λ = 0.068 W/m·K at mean temperature ((500+20)/2 = 260 °C, from the published curve). Pipe losses per metre, four thicknesses, savings vs bare.
| Pipe | 30 mm W/m | 50 mm W/m | 80 mm W/m | 100 mm W/m | BARE W/m | Surface @50 mm | Saving €/m·yr @50 mm | t CO2/m·yr |
|---|---|---|---|---|---|---|---|---|
| DN25 | 175 | 138 | 113 | 103 | 504 | 53 °C | €178 | 0.65 |
| DN50 | 256 | 194 | 152 | 136 | 909 | 58 °C | €349 | 1.28 |
| DN80 | 339 | 249 | 190 | 168 | 1,341 | 62 °C | €532 | 1.95 |
| DN100 | 411 | 297 | 222 | 195 | 1,724 | 64 °C | €696 | 2.55 |
| DN150 | 564 | 398 | 290 | 251 | 2,538 | 67 °C | €1,044 | 3.82 |
| DN200 | 707 | 491 | 352 | 302 | 3,304 | 69 °C | €1,372 | 5.02 |
| DN300 | 1,001 | 683 | 479 | 406 | 4,884 | 71 °C | €2,050 | 7.50 |
Assumptions: 20 °C ambient, still air (h=10 W/m²·K combined), €0.05/kWh fuel, 8000 h/yr, 82% efficiency, 0.183 kg CO2e/kWh (DESNZ 2024). Flat surfaces at this duty: bare 4,800 W/m² → 576 W/m² at 50 mm (≈€2,060/m²·yr saved). Method: ASTM C680 simplified — methodology. Your exact case: free calculator.
| Material | λ W/m·K | Loss W/m | Surface | Saving €/m·yr | t CO2/m·yr |
|---|---|---|---|---|---|
| Stone wool (mineral wool) | 0.079 | 339 | 70 °C | €675 | 2.5 |
| Ceramic fibre (RCF / AES blanket) | 0.069 | 300 | 65 °C | €694 | 2.5 |
| Aerogel blanket | 0.038 | 173 | 46 °C | €757 | 2.8 |
| Calcium silicate | 0.083 | 356 | 73 °C | €667 | 2.4 |
| Expanded perlite | 0.086 | 367 | 75 °C | €662 | 2.4 |
| Microporous (fumed-silica) panels | 0.025 | 117 | 37 °C | €784 | 2.9 |
| E-glass needle mat | 0.068 | 297 | 64 °C | €696 | 2.5 |
| Silica needle mat / fabric | 0.062 | 274 | 61 °C | €707 | 2.6 |
DN100 pipe at 500 °C, 50 mm insulation, per metre of pipe; bare loss 1,724 W/m. λ at mean temperature; € and CO2 per metre·year at €0.05/kWh, 8000 h, 82% efficiency. Method: ASTM C680 simplified (h=10).
Material datasheet: E-glass needle mat → · temperature class: by temperature →
