Compared to the euro, the peer-to-peer decentralized electronic currency has now become a relatively stable digital asset. Fiendish buyers trade their euros en masse online for Bitcoin, and soon, depositors worldwide join them. The price of Bitcoin rises, prompting more user adoption by spenders and speculators, and recognition from governments and populations alike.

The year is 2018. After a rough Greek exit from the eurozone, economic malaise has spread to Italy, Portugal, Spain, and France. Nervous citizens across Europe look for a way to get their money out as currency traders hammer the weakening euro, banks impose withdrawal limits, and their purchasing power plummets.

There is potential for Bitcoin to become more efficient by stuffing more transactions into the mining process. But at the end of the day, if Bitcoin sees increased adoption and price and many more useful transactions, power consumption is almost guaranteed to grow.

All that energy expenditure has an important purpose: it secures Bitcoin from attacks by speculators, criminals, and other evil-doers by raising the price of the computer power needed to gain control of all transactions on the network. The computers that make up the Bitcoin economy's backbone are constantly ensuring security and verifiability for the network by solving cryptographic puzzles. This process is called "mining." Those who participate in this network maintenance are rewarded in Bitcoin, incentivizing them to bulk up their machines so they can mine more efficiently.

From an environmental point of view, it certainly wouldn't be good news. Unfortunately for Bitcoin advocates, the currency uses too much electricity right now—way too much: According to my calculation, a single Bitcoin transaction uses roughly enough electricity to power 1.57 American households for a day.

The above scenario sounds like a nice piece of prepper-bait from conspiracy site infowars.com. But could (or should) Bitcoin actually take over? Some of the more enthusiastic Bitcoin advocates argue that the currency is ready for prime time—in other words, ready to replace national currencies , or perhaps replace global banking's creaking clearinghouses. Would this be good for the world?

With about 110,000 transactions per day, that works out to 1.57 households daily usage of electricity per Bitcoin transaction. Yes, every time you buy something in Bitcoin, you could be using as much electricity as 1.57 American families do in a day.

Computer cooling firm Allied Control estimates the total power consumption of the Bitcoin network at 250 to 500 Megawatts . Looking at the total hashrate , which is the number of calculations the network can perform per second, and applying a generous miner efficiency of 0.6 watts per gigahash, we can estimate our own back-of-the-envelope Bitcoin network constant power draw at just under 215 MW , although this figure is always in flux (it's important to note that many of the variables in my calculation are constantly changing slightly). That's around enough zap to power 173,000 average American households ' daily electricity usage.

Let's take this Bitcoin mine in China as an example of the scale of today's operations. It is supposedly running at 6 PH (quadrillion hashes) per second, according to a Chinese Bitcoin company CEO posting in a Bitcoin forum, with the aim to scale up to 12 PH per second. That would give it about 3.3 percent of the total power on the Bitcoin network. Because the Bitcoin network is set up to dole out around 3,600 BTC per day to miners, this mine would rake in about 118.8 BTC per day, or more than $30,000USD at the time of writing. That's not a bad haul when your electricity costs are among the lowest in the world at 3 to 6 cents per kw/h, about a third of US prices.

Motherboard has previously covered how big Bitcoin mining operations can get . So how much electricity are we talking about?

Bitcoin can currently handle up to 360,000 transactions per day given current limitations built into the technology, according to Jorge Stolfi, a computer science professor from Campinas University in Brazil, so there's some headroom left before things bog down.

One important thing to understand is that the electricity demands of Bitcoin mining won't scale up linearly with increased usage or transactions. Bitcoin miners use special hardware to guess over and over at solutions to computational problems for each "block," which records transactions into a permanent ledger. The first problem-solver "wins" the block and the reward: brand new bitcoins.

There is hope that Bitcoin may be able to reduce its footprint, however.

"It appears there are significant challenges to ensuring that Bitcoin's growth minimizes environmental impacts," offered Jeremy McDaniels, a financial system sustainability expert with the UNEP. "Energy footprints could be an issue of major scale-up is achieved."

As climate change becomes a more pressing concern for humanity every day, this huge level of energy use is difficult to justify for a currency wanting to improve on the current arrangement.

"The actual figure is likely worse, given that a large number of transactions are exchanges and miners moving bitcoins around and other low-value 'dust' transactions," said Matthew Green, a cryptography expert at Johns Hopkins University. "So each transaction where there's an exchange of goods or services happening is really representing even more electricity."

It would be possible to bring down the average power cost of each transaction by modifying the underlying Bitcoin protocol, but that's no easy feat. The Bitcoin community is currently debating a big change that would mean the network could theoretically handle about 7.2 million transactions a day on a comparable level of electricity consumption, according to Stolfi. That would require a majority of the people mining Bitcoin to agree to the change, however.

Keeping power consumption high in general also makes the network more secure by making it harder for any one entity to gain control. "The right way to think about this is that the energy expenditure provides a level of protection against attacks—it establishes a price floor, currently in the many millions, to launch a 34 percent or 51 percent attack [where an attacker can block transactions and double spend bitcoins as they please]," Emin Gun Sirer, a Cornell professor and blogger at Hacking Distributed, explained in an email.

However, that same level of security could be maintained while allowing for more transactions, he said, shrinking the cost per transaction.

All that needs to happen, then, is to expand the userbase so we have more transactions, right?

Unfortunately for Bitcoin, if user adoption spikes, so will price—and so must power consumption. Bitcoin mining leads to an arms race among miners to grab a slice of the fixed rewards doled out by the network, Stolfi said. The higher the financial rewards, the more miners will invest in powerful equipment to keep up with the competition. The Bitcoin protocol will continue to increase the difficulty of the cryptopuzzles to keep rewards constant, continuing the arms race until the last block is mined.

That makes Bitcoin about 5,033 times more energy intensive, per transaction, than VISA

The bottom line? Price = energy. "The total revenue of the mining industry is Bitcoin price times BTC revenue in USD/day, independently of anything else; and the electricity consumption, also in USD/day, is some large fraction of that," concludes Stolfi.