Bitcoin mining requires more electricity than Austria
Three economics professors from the University of New Mexico in Albuquerque (USA) have now investigated the extent of the climate damage caused by Bitcoin mining and reported on it in the journal “Scientific Reports”.
The first Bitcoin came into circulation in 2009, making it the oldest cryptocurrency in the world. It is also one of the managed virtual currencies on the market: In December 2021, Bitcoin had a market capitalization of around 960 billion US dollars (this currently corresponds to around 985 billion euros) and a global market share of around 41 percent among cryptocurrencies. Bitcoins are also referred to as digital gold: similar to gold mining, the virtual coins also have to be mined.
And that consumes enormous amounts of energy: the production is based on what is known as blockchain technology. This means that all bitcoin transactions are stored as cryptographically concatenated blocks of data. A network of miners (prospectors) verifies every transaction and ensures that the data block was generated correctly. Miners who are the first to verify a certain number of transactions and provide the correct block are rewarded with new bitcoins.
This has created a competition in which miners all over the world with ever increasing computing power are fighting to add new elements to the so-called blockchain as quickly as possible. The number of miners is also increasing. Overall, the energy requirement to mine the bitcoins increases.
Benjamin Jones’ team has now calculated the energy requirements for digital prospecting. According to this, global mining activities in 2020 consumed 75.4 terawatt hours of electricity. This corresponds to more energy than Austria (69.9 TWh) or Portugal (48.4 TWh) used in the same year.
The three researchers also note that for the period examined from 2016 to 2021, the climate damage per virtual coin increased steadily. “Our results suggest that bitcoin mining is becoming dirtier and more climate-damaging over time,” Jones said. Cambridge University estimates that around 61 percent of the electricity used to mine cryptocurrencies like Bitcoin comes from non-renewable energy sources like coal and natural gas.
According to calculations by Jones and colleagues, there is a steep increase in CO2 emissions per Bitcoin: With fluctuations in the global locations of miners and the local electricity mix, a virtual coin mined in 2021 released 126 times more CO2 than one from 2016 – an increase of 0 .9 to 113 tons of CO2 per Bitcoin in just five years.
The global Bitcoin climate damage in the study period 2016 to 2021 is estimated at a total of 12 billion US dollars. The authors predicted that in 2020 they exceeded the market price of mined coins on more than a third of the days. Climate damage peaked at 156 percent of the coin price in May 2020. Thus, every dollar of Bitcoin market value created this month was responsible for $1.56 in global climate damage. However, the Bitcoin value had just fallen sharply at the time.
The researchers then recorded the climate damage caused by the cryptocurrency with the damage caused by other products. According to the study, the climate damage caused by Bitcoins from 2016 to 2021 will amount to an average of 35 percent of the market value. The mining of the cryptocurrency is thus the same as other energy-intensive, highly climate-damaging processes such as beef production (33 percent), electricity generation from natural gas (46 percent) or the production of petrol from crude oil (41 percent). Gold mining, on the other hand, produces only 4 percent of its market value in climate damage.
In order for such Bitcoin damage to amount to 4 percent of the market value in the future, the scientists would have to add the share of renewable energies for mining Bitcoins to be almost 90 percent. In order to curb climate change, governments would have to regulate energy-intensive processes such as bitcoin mining through political mechanisms, says co-author Robert Berrens.
Meanwhile, the second most important cryptocurrency after Bitcoin, ether, completed a kind of energy transition in mid-September: According to the Ethereum Foundation, the expected adjustment of the consensus or safeguarding procedure for transactions reduced electricity consumption by 99.95 percent.