we make. – About ‘Contraposition’: There’s an aphorism in philosophical circles that goes “One man’s modus ponens is another man’s modus tollens.” The idea is that two people can agree on a conditional statement `If p then q‘, but use it to make different inferences. Someone who endorses p will conclude that q (that’s modus ponens). Someone who denies q will deny p (that’s modus tollens). This double aspect of the conditional shows up in the fact that, in classical logic, ‘p -> q‘ is equivalent to ‘~q -> ~p‘. Converting from one to the other is called contraposition. We’ve noticed that much of the sustainability/green/environmental community likes to reason in only one direction: (1) If we’re going to maintain the current economy (p), then we’ll need alternative fuels that meet current energy needs (q). But why not contrapose? (2) If we can’t get alternative fuels to meet current energy needs (~q), then we won’t be able to maintain the current economy (~p). If you emphasize (1), the lesson is: let’s get to work on making alternative fuels meet current (extravagant) energy needs. But if you emphasize (2), the lesson is: let’s start thinking about what a different economy would look like. We think it’s vital to start thinking about both directions, and not neglect the contrapositive.

unauthorized copying, disclosure or distribution of the material in this

e-mail is strictly forbidden.

Categorised in: Economy/Wirtschaft, Environment/Umwelt, Politics/Politik

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