Bitcoin mining electricity cost in 2026
There are three main factors that determine the profitability of Bitcoin mining: electricity cost, hardware efficiency, and the price of BTC. A few years ago, getting a piece of digital gold was relatively easy and cheap, so the utility bill didn’t burn a hole in the pocket. But not anymore.
Optimizing a Bitcoin mining operation to the electricity cost in 2026 is absolutely vital because getting rewarded now is harder than ever, so the price and the output per every kilowatt counts. For those who think of becoming crypto miners, we explain the connection between electricity demand and mining difficulty, how miner’s efficiency affects the cost, and suggest strategies to lower the power bill.
How electricity fuels Bitcoin mining
Without electricity, any digital currency would cease to exist. However, the Bitcoin network is especially dependent on electric power because it needs powerful computational devices called Application-Specific Integrated Circuits (ASICs) miners to run around the clock to keep the blockchain secure and create new coins. They require a lot of power, and even more when trying to push them to the limit, like doing the Antminer S19 overclock, more on which you will find here.
Bitcoin’s constant appetite for electricity is due to its main consensus and security mechanism called Proof-of-Work (PoW). Consensus means that the entire network, made up of thousands of computers working across the entire globe, agrees on which transactions to validate without a central “decision-maker,” such as a bank. This makes Bitcoin decentralized, which is one of its main selling points. To participate in the process, an ASIC must always remain online, consuming electricity.
While the device is running, and eating up kilowatts-hours, it’s solving difficult mathematical puzzles. This requires huge amounts of computational power to make literally trillions of calculations per second. Moreover, Bitcoin’s protocol intentionally makes these puzzles hard enough that solving them costs real money in electricity bills. This is called the mining difficulty, a super strong security barrier.
Here is how this barrier works: every block added to the blockchain is basically real electricity, a currency of sorts, which miners “spend” to figure out a puzzle. Let’s say there’s a group that wants to cease control of the Bitcoin network through the notorious 51% attack. To achieve that on the blockchain, attackers would have to change all past transactions. This means they would have to recalculate every block and use the same amount of electricity again, but faster than the rest of the network combined. Given that Bitcoin now gobbles up around 195 TWh per year, the cost of attacking this network is “billions, and billions.”
To sum it all up:
- Electricity consumption is a part of the “work” done when mining Bitcoin.
- ASIC miners use vast amounts of energy to make computations to produce blocks and keep the network intact.
- Electricity cost for Bitcoin mining also acts as a defence mechanism, making potential attacks extremely costly.
How much electricity does it cost to mine Bitcoin?
We have come to the heart of the story: how much you’d have to pay for electricity to compete with other miners for that precious BTC. You have to realize that in 2026, it’s costlier than ever since the network difficulty is at an all-time high. It means that in order to earn the same amount of crypto as in, say, 2024, you’d have to run more ASICs, hence use more electricity, to make the total number of calculations required by the network. This directly affects the overall cost of mining.
When it comes to the electricity consumption of ASIC miners, it’s more nuanced than a simple side-by-side comparison of characteristics. Here, a lot depends on the overall efficiency of the device and the cooling method.
The efficiency is measured in Joules per Terahash (J/TH), which is the amount of electricity consumed by the device to achieve its hashing power (TH/s), which is the speed at which it solves the puzzles. The lower the J/TH, the more efficient an ASIC is.
Then there are three cooling methods for ASIC miners:
Air cooling is the most common one, which involves using fans and heatsinks to circulate air and dissipate heat.
Liquid/hydro cooling uses a circulating liquid coolant (like water or a specialized fluid) that runs through water blocks or heat exchangers.
Immersion cooling means sinking the entire mining hardware into a non-conductive, dielectric cooling fluid (like mineral oil) inside a tank.
Let’s compare the stats for different models of the Antminer S series, so you could understand how much electricity a Bitcoin miner uses, and why power consumption rate alone doesn’t determine the ultimate mining profitability.
| Model | Release Year | Hashrate (TH/s) | Power Consumption (W) | Efficiency (J/TH) |
| S19 | 2020 | 95 | 3250 | 34.2 |
| S19 Pro | 2020 | 110 | 3250 | 29.55 |
| S19j Pro | 2021 | 104 | 3068 | 29.5 |
| S19 XP | 2021 | 140 | 3010 | 21.5 |
| S19K Pro | 2023 | 120-136 | 3264 | 23 |
| S21 | 2023 | 200 | 3500 | 17.5 |
| S21 Pro | 2024 | 234 | 3510 | 15 |
| S23 (Air) | 2025 | 318 | 3498 | 11 |
As you can see, the electricity consumption rate didn’t change much over the years, contrary to hashrate and efficiency. Let’s compare these specs with those of hydro cooled models.
| Model | Release Year | Hashrate (TH/s) | Power Consumption (W) | Efficiency (J/TH) |
| S19 XP Hyd | 2022 | 257 | 5346 | 20.8 |
| S19 Pro Hyd | 2022 | 184 | 5428 | 29.5 |
| S21 Hyd | 2024 | 335 | 5360 | 16 |
| S21+ Hyd | 2025 | 395 | 5925 | 15 |
| S23 Hyd | 2025 | 580 | 5510 | 9.5 |
Here, while the power consumption is higher than that in air cooled models, the hashrate and the efficiency are noticeably better. Now, let’s see what ASIC miners with immersion cooling have to offer before drawing conclusions.
| Model | Release Year | Hashrate (TH/s) | Power Consumption (W) | Efficiency (J/TH) |
| S21 Immersion | 2024 | 257 | 5569 | 18.5 |
| S21 XP Immersion | 2024 | 184 | 4050 | 13.5 |
| S23 Immersion | 2025 | 335 | 5304 | 11 |
Let’s estimate the electricity costs in dollars and cents using the S23 model as an example since it’s a clear trade-off between efficiency and power consumption.
- The S23 Hyd is the top of the class in terms of efficiency and hashrate, achieving the sub-10 J/TH benchmark. For a fixed price, for example, $0.06/kWh, its daily electricity cost is highest at approximately $7.93, but it yields the highest mining output.
- The S23 (Air) has the lowest power draw and cost of around $5.04, making it the simplest and cheapest to run, though its lower efficiency and hashrate mean it’s the least profitable per W consumed.
- The S23 Immersion has roughly the same energy efficiency as the Air model, with an energy cost of approximately $7.64, but its value lies in its advanced cooling and high thermal stability, allowing for quiet, stable operation and overclocking.
Knowing that, we can calculate an example where a farm of 10 liquid-cooled S23Hyd miners, running at a $0.06/kWh rate, would consume a total of 854,400 kWh of electricity, costing $51,264, required in 2026 to mine 1 Bitcoin in about 150 days.
To sum it all up:
- High mining difficulty drives up the total cost of the operation, regardless of power efficiency.
- Energy efficiency (J/TH) is more important than raw power consumption.
- Cooling methods have a direct impact on efficiency and operational cost of Bitcoin mining.
How to reduce electricity costs
There are several strategies you can add to your playbook that can help bring the electricity cost down.
Finding the cheapest electricity possible
Miners often move to locations with very low utility rates, or they partner with power producers to use surplus energy (like wasted natural gas or excess wind/solar power).
Doing off-peak mining
Many electricity providers charge less during times of low demand, such as late at night. Miners can set their equipment to run most intensely during those discounted hours.
Managing the heat is essential
Because miners produce a lot of heat, you spend more money on cooling. Using advanced systems like liquid cooling can efficiently remove heat, which reduces the need for expensive air conditioning.
Bottom line
Mining Bitcoin in 2026 has become harder than ever because the network’s difficulty rate keeps rising, and electricity prices aren’t going down. Having new and efficient ASIC miners helps, but the main thing that decides whether a miner makes a profit is still the cost of electricity. In the end, cheap power is what decides the miner’s bottom line.
FAQ
How much electricity does it take to mine 1 Bitcoin?
In 2026, it will take approximately 854,400 kWh of electricity to mine one Bitcoin globally.
Which ASIC miner is the most energy efficient?
The Antminer S23 Hydro is currently the most energy-efficient model, offering around 9.5 J/TH thanks to its advanced hydro-cooling system.
How do I calculate my Bitcoin mining electricity cost?
Multiply your ASIC’s power consumption (in kW) by the number of hours it runs per day and your local electricity rate (per kWh).
