About the author : paulwesslundwriter

Paul Wesslund spent a career writing and editing for newspapers and in the energy industry. When he retired in 2015 he went on to write two books on how kindness and integrity leads to success, wrote a monthly energy column, became an environmental organizer, and got involved in the leadership of his church.

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Cryptocurrency has been around for about 15 years, but if you’re not familiar with bitcoin and other forms of digital currency, what you’re about to read will likely sound strange but interesting. 

Cryptocurrency is a form of money that exists only in the virtual world of the internet, and the annual amount of electricity required to support cryptocurrency already compares to the amount of electricity used annually in Finland. 

 A NEW KIND OF MINING INDUSTRY

Cryptocurrency has created a new class of companies known as bitcoin miners. It’s also created controversy. At least one state has restricted bitcoin mining as a drain on local resources, while others are creating incentives to attract cryptocurrency jobs. 

There are several cryptocurrencies, but bitcoin is the first and largest. Today, there are some 200,000 bitcoin transactions a day, and about 420 million users of cryptocurrency worldwide. 

Of course, the people exchanging all that currency want a guarantee of security — and that’s what creates the heavy electricity use. 

Bitcoin devised a method of ensuring the safety of its virtual money called “proof-of-work.” It’s a decentralized way of verifying a transaction by creating a complicated mathematical puzzle for people on the internet to solve. The reward is a valuable bitcoin. 

 

THE IMPACT ON ELECTRIC UTILITIES 

That idea might seem outlandish, but it’s worked well enough that the proof-of-work market is valued at more than $10 billion and is expected to grow to more than $67 billion in the next three years. 

With the popularity of cryptocurrency, the proof-of-work technique calls for tons of electrically powered computing capacity. Bitcoin miners often try to locate their data centers near a water supply to use as a coolant to keep the computers from overheating. Miners are also flocking to areas where electricity rates are low, and regulation is likely to be less burdensome. 

Critics say bitcoin mining could strain water resources, raise local electric rates and harm the environment with massive energy use. 

But bitcoin defenders cite the economic development benefits to a local economy. They also say data miners try to locate data centers where green energy is available — near hydroelectric dams or solar and wind power sites. 

MORE EFFICIENT DATA MINING SOLUTIONS 

Bitcoin mining could potentially benefit electric utilities by making more efficient use of electricity. Data centers use power 24/7, including at night when excess electricity is available. And since the data centers aren’t supplying a life-or-death service, bitcoin miners might be willing to accept a lower electric rate in return for having their power interrupted during times of peak electricity use. 

The controversy over data mining’s use of electricity could be resolved another way. Bitcoin’s biggest competitor, ethereum, has changed its verification system from proof-of-work to something called “proof-of-stake.” It’s a similar technique that doesn’t require solving a puzzle, which reduces energy use by more than 90%. 

Whether cryptocurrency continues to use enormous electricity use or finds less energy-intensive techniques will determine the future of a very young and very strange data mining industry. 

Paul Wesslund writes on consumer and cooperative affairs for the National Rural Electric Cooperative Association.


Paul Wesslund writes on consumer and cooperative affairs for the National Rural Electric Cooperative Association.