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*Lime Kiln Calculations - $ | =About= | ||
*Lime Kiln Calculations - $2400 for a minimum 100kW heater element for 1 ton batch kiln, lasts 150-300 heats. | |||
*Bulk lime is $150-200 per ton - 10 cents per lb. | |||
*Around 1.4 kwhr/kg of lime production - or 1400Mwhr for a ton | |||
*Basic cost of open source - with [[1 Cent Solar]] - we have 1400 kWhr * 1 cent/kWhr = $14 in electricity | |||
*Absolute base cost is $14 energy and $12 in [[Kanthal A1]] wear - making a 100 lb sack of concrete mix come out to $1.50 + rock, which is near zero marginal cost. Far below the $7.5/ 100 lb sack of industrial concrete. | |||
*It's worth doing. For 3000 psi concrete, need to use [[Metakaolin]] mixed during cement mix phase, Commercially, they fire with 20% clay-containing limestone at slightly higher temperature, 1200C. But can do pure limestone at 1100 and then add metakaolin. | |||
*Otherwise, get lime concrete at 1500 PSI. | |||
=Free Pozzolan= | |||
== Economic Analysis: Pozzolan Production == | |||
If you have '''$0.01/kWh''' electricity and '''$10/ton''' limestone, your energy and raw material costs are world-class. In this specific scenario, paying $60–$100/ton for Fly Ash does indeed double or triple your "binder" cost. | |||
To keep your economics in line with your ultra-cheap power, you should '''calcine your own local clay''' to create your pozzolan. | |||
=== The "Free" Pozzolan Strategy === | |||
Since your power is essentially negligible, you can run a second "calcining" cycle in your 100kW kiln for the clay. | |||
* '''The Cost:''' At $0.01/kWh, firing 1 ton of clay to <math>750^{\circ}C</math> (roughly 600 kWh) costs only '''$6.00 in electricity'''. | |||
* '''The Yield:''' This transforms "free" site clay into a high-performance pozzolan for roughly '''$6.00/ton''', which is 10x cheaper than buying Fly Ash. | |||
=== Step 1: Dry Processing (Skip the Water) === | |||
To make this practical for many houses, '''do not wash the dirt.''' Washing is for pottery-grade purity. For 3,000 psi concrete, "impurities" like fine silt and sand in the clay act as beneficial micro-aggregates. | |||
* '''Excavate:''' Dig up the clay-rich subsoil on your site. | |||
* '''Dry:''' Spread it out in the sun until it is bone-dry and brittle. | |||
* '''Crush:''' Use a simple jaw crusher or hammer mill to break it into 1-inch chunks. | |||
=== Step 2: The "Pozzolan Fire" === | |||
# Load the crushed clay chunks into your 1-ton Kanthal kiln. | |||
# Heat to <math>750^{\circ}C</math> and hold for 2–3 hours. | |||
# '''Warning:''' Do not hit your <math>1,100^{\circ}C</math> lime temperature, or you will turn the clay into "grog" (hard ceramic), which is chemically dead and won't react with the lime. | |||
=== Step 3: Final Pulverization === | |||
This is the only way to get 3,000 psi. You must grind the fired clay into a micro-fine flour. | |||
* '''The Tool:''' Since you are building many houses, buy or build a '''Continuous Ball Mill'''. | |||
* '''The Process:''' Tumble the fired clay with steel balls until it passes a 325-mesh screen. This increases the surface area so the lime can "grab" it instantly. | |||
=== Conclusion === | |||
By using your cheap $0.01/kWh power to fire local clay at <math>750^{\circ}C</math>, you can produce a high-strength pozzolan for approximately '''$6–$10 per ton''' (electricity + labor). This matches your $10/ton lime cost and keeps your total binder cost around '''$20/ton''', which is roughly '''85% cheaper''' than buying Portland cement or Fly Ash. | |||
Latest revision as of 02:34, 30 January 2026
About
- Lime Kiln Calculations - $2400 for a minimum 100kW heater element for 1 ton batch kiln, lasts 150-300 heats.
- Bulk lime is $150-200 per ton - 10 cents per lb.
- Around 1.4 kwhr/kg of lime production - or 1400Mwhr for a ton
- Basic cost of open source - with 1 Cent Solar - we have 1400 kWhr * 1 cent/kWhr = $14 in electricity
- Absolute base cost is $14 energy and $12 in Kanthal A1 wear - making a 100 lb sack of concrete mix come out to $1.50 + rock, which is near zero marginal cost. Far below the $7.5/ 100 lb sack of industrial concrete.
- It's worth doing. For 3000 psi concrete, need to use Metakaolin mixed during cement mix phase, Commercially, they fire with 20% clay-containing limestone at slightly higher temperature, 1200C. But can do pure limestone at 1100 and then add metakaolin.
- Otherwise, get lime concrete at 1500 PSI.
Free Pozzolan
Economic Analysis: Pozzolan Production
If you have $0.01/kWh electricity and $10/ton limestone, your energy and raw material costs are world-class. In this specific scenario, paying $60–$100/ton for Fly Ash does indeed double or triple your "binder" cost.
To keep your economics in line with your ultra-cheap power, you should calcine your own local clay to create your pozzolan.
The "Free" Pozzolan Strategy
Since your power is essentially negligible, you can run a second "calcining" cycle in your 100kW kiln for the clay.
- The Cost: At $0.01/kWh, firing 1 ton of clay to <math>750^{\circ}C</math> (roughly 600 kWh) costs only $6.00 in electricity.
- The Yield: This transforms "free" site clay into a high-performance pozzolan for roughly $6.00/ton, which is 10x cheaper than buying Fly Ash.
Step 1: Dry Processing (Skip the Water)
To make this practical for many houses, do not wash the dirt. Washing is for pottery-grade purity. For 3,000 psi concrete, "impurities" like fine silt and sand in the clay act as beneficial micro-aggregates.
- Excavate: Dig up the clay-rich subsoil on your site.
- Dry: Spread it out in the sun until it is bone-dry and brittle.
- Crush: Use a simple jaw crusher or hammer mill to break it into 1-inch chunks.
Step 2: The "Pozzolan Fire"
- Load the crushed clay chunks into your 1-ton Kanthal kiln.
- Heat to <math>750^{\circ}C</math> and hold for 2–3 hours.
- Warning: Do not hit your <math>1,100^{\circ}C</math> lime temperature, or you will turn the clay into "grog" (hard ceramic), which is chemically dead and won't react with the lime.
Step 3: Final Pulverization
This is the only way to get 3,000 psi. You must grind the fired clay into a micro-fine flour.
- The Tool: Since you are building many houses, buy or build a Continuous Ball Mill.
- The Process: Tumble the fired clay with steel balls until it passes a 325-mesh screen. This increases the surface area so the lime can "grab" it instantly.
Conclusion
By using your cheap $0.01/kWh power to fire local clay at <math>750^{\circ}C</math>, you can produce a high-strength pozzolan for approximately $6–$10 per ton (electricity + labor). This matches your $10/ton lime cost and keeps your total binder cost around $20/ton, which is roughly 85% cheaper than buying Portland cement or Fly Ash.