Recent disclosures from the XRP Ledger community have brought renewed focus to the stark contrast in energy usage between major blockchain networks. Data shared by Vet , a long-standing validator on the XRP Ledger, outlines how XRP’s underlying infrastructure operates at a fraction of the energy cost associated with Bitcoin. According to the figures presented, the XRP Ledger’s total electricity consumption over the past year amounted to roughly $73,000. By comparison, Bitcoin’s annual power demand is estimated to translate into electricity expenses ranging between $8 billion and $12 billion, based on industrial energy pricing. The comparison underscores how fundamentally different design choices result in vastly different operational footprints. How XRP’s Energy Use Is Calculated Vet’s analysis draws from recent XRP Ledger network metrics as of mid-February 2026. These figures indicate that the XRPL consumed slightly over 400,000 kilowatt-hours across the entire year. XRP used $73,000 in electricity to run the entire network for 1 year. Bitcoin used $8,000,000,000 – $12,000,000,000 in electricity to run the entire network for 1year. (Industrial electricity rate, not residential) On per transaction basis this results in $0.0000028 per XRP Tx… pic.twitter.com/pVFWpC9b7p — Vet (@Vet_X0) February 15, 2026 When distributed across total transaction throughput, the energy requirement per transaction is measured in fractions of a watt-hour, translating to a negligible cost measured in millionths of a dollar per transfer. This low consumption reflects the XRPL’s validator-based consensus system, which does not rely on competitive computation. Instead of expending energy to solve cryptographic puzzles, validators agree on transaction order through a coordination process that requires minimal processing power. Bitcoin’s Power Demand Remains Orders of Magnitude Higher By contrast, Bitcoin’s electricity usage continues to scale with its Proof-of-Work mining model. Estimates from the University of Cambridge Judge Business School Centre for Alternative Finance place Bitcoin’s lower-bound energy demand near 100 terawatt-hours per year. This level of consumption rivals that of some mid-sized countries. When converted into monetary terms using industrial electricity rates, the resulting cost aligns with Vet’s estimate of multi-billion-dollar annual spending. On a per-transaction basis, this implies energy costs that can reach tens of dollars, depending on network conditions and mining efficiency. Developer Perspectives on Infrastructure and Sustainability Additional context came from Wietse Wind, founder of XRPL Labs, who emphasized that XRPL’s efficiency becomes even more pronounced when focusing strictly on electricity usage rather than hardware investments. He noted that a large portion of XRPL Labs’ infrastructure is powered by solar energy, including stored power used outside daylight hours. We are on X, follow us to connect with us :- @TimesTabloid1 — TimesTabloid (@TimesTabloid1) June 15, 2025 Another XRPL developer, Bird, added that the energy difference between the two networks translates into significant avoided consumption. In his assessment, XRP transactions are effectively millions of times cheaper from an electricity standpoint, representing billions of dollars in power usage that never had to occur. The divergence in energy demand comes from architecture rather than scale alone. Bitcoin’s security model is intentionally energy-intensive, relying on mining competition to prevent network manipulation. XRP, on the other hand, achieves consensus through validator agreement without requiring energy-heavy computation. Historical estimates have shown Bitcoin accounting for a measurable share of global electricity usage, while XRPL’s annual consumption has consistently remained within the range of hundreds of megawatt-hours. The latest figures suggest that the trend has not changed. Who Pays Bitcoin’s Energy Bill Vet also addressed the economic implications of Bitcoin’s electricity demand. Miners absorb energy costs directly and typically offset expenses by selling part of their block rewards. During periods of market weakness, this can introduce sustained selling pressure because operating margins tighten. While Bitcoin supporters argue that high energy use underpins network security, critics maintain that more efficient alternatives can support global payments without comparable environmental or financial costs. The data reinforces a long-standing argument within the digital asset space, which is that network design choices carry lasting consequences. XRP’s low-energy model continues to position it as a candidate for large-scale payments infrastructure, while Bitcoin’s power usage remains a defining and controversial feature of its system. Disclaimer : This content is meant to inform and should not be considered financial advice. The views expressed in this article may include the author’s personal opinions and do not represent Times Tabloid’s opinion. Readers are urged to do in-depth research before making any investment decisions. Any action taken by the reader is strictly at their own risk. Times Tabloid is not responsible for any financial losses. Follow us on Twitter , Facebook , Telegram , and Google News The post XRPL Validator: XRP Used $73K in Electricity, While Bitcoin Burned $8B-$12B appeared first on Times Tabloid .
