INFINITY TURBINE LLC We specialize in designs, plans, licensing, consulting, design services, and surplus spare parts. We no longer manufacture turbines or CO2 systems. More Info...
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The Six-Year Wall: Why AI Data Centers Can't Get Power— And Who Just Cracked the Problem Hyperscalers are racing to deploy gigawatts of AI compute, but the grid can't keep up and large gas turbines are backordered half a decade out. Infinity Turbine's Cluster Mesh Supercritical CO₂ system offers a radical alternative: modular, silent, trailer-deployable prime power that scales the way software does... More Info
Data Center 40 MW to 100 MW Using IT1000 Supercritical CO2 Gas Turbine Generator Silent Prime Power 1 MW (natural gas, solar thermal, thermal battery heat) ... More Info
Developing Rack Prime Power DC for AI Server Racks Sidecar 48V to 800V DC plus DC buffer for hyperscalers... More Info
The Shift from AC to DC Power Production for AI Data Centers AI data centers are pushing electrical infrastructure to its limits. The traditional AC power chain is no longer optimal for GPU-driven workloads. A DC-native architecture using Infinity Turbine’s Cluster Mesh system offers a path to higher efficiency, lower costs, and scalable modular power—potentially saving tens of millions per year at hyperscale... More Info
SMR and Cluster Mesh Supercritical CO2 Power System for Data Centers and AI Pairing Cluster Mesh Supercritical CO2 Power System with Small Modular Reactors enables hyperscalers to convert high-grade nuclear heat into ultra-efficient, dispatchable power with a compact, modular footprint tailored for AI-scale demand. More Info
ORC and Products Index Infinity Turbine ORC Index... More Info
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Bitcoin vs Placer Gold Mining A kWh Based Cost and Value Comparison When energy becomes the common denominator, placer gold and Bitcoin reveal very different economics. This analysis compares how many kilowatt hours it takes to mine one Bitcoin versus one ounce of placer gold and which delivers more value per unit of power.Assumptions Used for a Fair ComparisonBecause neither Bitcoin nor placer gold mining produces a fixed output per unit of energy, reasonable industry averages must be used.Bitcoin MiningNetwork efficiency (current-generation ASIC weighted average):Approximately 30 to 40 MWh per BitcoinMidpoint used for analysis:35,000 kWh per BitcoinThis aligns with modern fleet averages including S19-class and newer machines, accounting for difficulty, downtime, and infrastructure losses.Placer Gold MiningSmall to medium commercial placer operation using:Excavator or loaderWash plant or trommelPumps and sluicesEnergy converted to kWh equivalent from diesel and electricityTypical range:100 to 300 kWh per recovered ounce of placer goldMidpoint used for analysis:200 kWh per ounceThis assumes relatively good ground, coarse gold, and competent recovery. Poor ground can exceed 500 kWh per ounce.Energy Cost Comparison at 0.10 per kWhBitcoinEnergy per Bitcoin: 35,000 kWhEnergy cost per Bitcoin:35,000 x 0.10 = 3,500 dollarsBitcoin market value: 90,000 dollarsEnergy cost as percentage of value:Approximately 3.9 percentValue generated per kWh:90,000 divided by 35,000 = 2.57 dollars per kWhPlacer GoldEnergy per ounce: 200 kWhEnergy cost per ounce:200 x 0.10 = 20 dollarsGold market value: 5,000 dollars per ounceEnergy cost as percentage of value:0.4 percentValue generated per kWh:5,000 divided by 200 = 25 dollars per kWhSide by Side SummaryBitcoin:kWh per unit: 35,000 per BTCEnergy cost per unit: 3,500 dollarsMarket value per unit: 90,000 dollarsValue per kWh: 2.57 dollarsPlacer Gold:kWh per unit: 200 per ozEnergy cost per unit: 20 dollarsMarket value per unit: 5,000 dollarsValue per kWh: 25 dollarsKey ObservationsGold is roughly ten times more energy efficient on a value per kWh basis than Bitcoin under these assumptions.Bitcoin mining is fundamentally energy bound and difficulty adjusts to absorb available power.Placer gold mining is geology bound. When good ground exists, energy becomes almost irrelevant relative to value.Bitcoin offers instant liquidity and scalability but compresses margins through global competition.Placer gold offers asymmetric returns when high grade ground is accessed, but does not scale linearly.Strategic InterpretationIf electricity is scarce or expensive, placer gold mining dominates on an energy efficiency basis.If electricity is abundant, stranded, or waste derived, Bitcoin mining becomes attractive due to automation and mobility.Gold converts energy into physical scarcity.Bitcoin converts energy into digital scarcity.Both are energy monetization systems, but gold benefits from fixed physics while Bitcoin is governed by adaptive competition. |
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Cost to Mine one Bitcoin in 2026 There is no single exact, universally agreed-upon kWh figure for mining one Bitcoin in 2026 because it depends on network difficulty, hardware efficiency, and methodology used in the estimate. However, recent energy analyses and industry data provide reasonable bounds for 2025–2026:Estimated energy required to mine one Bitcoin (2025–2026 time frame)• Some industry estimates put it in the range of roughly 150,000 kWh per Bitcoin. This is based on network consumption allocations assuming total annual consumption ~150–175 TWh and daily Bitcoin issuance. ([Park Record][1])• Other sources suggest figures around 266,000 kWh per Bitcoin as an average estimate for mid-tier miners. ([CoinGeek][2])• A separate estimate for solo mining shows 860,000 kWh per Bitcoin, illustrating how energy per coin can vary widely based on mining scale and efficiency. ([CoinGecko][3])• Some controversial or non-standard sources claim even higher figures (e.g., ~535,000 kWh), but these are outliers that are not industry consensus. ([SalgenX][4])Reasonable consensus range for 2026:~150,000 to ~300,000 kWh per Bitcoin minedThis range reflects network-wide energy consumption estimates adjusted by Bitcoin issuance (~900 BTC per day) and total annual consumption (150–175 TWh). ([SQ Magazine][5])Why the range exists1. Network difficulty and hashrate fluctuate: The Bitcoin protocol adjusts difficulty so that blocks are found approximately every 10 minutes, but overall hashrate growth means more energy is needed to find the same number of blocks.2. Hardware efficiency varies: New ASICs can offer 10–15 J/TH or better, while older or less-efficient miners consume significantly more power for the same hash rate.3. Allocation method matters: Some estimates divide total network energy by coins mined; others consider individual miner data or solo mining scenario.4. Annual consumption estimates vary widely (from ~150 TWh to 204 TWh). ([Digiconomist][6])SummaryThus, the most defensible estimate for power to produce one Bitcoin around early 2026 falls into:~150,000 kWh to ~300,000 kWh per Bitcoin producedThis is an empirical range based on network energy use estimates and global block production, not a precise physical requirement per Bitcoin. If you want more detail or a calculation that ties specific network hashrate and ASIC efficiency into energy per Bitcoin, I can produce that breakdown.[1]: https://www.parkrecord.com/2025/12/17/green-tips-bitcoin-mining-requires-a-lot-of-energy/ Green Tips: Bitcoin mining requires a lot of energy[2]: https://coingeek.com/cheapest-place-to-mine-crypto-iran-leads-sustainability-needed/ Cheapest place to mine 'crypto': Iran leads, sustainability ...[3]: https://www.coingecko.com/learn/can-you-mine-bitcoin-solo How Hard Is It to Mine Bitcoin? Solo Mining Odds & Reality[4]: https://salgenx.com/cost-to-mine-one-bitcoin-by-salgenx.html How Much Energy Does It Take to Mine One Bitcoin ... • Salgenx[5]: https://sqmagazine.co.uk/bitcoin-energy-consumption-statistics/ Bitcoin Energy Consumption Statistics 2026: Insights[6]: https://digiconomist.net/bitcoin-energy-consumption/ Bitcoin Energy Consumption Index |
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2026 Bitcoin vs. Oz of Gold Below is a re-analysis using the updated 2026 Bitcoin energy range you referenced, while keeping the same gold assumptions from the original assessment.Inputs Held Constant• Power cost: 0.10 dollars per kWh• Bitcoin value: 90,000 dollars per BTC• Gold value: 5,000 dollars per ozUpdated Energy Intensity AssumptionsBitcoin mining in 2026• Range: 150,000 to 300,000 kWh per BTC• Midpoint for reference: 225,000 kWh per BTCPlacer gold mining• Same as prior assessment: • Typical range: 100 to 300 kWh per recovered ounce • Midpoint used: 200 kWh per ozRecomputed Energy Cost per UnitBitcoinAt 150,000 kWh per BTC• Energy cost per BTC: 150,000 x 0.10 = 15,000 dollars• Energy cost as percent of BTC value: 15,000 / 90,000 = 16.7 percent• Value created per kWh: 90,000 / 150,000 = 0.60 dollars per kWhAt 225,000 kWh per BTC• Energy cost per BTC: 22,500 dollars• Energy cost as percent of value: 25.0 percent• Value per kWh: 0.40 dollars per kWhAt 300,000 kWh per BTC• Energy cost per BTC: 30,000 dollars• Energy cost as percent of value: 33.3 percent• Value per kWh: 0.30 dollars per kWhPlacer goldAt 200 kWh per oz• Energy cost per oz: 200 x 0.10 = 20 dollars• Energy cost as percent of gold value: 20 / 5,000 = 0.4 percent• Value per kWh: 5,000 / 200 = 25 dollars per kWhFor completeness, gold range sensitivityAt 100 kWh per oz: value per kWh = 50 dollarsAt 300 kWh per oz: value per kWh = 16.67 dollarsSide by Side ComparisonUsing midpoints:• Bitcoin: 225,000 kWh per BTC produces 90,000 dollars of value • Value per kWh: 0.40 dollars • Energy cost share of value at 0.10 dollars per kWh: 25 percent• Placer gold: 200 kWh per oz produces 5,000 dollars of value • Value per kWh: 25 dollars • Energy cost share of value at 0.10 dollars per kWh: 0.4 percentEnergy value density ratio:• Gold delivers about 25 / 0.40 = 62.5 times more value per kWh than Bitcoin on these midpoints• Using the full Bitcoin range: • Versus 150,000 kWh per BTC: 25 / 0.60 = 41.7 times • Versus 300,000 kWh per BTC: 25 / 0.30 = 83.3 timesWhat This Means Economically1. Bitcoin becomes highly power-price sensitive at 2026 network conditions. At 0.10 dollars per kWh, energy alone can consume roughly 17 to 33 percent of revenue before you pay for hardware, hosting, labor, downtime, curtailment, and capital recovery.2. Placer gold is rarely energy-bound in the same way. When ground is viable, the energy cost is typically immaterial compared to the value of recovered gold; the dominant variables are grade, recovery efficiency, dilution, and equipment utilization.3. The practical result is that Bitcoin is a structured energy-to-asset conversion business where competition forces energy to become a primary cost driver, while placer gold is a geology and operations business where energy is usually secondary unless conditions are extreme.If you want, I can also compute the implied breakeven electricity price for Bitcoin at each kWh per BTC assumption, and compare that to a gold operation breakeven per oz under different production and recovery scenarios. |
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Miner Focussed Below is a miner focused investment comparison framed around scarcity, capital durability, margin stability, and risk in 2026 conditions.Executive AnswerFor a miner deploying capital today, gold is the superior investment on a risk adjusted and energy adjusted basis.Bitcoin remains attractive only under specific power arbitrage conditions.Why Scarcity Matters Differently for Gold and BitcoinGold Scarcity• Physical scarcity is governed by geology and thermodynamics.• Annual supply growth is approximately 1.5 percent.• No algorithm can accelerate production when prices rise.• Higher prices do not meaningfully reduce mining difficulty; they increase margins.Bitcoin Scarcity• Absolute cap is fixed at 21 million coins.• Mining difficulty increases automatically with competition.• Higher prices do not increase margins long term; they attract more hashrate until margins compress.• Scarcity benefits holders more than miners.Key distinction:Gold scarcity benefits miners and holders.Bitcoin scarcity primarily benefits holders.Energy Economics Comparison at 2026 ConditionsBitcoin Miner Economics• Energy per BTC: 150,000 to 300,000 kWh• Energy cost at 0.10 dollars per kWh: 15,000 to 30,000 dollars• Revenue per BTC: 90,000 dollars• Energy consumes 17 to 33 percent of revenue before: • ASIC depreciation • Hosting • Cooling • Network difficulty increases • Halving effectsBitcoin mining margins are structurally temporary.Gold Miner Economics• Energy per ounce: 100 to 300 kWh• Energy cost at 0.10 dollars per kWh: 10 to 30 dollars• Revenue per ounce: 5,000 dollars• Energy cost typically below 1 percent of revenueGold mining margins expand when price rises.Capital LongevityBitcoin Mining Capital• ASIC useful life: 3 to 5 years• Continuous obsolescence• Value drops sharply when difficulty rises or new hardware is released• Equipment resale value collapses during bear cyclesGold Mining Capital• Wash plants, excavators, trommels, pumps last decades• Capital can be redeployed to different ground• Equipment retains resale value• Improvements compound rather than resetGold mining capital is durable.Bitcoin mining capital is consumable.Operational RiskBitcoin Mining Risks• Difficulty increases outside operator control• Regulatory exposure• Grid curtailment risk• Hardware supply chain risk• Centralization pressure from industrial scale minersGold Mining Risks• Geological uncertainty• Permitting and access• Seasonal constraints• Recovery efficiencyGold risk is local and knowable.Bitcoin risk is global and adversarial.Scalability RealityBitcoin scales infinitely but margins do not.Gold scales only where geology allows, but margins persist.This is why Bitcoin mining behaves like an energy arbitrage business, while gold mining behaves like a resource extraction business.Investment ConclusionFor a miner, not a speculator:• Gold offers: • Superior value per kWh • Structural margin expansion with rising prices • Long lived capital • Energy as a minor input • Scarcity that benefits production• Bitcoin offers: • High liquidity • Instant settlement • Rapid deployment • But shrinking margins and rising competitionBottom LineIf you control exceptional low cost or stranded power, Bitcoin mining can still work.If you control ground, equipment, and permitting, gold mining is the better long term investment for a miner in a rising scarcity driven market. |
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